From: Chet Ramey Date: Mon, 5 Aug 2013 13:55:44 +0000 (-0400) Subject: commit bash-20130720 snapshot X-Git-Tag: bash-4.4-alpha~137 X-Git-Url: http://git.ipfire.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=7571d3f4bb4f649b78a62cd65e3a9fa9fabb73c1;p=thirdparty%2Fbash.git commit bash-20130720 snapshot --- diff --git a/CHANGES b/CHANGES index f081896e7..3aaa81770 100644 --- a/CHANGES +++ b/CHANGES @@ -37,6 +37,21 @@ i. Fixed the nameref circular reference checking to be less strict and only j. Fixed a bug that caused trap handlers to be executed recursively, corrupting internal data structures. +k. Fixed a bug that could result in bash not compiling if certain options were + not enabled. + +l. Fixed a bug that caused the arithmetic expansion code to attempt variable + assignments when operator precedence prohibited them. + +m. Word expansions like ${foo##bar} now understand indirect variable references. + +n. Fixed a bug that caused `declare -fp name' to not display a function + definition. + +o. Fixed a bug that caused asynchronous child processes to modify the stdin + file pointer when bash was using it to read a script, which modified the + parent's value as well. + 2. Changes to Readline a. Fixed a bug in vi mode that caused the arrow keys to set the saved last @@ -51,10 +66,25 @@ c. Fixed a bug with vi mode that prevented `.' from repeating a command d. Fixed a bug that could cause completion to core dump if it was interrupted by a signal. +e. Readline now sends the meta-key enable string to the terminal if the + terminal has been successfully initialized. + +f. Readline now calls the signal hook after resizing the terminal when it + receives a SIGWINCH. + +g. Fixed a bug that could cause the history list code to perform an out-of- + bounds array reference if the history list is empty. + 3. New Features in Bash a. Shells started to run process substitutions now run any trap set on EXIT. +b. There is now a configure-time option to enable the globasciiranges option + by default. + +c. The read builtin now checks its first variable argument for validity before + trying to read any input. + ------------------------------------------------------------------------------ This document details the changes between this version, bash-4.3-alpha, and the previous version, bash-4.2-release. diff --git a/CHANGES-4.3 b/CHANGES-4.3 index 45d819c39..94627720a 100644 --- a/CHANGES-4.3 +++ b/CHANGES-4.3 @@ -37,6 +37,21 @@ i. Fixed the nameref circular reference checking to be less strict and only j. Fixed a bug that caused trap handlers to be executed recursively, corrupting internal data structures. +k. Fixed a bug that could result in bash not compiling if certain options were + not enabled. + +l. Fixed a bug that caused the arithmetic expansion code to attempt variable + assignments when operator precedence prohibited them. + +m. Word expansions like ${foo##bar} now understand indirect variable references. + +n. Fixed a bug that caused `declare -fp name' to not display a function + definition. + +o. Fixed a bug that caused asynchronous child processes to modify the stdin + file pointer when bash was using it to read a script, which modified the + parent's value as well. + 2. Changes to Readline a. Fixed a bug in vi mode that caused the arrow keys to set the saved last @@ -51,564 +66,21 @@ c. Fixed a bug with vi mode that prevented `.' from repeating a command d. Fixed a bug that could cause completion to core dump if it was interrupted by a signal. -3. New Features in Bash - -a. Shells started to run process substitutions now run any trap set on EXIT. - ------------------------------------------------------------------------------- -This document details the changes between this version, bash-4.3-alpha, -and the previous version, bash-4.2-release. - -1. Changes to Bash - -a. Fixed several bugs concerning incomplete bracket expressions in filename - generation (globbing) patterns. - -b. Fixed a bug with single quotes and WORD in ${param op WORD} when running - in Posix mode. - -c. Fixed a bug that caused the pattern removal and pattern substitution word - expansions and case statement word expansion to not match the empty string. - -d. Fixed a bug that caused the tzset() function to not work after changing - the TZ enviroment variable. - -e. Fixed a bug that caused the RHS of an assignment statement to undergo - word splitting when it contained an unquoted $@. - -f. Fixed bugs that caused the shell to not react to a SIGINT sent while - waiting for a child process to exit. - -g. Bash doesn't try to run things in a signal handler context when it gets a - signal (SIGINT/SIGHUP/etc) while reading input using readline but still - be responsive to terminating signals. - -h. Fixed a bug that caused bash to go into an infinite loop if a filename - to be matched contained an invalid multibyte character. - -i. Fixed a bug that caused PS4 to end up being truncated if it is longer - than 128 bytes. - -j. Fixed a bug that caused brace expansion to not skip over double-quoted - command substitution. - -k. System-specific updates for: DJGPP, HP/UX, Mac OS X - -l. Fixed a bug in displaying commands that caused redirections to be associated - with the wrong part of the command. - -m. Fixed the coproc cleanup to unset the appropriate shell variables when a - coproc terminates. - -n. Fixed a bug that caused `fc' to dump core due to incorrect calculation of - the last history entry. - -o. Added workarounds for FreeBSD's implementation of faccessat/eaccess and - `test -x'. - -p. Fixed a bug that caused the shell to not match patterns containing - control-A. - -q. Fixed a bug that could result in doubled error messages when the `printf' - builtin got a write error. - -r. Fixed a bug that caused the shell to not correctly expand words containing - multiple consecutive quoted empty strings (""""""aa). - -s. Fixed a bug that caused the shell to not correctly parse multi-line - process substitutions containing comments and quoted strings. - -t. Fixed a problem with the bash malloc's internal idea of the top of the - memory heap that resulted in incorrect decisions to try to reduce the - break and give memory back to the kernel. - -u. There are changes to the expansions peformed on compound array assignments, - in an effort to make foo=( [ind1]=bar [ind2]=baz ) identical to - foo[ind1]=bar foo[ind2]=baz. - -v. Bash now reports an error if `read -a name' is used when `name' is an - existing associative array. - -w. Fixed a bug that allowed an attempted assignment to a readonly variable - in an arithmetic expression to not return failure. - -x. Fixed several bugs that caused completion functions to be invoked even when - the cursor was before the first word in the command. - -y. Fixed a bug that caused parsing a command substitution to overwrite the - parsing state associated with the complete input line. - -z. Fixed several bugs with the built-in snprintf replacement and field widths - and floating point. - -aa. Fixed a bug that caused incorrect offset calculations and input buffer - corruption when reading files longer than 2^31 bytes. - -bb. Fixed several bugs where bash performed arithmetic evaluation in contexts - where evaluation is suppressed. - -cc. Fixed a bug that caused bash to close FIFOs used for process substitution - too early when a shell function was executing, but protect against using - all file descriptors when the shell functions are invoked inside loops. - -dd. Added checks for printable (and non-printable) multibyte characters for - use in error messages. - -ee. Fixed a bug that caused ^O (operate-and-get-next) to not work correctly - at the end of the history list. - -ff. Fixed a bug that caused command-oriented history to incorrectly combine - here documents into one line. - -gg. Fixed a bug that caused importing SHELLOPTS from the environment into a - Posix-mode shell to print an error message and refuse to parse it. - -hh. Fixed a bug that caused the shell to delete an extra history entry when - using `history -s'. - -ii. Fixed a bug that caused floating-point exceptions and overflow errors - for the / and % arithmetic operators when using INTMAX_MIN and -1. - -jj. Fixed a bug that caused parsing errors when reading an arithmetic for - loop inside a command substitution. - -kk. Fixed a bug that caused a readonly function to be unset when unset was - called without the -f or -v option. - -ll. Fixed several bugs in the code that quotes characters special to regular - expressions when used in a quoted string on the RHS of the =~ operator - to the [[ command. - -mm. Fixed a bug that caused redirections to fail because the file descriptor - limit was set to a value less than 10. - -nn. Fixed a bug that caused the `read' builtin to execute code in a signal - handler context if read timed out. - -oo. Fixed a bug that caused extended globbing patterns to not match files - beginning with `.' correctly when a `.' was explicitly supplied in the - pattern. - -pp. Fixed a bug that caused key sequences longer than two characters to not - work when used with `bind -x'. - -qq. Fixed a bug that resulted in redefined functions having the wrong source - file names in BASH_SOURCE. - -rr. Fixed a bug that caused the read builtin to assign null strings to variables - when using `read -N', which caused core dumps when referenced - -ss. Fixed a bug that caused `bash -m script' to not enable job control while - running the script. - -tt. Fixed a bug that caused `printf -v var' to dump core when used with the - %b format code. - -uu. Fixed a bug that caused the shell to exit with the wrong status if -e was - active and the shell exited on a substitution error. - -vv. Fixed a bug that caused the shell to seg fault if an array variable with - the same name as an existing associative array was implicitly created by - an assignment (declare a[n]=b). - -ww. Fixed a bug that caused a redirection to misbehave if the number specified - for a file descriptor overflows an intmax_t. - -xx. Fixed several bugs with the handling of valid and invalid unicode character - values when used with the \u and \U escape sequences to printf and $'...'. - -yy. Fixed a bug that caused tildes to not be escaped in expanded filenames, - making them subject to later expansion. - -zz. When using the pattern substitution word expansion, bash now runs the - replacement string through quote removal, since it allows quotes in that - string to act as escape characters. This is not backwards compatible, so - it can be disabled by setting the bash compatibility mode to 4.2. - -aaa. Fixed the rest of the cases where the shell runs non-allowed code in a - signal handler context. - -bbb. Fixed a bug that caused spurious DEL characters (\177) to appear in - double-quoted expansion where the RHS is evaluated to the empty string. - -ccc. Fixed a bug that caused the use of the shell's internal random number - generator for temporary file names to perturb the random number - sequence. - -ddd. Fixed several bugs that caused `declare -g' to not set the right global - variables or to misbehave when declaring global indexed arrays. - -eee. Fixed a logic bug that caused extended globbing in a multibyte locale to - cause failures when using the pattern substititution word expansions. - -fff. Fixed a bug that caused the `lastpipe' option to corrupt the file - descriptor used to read the script. - -ggg. Fixed a bug that causes the shell to delete DEL characters in the - expanded value of variables used in the same quoted string as variables - that expand to nothing. - -hhh. Fixed a bug that caused the shell to assign the wrong value from an - assignment like (( x=7 )) when `x' was an existing array variable. - -iii. Fixed a bug that caused the shell to misbehave when generating sequences - and the boundary values overflow an intmax_t. - -jjj. Fixed a bug caused expansion errors if an expansion of "$@" appeared - next to another expansion (e.g.. "${@}${x}"). - -kkk. Fixed a potential buffer overflow bug when performing /dev/fd expansion. - -lll. Fixed a bug that resulted in an extra semicolon being added to compound - assignments when they were added to the history list. - -mmm. Fixed a bug that caused mapfile to read one extra line from the input. - -nnn. Fixed a bug that caused the mail checking code to use uninitialized - values. - -ooo. Fixed a bug that prevented history timestamps from being saved if the - history comment character is unset. - -ppp. Fixed a bug that caused the case-modifying expansions to not work with - multibyte characters. - -qqq. Fixed a bug that caused the edit-and-execute bindable readline command - to see the wrong data if invoked in the middle of a multi-line quoted - string. - -rrr. Fixed a bug that resulted in the shell returning the wrong exit status - for a background command on systems that recycle PIDs very quickly. - -sss. Fixed a bug that caused asynchronous group commands to not run any EXIT - trap defined in the body of the command. - -ttt. Fixed a bug that caused `eval "... ; return"' to not clean up properly. - -uuu. Fixed a bug that caused the shell to dump core if `read' reads an escaped - IFS whitespace character. - -vvv. Fixed a bug that caused BASH_COMMAND to be set to an incorrect value when - executing a (...) subshell. - -www. Fixed a couple of pointer aliasing bugs with the token string in arithmetic - evaluation. - -xxx. Fixed a bug with parsing multi-line command substitutions when reading - the `do' keyword followed by whitespace. - -yyy. Fixed a bug that caused the shell to seg fault if the time given to the - printf %(...)T format overflowed the value accepted by localtime(3). - -zzz. Fixed a problem with displaying help topics in two columns when the - translated text contained multibyte characters. - -aaaa. Fixed a bug with the extended globbing pattern matcher where a `*' was - followed by a negated extended glob pattern. - -bbbb. Fixed a race condition with short-lived coproc creation and reaping that - caused the child process to be reaped before the various coproc shell - variables were initialized. +e. Readline now sends the meta-key enable string to the terminal if the + terminal has been successfully initialized. -cccc. Fixed a bug where turning off `errexit' in command substitution subshells - was not reflected in $SHELLOPTS. +f. Readline now calls the signal hook after resizing the terminal when it + receives a SIGWINCH. -dddd. Partially fixed an inconsistency in how the shell treated shell - functions run from an EXIT trap. - -eeee. Fixed a bug in how the shell invalidated FIFOs used for process - substitution when executing a pipeline (once rather than in every child). - -ffff. Fixed a bug that occurred when expanding a special variable ($@, $*) - within double quotes and the expansion resulted in an empty string. - -gggg. Fixed bugs with executing a SIGCHLD trap handler to make sure that it's - executed once per exited child. - -hhhh. Fixed a bug that caused `declare' and `test' to find variables that - had been given attributes but not assigned values. Such variables are - not set. - -iiii. Fixed a bug that caused commands in process substitutions to not look in - the local temporary environment when performing word expansions. - -jjjj. Fixed several problems with globstar expansions (**/**) returning null - filenames and multiple instances of the same pathname. - -kkkk. Fixed an oversight that did not allow the exit status of `coproc' to - be inverted using `!'. - -llll. Fixed a bug that caused the -e option to be re-enabled using `set -e' - even when executing in a context where -e is ignored. - -mmmm. Fixed a (mostly theoretical) bug with input lines longer than SIZE_MAX. - -nnnn. Fixed a bug that could result in double evaluation of command - substitutions when they appear in failed redirections. - -oooo. Fixed a bug that could cause seg faults during `mapfile' callbacks if - the callback unsets the array variable mapfile is using. - -pppp. Fixed several problems with variable assignments using ${var:=value} - when the variable assignment is supposed to have side effects. - -qqqq. Fixed a bug that caused a failure of an assignment statement preceding a - builtin caused the next invocation of a special builtin to exit the shell. - -rrrr. Fixed several problems with IFS when it appears in the temporary environment - and is used in redirections. - -ssss. Fixed a problem that caused IFS changes using ${IFS:=value} to modify - how preceding expansions were split. - -tttt. Fixed a problem that caused subshells to not run an EXIT trap they set. - -uuuu. Fixed a problem that caused shells started in posix mode to attempt to - import shell functions with invalid names from the environment. We now - print a warning. - -vvvv. Worked around a kernel problem that caused SIGCHLD to interrupt open(2) - on a FIFO used for process substitution, even if the SIGCHLD handler was - installed with the SA_RESTART flag. - -wwww. Fixed a problem that resulted in inconsistent expansion of $* and ${a[*]}. - -xxxx. Fixed a problem that caused `read -t' to crash when interrupted by - SIGINT. - -yyyy. Fixed a problem that caused pattern removal to fail randomly because the - pattern matcher read beyond the end of a string. - -zzzz. Fixed a bug that caused core dumps when shell functions tried to create - local shadow copies of special variables like GROUPS. - -aaaaa. Fixed a bug that caused SIGTERM to be occasionally lost by children of - interactive shells when it arrived before the child process reset the - handler from SIG_DFL. - -bbbbb. Fixed a bug that caused redirections like <&n- to leave file descriptor - n closed if executed with a builtin command. - -ccccc. Fixed a bug that caused incorrect completion quoting when completing a - word containing a globbing character with `show-all-if-ambiguous' set. - -ddddd. Fixed a bug that caused printf's %q format specifier not to quote a - tilde even if it appeared in a location where it would be subject to - tilde expansion. - -2. Changes to Readline - -a. Fixed a bug that did not allow the `dd', `cc', or `yy' vi editing mode - commands to work on the entire line. - -b. Fixed a bug that caused redisplay problems with prompts longer than 128 - characters and history searches. - -c. Fixed a bug that caused readline to try and run code to modify its idea - of the screen size in a signal handler context upon receiving a SIGWINCH. - -d. Fixed a bug that caused the `meta' key to be enabled beyond the duration - of an individual call top readline(). - -e. Added a workaround for a wcwidth bug in Mac OS X that caused readline's - redisplay to mishandle zero-width combining characters. - -f. Fixed a bug that caused readline to `forget' part of a key sequence when - a multiple-key sequence caused it to break out of an incremental search. - -g. Fixed bugs that caused readline to execute code in a signal handler - context if interrupted while reading from the file system during completion. - -h. Fixed a bug that caused readline to `forget' part of a key sequence when - reading an unbound multi-character key sequence. - -i. Fixed a bug that caused Readline's signal handlers to be installed beyond - the bounds of a single call to readline(). - -j. Fixed a bug that caused the `.' command to not redo the most recent `R' - command in vi mode. - -k. Fixed a bug that caused ignoring case in completion matches to result in - readline using the wrong match. - -l. Paren matching now works in vi insert mode. - -m. Fix menu-completion to make show-all-if-ambiguous and menu-complete-display-prefix - work together. - -n. Fixed a bug that didn't allow the `cc', `dd', or `yy' commands to be redone - in vi editing mode. - -o. Fixed a bug that caused the filename comparison code to not compare - multibyte characters correctly when using case-sensitive or case-mapping - comparisons. - -p. Fixed the input reading loop to call the input hook function only when there - is no terminal input available. - -q. Fixed a bug that caused binding a macro to a multi-character key sequence - where the sequence and macro value share a common prefix to not perform - the macro replacement. - -r. Fixed several redisplay errors with multibyte characters and prompts - containing invisible characters when using horizontal scrolling. - -s. Fixed a bug that caused redisplay errors when trying to overwrite - existing characters using multibyte characters. +g. Fixed a bug that could cause the history list code to perform an out-of- + bounds array reference if the history list is empty. 3. New Features in Bash -a. The `helptopic' completion action now maps to all the help topics, not just - the shell builtins. - -b. The `help' builtin no longer does prefix substring matching, so `help read' - does not match `readonly'. - -c. The shell can be compiled to not display a message about processes that - terminate due to SIGTERM. - -d. Non-interactive shells now react to the setting of checkwinsize and set - LINES and COLUMNS after a foreground job exits. - -e. There is a new shell option, `globasciiranges', which, when set to on, - forces globbing range comparisons to use character ordering as if they - were run in the C locale. - -f. There is a new shell option, `direxpand', which makes filename completion - expand variables in directory names in the way bash-4.1 did. - -g. In Posix mode, the `command' builtin does not change whether or not a - builtin it shadows is treated as an assignment builtin. - -h. The `return' and `exit' builtins accept negative exit status arguments. - -i. The word completion code checks whether or not a filename containing a - shell variable expands to a directory name and appends `/' to the word - as appropriate. The same code expands shell variables in command names - when performing command completion. - -j. In Posix mode, it is now an error to attempt to define a shell function - with the same name as a Posix special builtin. +a. Shells started to run process substitutions now run any trap set on EXIT. -k. When compiled for strict Posix conformance, history expansion is disabled +b. There is now a configure-time option to enable the globasciiranges option by default. -l. The history expansion character (!) does not cause history expansion when - followed by the closing quote in a double-quoted string. - -m. `complete' and its siblings compgen/compopt now takes a new `-o noquote' - option to inhibit quoting of the completions. - -n. Setting HISTSIZE to a value less than zero causes the history list to be - unlimited (setting it 0 zero disables the history list). - -o. Setting HISTFILESIZE to a value less than zero causes the history file size - to be unlimited (setting it to 0 causes the history file to be truncated - to zero size). - -p. The `read' builtin now skips NUL bytes in the input. - -q. There is a new `bind -X' option to print all key sequences bound to Unix - commands. - -r. When in Posix mode, `read' is interruptible by a trapped signal. After - running the trap handler, read returns 128+signal and throws away any - partially-read input. - -s. The command completion code skips whitespace and assignment statements - before looking for the command name word to be completed. - -t. The build process has a new mechanism for constructing separate help files - that better reflects the current set of compilation options. - -u. The -nt and -ot options to test now work with files with nanosecond - timestamp resolution. - -v. The shell saves the command history in any shell for which history is - enabled and HISTFILE is set, not just interactive shells. - -w. The shell has `nameref' variables and new -n(/+n) options to declare and - unset to use them, and a `test -R' option to test for them. - -x. The shell now allows assigning, referencing, and unsetting elements of - indexed arrays using negative subscripts (a[-1]=2, echo ${a[-1]}) which - count back from the last element of the array. - -y. The {x} + + 7/19 + ---- +lib/readline/histfile.c + - history_do_write: if close returns < 0, make sure we restore the + backup history file and return a non-zero value + - history_truncate_file: if write or close return < 0, make sure we + return a non-zero value + +[bash-4.3-beta frozen] + + 7/21 + ---- +lib/readline/isearch.c + - rl_display_search: now takes an entire search context flags word as + the second argument, instead of just reverse flag; changed callers + - rl_display_search: if the search has failed, add `failed ' to the + beginning of the search prompt + - _rl_isearch_dispatch: if the search has failed, display the entire + search string with an indication that the search failed but with the + last matching line. Suggested by jidanni@jidanni.org + +command.h + - W_ASSIGNINT: new word flag; used internally for make_internal_declare + and set by fix_assignment_words + +execute_cmd.c + - fix_assignment_words: set W_ASSIGNINT if compound assignment and -i + given as option. We don't do anything with the value yet + +subst.c + - shell_expand_word_list: rework the way the option list that is + passed to make_internal_declare is created diff --git a/CWRU/CWRU.chlog~ b/CWRU/CWRU.chlog~ index f96ea8337..81de8b492 100644 --- a/CWRU/CWRU.chlog~ +++ b/CWRU/CWRU.chlog~ @@ -5073,3 +5073,42 @@ redir.c the parent process as well, since parents and children share the file pointer. Fixes problem originally reported in March 2013 by Martin Jackson + + 7/13 + ---- +doc/{bash.1,bashref.texi} + - slight change to add a description of `shopt -o' suggested by Bruce + Korb + + 7/19 + ---- +lib/readline/histfile.c + - history_do_write: if close returns < 0, make sure we restore the + backup history file and return a non-zero value + - history_truncate_file: if write or close return < 0, make sure we + return a non-zero value + +[bash-4.3-beta frozen] + + 7/21 + ---- +lib/readline/isearch.c + - rl_display_search: now takes an entire search context flags word as + the second argument, instead of just reverse flag; changed callers + - rl_display_search: if the search has failed, add `failed ' to the + beginning of the search prompt + - _rl_isearch_dispatch: if the search has failed, display the entire + search string with an indication that the search failed but with the + last matching line. Suggested by jidanni@jidanni.org + +command.h + - W_ASSIGNINT: new word flag; used internally for make_internal_declare + and set by fix_assignment_words + +execute_cmd.c + - fix_assignment_words: set W_ASSIGNINT if compound assignment and -i + given as option + +subst.c + - shell_expand_word_list: rework the way the option list that is + passed to make_internal_declare is created diff --git a/MANIFEST b/MANIFEST index 4eb4d48ae..39409ef0f 100644 --- a/MANIFEST +++ b/MANIFEST @@ -801,6 +801,7 @@ tests/array11.sub f tests/array12.sub f tests/array13.sub f tests/array14.sub f +tests/array15.sub f tests/array-at-star f tests/array2.right f tests/assoc.tests f diff --git a/MANIFEST~ b/MANIFEST~ new file mode 100644 index 000000000..4eb4d48ae --- /dev/null +++ b/MANIFEST~ @@ -0,0 +1,1250 @@ +# +# Master distribution manifest for bash +# +# +# Filename type +# +CWRU d +CWRU/misc d +builtins d +cross-build d +doc d +examples d +#examples/obashdb d +examples/complete d +examples/functions d +examples/scripts d +#examples/scripts.v2 d +#examples/scripts.noah d +examples/startup-files d +#examples/startup-files/apple d +examples/misc d +examples/loadables d +examples/loadables/perl d +include d +lib d +lib/glob d +lib/glob/doc d +lib/intl d +lib/malloc d +lib/readline d +lib/readline/doc d +lib/readline/examples d +lib/sh d +lib/termcap d +lib/tilde d +m4 d +po d +support d +tests d +tests/misc d +ABOUT-NLS f +ChangeLog s CWRU/changelog +CHANGES f +COMPAT f +COPYING f +INSTALL f +MANIFEST f +NEWS f +NOTES f +POSIX f +README f +RBASH f +AUTHORS f +Y2K f +configure.ac f +configure f 755 +Makefile.in f +config-top.h f +config-bot.h f +config.h.in f +aclocal.m4 f +array.c f +arrayfunc.c f +assoc.c f +eval.c f +print_cmd.c f +general.c f +list.c f +locale.c f +stringlib.c f +variables.c f +make_cmd.c f +copy_cmd.c f +unwind_prot.c f +dispose_cmd.c f +bashhist.c f +hashcmd.c f +hashlib.c f +parse.y f +pathexp.c f +subst.c f +shell.c f +trap.c f +sig.c f +siglist.c f +version.c f 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+tests/ifs-posix.tests f +tests/ifs-posix.right f +tests/input-line.sh f +tests/input-line.sub f +tests/input.right f +tests/intl.tests f +tests/intl1.sub f +tests/intl2.sub f +tests/intl.right f +tests/iquote.tests f +tests/iquote.right f +tests/iquote1.sub f +tests/invert.tests f +tests/invert.right f +tests/jobs.tests f +tests/jobs1.sub f +tests/jobs2.sub f +tests/jobs3.sub f +tests/jobs4.sub f +tests/jobs5.sub f +tests/jobs.right f +tests/lastpipe.right f +tests/lastpipe.tests f +tests/lastpipe1.sub f +tests/mapfile.data f +tests/mapfile.right f +tests/mapfile.tests f +tests/mapfile1.sub f +tests/more-exp.tests f +tests/more-exp.right f +tests/nameref.tests f +tests/nameref1.sub f +tests/nameref2.sub f +tests/nameref3.sub f +tests/nameref4.sub f +tests/nameref5.sub f +tests/nameref6.sub f +tests/nameref.right f +tests/new-exp.tests f +tests/new-exp1.sub f +tests/new-exp2.sub f +tests/new-exp3.sub f +tests/new-exp4.sub f +tests/new-exp5.sub f +tests/new-exp6.sub f +tests/new-exp7.sub f +tests/new-exp8.sub f +tests/new-exp9.sub f +tests/new-exp.right f +tests/nquote.tests f +tests/nquote.right f +tests/nquote1.sub f +tests/nquote2.sub f +tests/nquote1.tests f +tests/nquote1.right f +tests/nquote2.tests f +tests/nquote2.right f +tests/nquote3.tests f +tests/nquote3.right f +tests/nquote4.tests f +tests/nquote4.right f +tests/nquote5.tests f +tests/nquote5.right f +tests/posix2.tests f +tests/posix2.right f +tests/posixexp.tests f +tests/posixexp.right f +tests/posixexp1.sub f +tests/posixexp2.sub f +tests/posixexp2.tests f +tests/posixexp2.right f +tests/posixpat.tests f +tests/posixpat.right f +tests/posixpipe.tests f +tests/posixpipe.right f +tests/prec.right f +tests/precedence f +tests/printf.tests f +tests/printf.right f +tests/printf1.sub f +tests/printf2.sub f +tests/printf3.sub f +tests/printf4.sub f +tests/quote.tests f +tests/quote.right f +tests/quote1.sub f +tests/read.tests f +tests/read.right f +tests/read1.sub f +tests/read2.sub f +tests/read3.sub f +tests/read4.sub f +tests/read5.sub f +tests/read6.sub f +tests/redir.tests f +tests/redir.right f +tests/redir1.sub f +tests/redir2.sub f +tests/redir3.sub f +tests/redir3.in1 f +tests/redir3.in2 f +tests/redir4.sub f +tests/redir4.in1 f +tests/redir5.sub f +tests/redir6.sub f +tests/redir7.sub f +tests/redir8.sub f +tests/redir9.sub f +tests/redir10.sub f +tests/rhs-exp.tests f +tests/rhs-exp.right f +tests/rhs-exp1.sub f +tests/rsh.tests f +tests/rsh.right f +tests/run-all f +tests/run-minimal f +tests/run-alias f +tests/run-appendop f +tests/run-arith-for f +tests/run-arith f +tests/run-array f +tests/run-array2 f +tests/run-assoc f +tests/run-braces f +tests/run-builtins f +tests/run-case f +tests/run-casemod f +tests/run-comsub f +tests/run-comsub-eof f +tests/run-comsub-posix f +tests/run-cond f +tests/run-coproc f +tests/run-cprint f +tests/run-dbg-support f +tests/run-dbg-support2 f +tests/run-dirstack f +tests/run-dollars f +tests/run-errors f +tests/run-execscript f +tests/run-exp-tests f +tests/run-extglob f +tests/run-extglob2 f +tests/run-extglob3 f +tests/run-func f +tests/run-getopts f +tests/run-glob-test f +tests/run-globstar f +tests/run-heredoc f +tests/run-herestr f +tests/run-histexpand f +tests/run-history f +tests/run-ifs f +tests/run-ifs-posix f +tests/run-input-test f +tests/run-intl f +tests/run-iquote f +tests/run-invert f +tests/run-jobs f +tests/run-lastpipe f +tests/run-mapfile f +tests/run-more-exp f +tests/run-nameref f +tests/run-new-exp f +tests/run-nquote f +tests/run-nquote1 f +tests/run-nquote2 f +tests/run-nquote3 f +tests/run-nquote4 f +tests/run-nquote5 f +tests/run-posix2 f +tests/run-posixexp f +tests/run-posixexp2 f +tests/run-posixpat f +tests/run-posixpipe f +tests/run-precedence f +tests/run-printf f +tests/run-quote f +tests/run-read f +tests/run-redir f +tests/run-rhs-exp f +tests/run-rsh f +tests/run-set-e f +tests/run-set-x f +tests/run-shopt f +tests/run-strip f +tests/run-test f +tests/run-tilde f +tests/run-tilde2 f +tests/run-trap f +tests/run-type f +tests/run-varenv f +tests/run-vredir f +tests/set-e.tests f +tests/set-e1.sub f +tests/set-e2.sub f +tests/set-e3.sub f +tests/set-e3a.sub f +tests/set-e.right f +tests/set-x.tests f +tests/set-x1.sub f +tests/set-x.right f +tests/shopt.tests f +tests/shopt.right f +tests/strip.tests f +tests/strip.right f +tests/test.tests f +tests/test.right f +tests/tilde.tests f +tests/tilde.right f +tests/tilde2.tests f +tests/tilde2.right f +tests/trap.tests f +tests/trap.right f +tests/trap1.sub f 755 +tests/trap2.sub f 755 +tests/trap2a.sub f 755 +tests/trap3.sub f +tests/trap4.sub f +tests/trap5.sub f +tests/type.tests f +tests/type.right f +tests/type1.sub f +tests/type2.sub f +tests/type3.sub f +tests/type4.sub f +tests/unicode1.sub f +tests/unicode2.sub f +tests/varenv.right f +tests/varenv.sh f +tests/varenv1.sub f +tests/varenv2.sub f +tests/varenv3.sub f +tests/varenv4.sub f +tests/varenv5.sub f +tests/version f +tests/version.mini f +tests/vredir.tests f +tests/vredir.right f +tests/vredir1.sub f +tests/vredir2.sub f +tests/vredir3.sub f +tests/vredir4.sub f +tests/vredir5.sub f +tests/vredir6.sub f +tests/misc/dev-tcp.tests f +tests/misc/perf-script f +tests/misc/perftest f +tests/misc/read-nchars.tests f +tests/misc/redir-t2.sh f +tests/misc/run-r2.sh f +tests/misc/sigint-1.sh f +tests/misc/sigint-2.sh f +tests/misc/sigint-3.sh f +tests/misc/sigint-4.sh f +tests/misc/test-minus-e.1 f +tests/misc/test-minus-e.2 f +tests/misc/wait-bg.tests f +#examples/scripts.v2/PERMISSION f +#examples/scripts.v2/README f +#examples/scripts.v2/arc2tarz f +#examples/scripts.v2/bashrand f +#examples/scripts.v2/cal2day.bash f +#examples/scripts.v2/cdhist.bash f +#examples/scripts.v2/corename f +#examples/scripts.v2/fman f +#examples/scripts.v2/frcp f +#examples/scripts.v2/lowercase f +#examples/scripts.v2/ncp f +#examples/scripts.v2/newext f +#examples/scripts.v2/nmv f +#examples/scripts.v2/pages f +#examples/scripts.v2/pf f +#examples/scripts.v2/ren f +#examples/scripts.v2/rename f +#examples/scripts.v2/repeat f +#examples/scripts.v2/untar f +#examples/scripts.v2/uudec f +#examples/scripts.v2/uuenc f +#examples/scripts.v2/vtree f +#examples/scripts.v2/where f +#examples/scripts.v2/pmtop f +#examples/scripts.v2/shprof f +#examples/scripts.noah/PERMISSION f +#examples/scripts.noah/README f +#examples/scripts.noah/aref.bash f +#examples/scripts.noah/bash.sub.bash f +#examples/scripts.noah/bash_version.bash f +#examples/scripts.noah/meta.bash f +#examples/scripts.noah/mktmp.bash f +#examples/scripts.noah/number.bash f +#examples/scripts.noah/prompt.bash f +#examples/scripts.noah/remap_keys.bash f +#examples/scripts.noah/require.bash f +#examples/scripts.noah/send_mail.bash f +#examples/scripts.noah/shcat.bash f +#examples/scripts.noah/source.bash f +#examples/scripts.noah/string.bash f +#examples/scripts.noah/stty.bash f +#examples/scripts.noah/y_or_n_p.bash f diff --git a/NEWS-4.3 b/NEWS-4.3 index 99897a631..a152fe3fb 100644 --- a/NEWS-4.3 +++ b/NEWS-4.3 @@ -110,6 +110,12 @@ gg. The brace expansion code now treats a failed sequence expansion as a hh. Shells started to run process substitutions now run any trap set on EXIT. +ii. There is now a configure-time option to enable the globasciiranges option + by default. + +jj. The read builtin now checks its first variable argument for validity before + trying to read any input. + 2. New Features in Readline a. Readline is now more responsive to SIGHUP and other fatal signals when @@ -164,4 +170,3 @@ m. If the user-settable variable `history-size' is set to a value less than n. New application-settable variable: rl_signal_event_hook; function that is called when readline is reading terminal input and read(2) is interrupted by a signal. Currently not called for SIGHUP or SIGTERM. - diff --git a/command.h b/command.h index ef677a5e8..735b8bfa6 100644 --- a/command.h +++ b/command.h @@ -100,6 +100,7 @@ enum command_type { cm_for, cm_case, cm_while, cm_if, cm_simple, cm_select, #define W_ARRAYIND 0x1000000 /* word is an array index being expanded */ #define W_ASSNGLOBAL 0x2000000 /* word is a global assignment to declare (declare/typeset -g) */ #define W_NOBRACE 0x4000000 /* Don't perform brace expansion */ +#define W_ASSIGNINT 0x8000000 /* word is an integer assignment to declare */ /* Possible values for subshell_environment */ #define SUBSHELL_ASYNC 0x01 /* subshell caused by `command &' */ diff --git a/command.h~ b/command.h~ new file mode 100644 index 000000000..ef677a5e8 --- /dev/null +++ b/command.h~ @@ -0,0 +1,391 @@ +/* command.h -- The structures used internally to represent commands, and + the extern declarations of the functions used to create them. */ + +/* Copyright (C) 1993-2010 Free Software Foundation, Inc. + + This file is part of GNU Bash, the Bourne Again SHell. + + Bash is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Bash is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Bash. If not, see . +*/ + +#if !defined (_COMMAND_H_) +#define _COMMAND_H_ + +#include "stdc.h" + +/* Instructions describing what kind of thing to do for a redirection. */ +enum r_instruction { + r_output_direction, r_input_direction, r_inputa_direction, + r_appending_to, r_reading_until, r_reading_string, + r_duplicating_input, r_duplicating_output, r_deblank_reading_until, + r_close_this, r_err_and_out, r_input_output, r_output_force, + r_duplicating_input_word, r_duplicating_output_word, + r_move_input, r_move_output, r_move_input_word, r_move_output_word, + r_append_err_and_out +}; + +/* Redirection flags; values for rflags */ +#define REDIR_VARASSIGN 0x01 + +/* Redirection errors. */ +#define AMBIGUOUS_REDIRECT -1 +#define NOCLOBBER_REDIRECT -2 +#define RESTRICTED_REDIRECT -3 /* can only happen in restricted shells. */ +#define HEREDOC_REDIRECT -4 /* here-doc temp file can't be created */ +#define BADVAR_REDIRECT -5 /* something wrong with {varname}redir */ + +#define CLOBBERING_REDIRECT(ri) \ + (ri == r_output_direction || ri == r_err_and_out) + +#define OUTPUT_REDIRECT(ri) \ + (ri == r_output_direction || ri == r_input_output || ri == r_err_and_out || ri == r_append_err_and_out) + +#define INPUT_REDIRECT(ri) \ + (ri == r_input_direction || ri == r_inputa_direction || ri == r_input_output) + +#define WRITE_REDIRECT(ri) \ + (ri == r_output_direction || \ + ri == r_input_output || \ + ri == r_err_and_out || \ + ri == r_appending_to || \ + ri == r_append_err_and_out || \ + ri == r_output_force) + +/* redirection needs translation */ +#define TRANSLATE_REDIRECT(ri) \ + (ri == r_duplicating_input_word || ri == r_duplicating_output_word || \ + ri == r_move_input_word || ri == r_move_output_word) + +/* Command Types: */ +enum command_type { cm_for, cm_case, cm_while, cm_if, cm_simple, cm_select, + cm_connection, cm_function_def, cm_until, cm_group, + cm_arith, cm_cond, cm_arith_for, cm_subshell, cm_coproc }; + +/* Possible values for the `flags' field of a WORD_DESC. */ +#define W_HASDOLLAR 0x000001 /* Dollar sign present. */ +#define W_QUOTED 0x000002 /* Some form of quote character is present. */ +#define W_ASSIGNMENT 0x000004 /* This word is a variable assignment. */ +#define W_SPLITSPACE 0x000008 /* Split this word on " " regardless of IFS */ +#define W_NOSPLIT 0x000010 /* Do not perform word splitting on this word because ifs is empty string. */ +#define W_NOGLOB 0x000020 /* Do not perform globbing on this word. */ +#define W_NOSPLIT2 0x000040 /* Don't split word except for $@ expansion (using spaces) because context does not allow it. */ +#define W_TILDEEXP 0x000080 /* Tilde expand this assignment word */ +#define W_DOLLARAT 0x000100 /* $@ and its special handling */ +#define W_DOLLARSTAR 0x000200 /* $* and its special handling */ +#define W_NOCOMSUB 0x000400 /* Don't perform command substitution on this word */ +#define W_ASSIGNRHS 0x000800 /* Word is rhs of an assignment statement */ +#define W_NOTILDE 0x001000 /* Don't perform tilde expansion on this word */ +#define W_ITILDE 0x002000 /* Internal flag for word expansion */ +#define W_NOEXPAND 0x004000 /* Don't expand at all -- do quote removal */ +#define W_COMPASSIGN 0x008000 /* Compound assignment */ +#define W_ASSNBLTIN 0x010000 /* word is a builtin command that takes assignments */ +#define W_ASSIGNARG 0x020000 /* word is assignment argument to command */ +#define W_HASQUOTEDNULL 0x040000 /* word contains a quoted null character */ +#define W_DQUOTE 0x080000 /* word should be treated as if double-quoted */ +#define W_NOPROCSUB 0x100000 /* don't perform process substitution */ +#define W_HASCTLESC 0x200000 /* word contains literal CTLESC characters */ +#define W_ASSIGNASSOC 0x400000 /* word looks like associative array assignment */ +#define W_ASSIGNARRAY 0x800000 /* word looks like a compound indexed array assignment */ +#define W_ARRAYIND 0x1000000 /* word is an array index being expanded */ +#define W_ASSNGLOBAL 0x2000000 /* word is a global assignment to declare (declare/typeset -g) */ +#define W_NOBRACE 0x4000000 /* Don't perform brace expansion */ + +/* Possible values for subshell_environment */ +#define SUBSHELL_ASYNC 0x01 /* subshell caused by `command &' */ +#define SUBSHELL_PAREN 0x02 /* subshell caused by ( ... ) */ +#define SUBSHELL_COMSUB 0x04 /* subshell caused by `command` or $(command) */ +#define SUBSHELL_FORK 0x08 /* subshell caused by executing a disk command */ +#define SUBSHELL_PIPE 0x10 /* subshell from a pipeline element */ +#define SUBSHELL_PROCSUB 0x20 /* subshell caused by <(command) or >(command) */ +#define SUBSHELL_COPROC 0x40 /* subshell from a coproc pipeline */ +#define SUBSHELL_RESETTRAP 0x80 /* subshell needs to reset trap strings on first call to trap */ + +/* A structure which represents a word. */ +typedef struct word_desc { + char *word; /* Zero terminated string. */ + int flags; /* Flags associated with this word. */ +} WORD_DESC; + +/* A linked list of words. */ +typedef struct word_list { + struct word_list *next; + WORD_DESC *word; +} WORD_LIST; + + +/* **************************************************************** */ +/* */ +/* Shell Command Structs */ +/* */ +/* **************************************************************** */ + +/* What a redirection descriptor looks like. If the redirection instruction + is ri_duplicating_input or ri_duplicating_output, use DEST, otherwise + use the file in FILENAME. Out-of-range descriptors are identified by a + negative DEST. */ + +typedef union { + int dest; /* Place to redirect REDIRECTOR to, or ... */ + WORD_DESC *filename; /* filename to redirect to. */ +} REDIRECTEE; + +/* Structure describing a redirection. If REDIRECTOR is negative, the parser + (or translator in redir.c) encountered an out-of-range file descriptor. */ +typedef struct redirect { + struct redirect *next; /* Next element, or NULL. */ + REDIRECTEE redirector; /* Descriptor or varname to be redirected. */ + int rflags; /* Private flags for this redirection */ + int flags; /* Flag value for `open'. */ + enum r_instruction instruction; /* What to do with the information. */ + REDIRECTEE redirectee; /* File descriptor or filename */ + char *here_doc_eof; /* The word that appeared in <flags. */ +#define CMD_WANT_SUBSHELL 0x01 /* User wants a subshell: ( command ) */ +#define CMD_FORCE_SUBSHELL 0x02 /* Shell needs to force a subshell. */ +#define CMD_INVERT_RETURN 0x04 /* Invert the exit value. */ +#define CMD_IGNORE_RETURN 0x08 /* Ignore the exit value. For set -e. */ +#define CMD_NO_FUNCTIONS 0x10 /* Ignore functions during command lookup. */ +#define CMD_INHIBIT_EXPANSION 0x20 /* Do not expand the command words. */ +#define CMD_NO_FORK 0x40 /* Don't fork; just call execve */ +#define CMD_TIME_PIPELINE 0x80 /* Time a pipeline */ +#define CMD_TIME_POSIX 0x100 /* time -p; use POSIX.2 time output spec. */ +#define CMD_AMPERSAND 0x200 /* command & */ +#define CMD_STDIN_REDIR 0x400 /* async command needs implicit = _rl_executing_keyseq_size) \ ++ { \ ++ _rl_executing_keyseq_size += 16; \ ++ rl_executing_keyseq = xrealloc (rl_executing_keyseq, _rl_executing_keyseq_size); \ ++ } \ ++ } \ ++ while (0); ++ + /* Forward declarations used by the display, termcap, and history code. */ + +*************** +*** 280,283 **** +--- 298,305 ---- + int _rl_echo_control_chars = 1; + ++ /* Non-zero means to prefix the displayed prompt with a character indicating ++ the editing mode: @ for emacs, : for vi-command, + for vi-insert. */ ++ int _rl_show_mode_in_prompt = 0; ++ + /* **************************************************************** */ + /* */ +*************** +*** 353,356 **** +--- 375,383 ---- + #endif + ++ #if HAVE_DECL_AUDIT_TTY && defined (ENABLE_TTY_AUDIT_SUPPORT) ++ if (value) ++ _rl_audit_tty (value); ++ #endif ++ + return (value); + } +*************** +*** 370,376 **** +--- 397,413 ---- + _rl_out_stream = rl_outstream; + ++ /* Enable the meta key only for the duration of readline(), if this ++ terminal has one and the terminal has been initialized */ ++ if (_rl_enable_meta & RL_ISSTATE (RL_STATE_TERMPREPPED)) ++ _rl_enable_meta_key (); ++ + if (rl_startup_hook) + (*rl_startup_hook) (); + ++ #if defined (VI_MODE) ++ if (rl_editing_mode == vi_mode) ++ rl_vi_insertion_mode (1, 'i'); /* don't want to reset last */ ++ #endif /* VI_MODE */ ++ + /* If we're not echoing, we still want to at least print a prompt, because + rl_redisplay will not do it for us. If the calling application has a +*************** +*** 395,403 **** + } + +- #if defined (VI_MODE) +- if (rl_editing_mode == vi_mode) +- rl_vi_insert_mode (1, 'i'); +- #endif /* VI_MODE */ +- + if (rl_pre_input_hook) + (*rl_pre_input_hook) (); +--- 432,435 ---- +*************** +*** 438,441 **** +--- 470,478 ---- + rl_free_undo_list (); + ++ /* Disable the meta key, if this terminal has one and we were told to use it. ++ The check whether or not we sent the enable string is in ++ _rl_disable_meta_key(); the flag is set in _rl_enable_meta_key */ ++ _rl_disable_meta_key (); ++ + /* Restore normal cursor, if available. */ + _rl_set_insert_mode (RL_IM_INSERT, 0); +*************** +*** 493,497 **** +--- 530,538 ---- + lk = _rl_last_command_was_kill; + ++ #if defined (HAVE_POSIX_SIGSETJMP) ++ code = sigsetjmp (_rl_top_level, 0); ++ #else + code = setjmp (_rl_top_level); ++ #endif + + if (code) +*************** +*** 512,515 **** +--- 553,557 ---- + _rl_reset_argument (); + rl_key_sequence_length = 0; ++ rl_executing_keyseq[0] = 0; + } + +*************** +*** 520,524 **** + /* look at input.c:rl_getc() for the circumstances under which this will + be returned; punt immediately on read error without converting it to +! a newline. */ + if (c == READERR) + { +--- 562,567 ---- + /* look at input.c:rl_getc() for the circumstances under which this will + be returned; punt immediately on read error without converting it to +! a newline; assume that rl_read_key has already called the signal +! handler. */ + if (c == READERR) + { +*************** +*** 532,536 **** + } + +! /* EOF typed to a non-blank line is a . */ + if (c == EOF && rl_end) + c = NEWLINE; +--- 575,581 ---- + } + +! /* EOF typed to a non-blank line is a . If we want to change this, +! to force any existing line to be ignored when read(2) reads EOF, +! for example, this is the place to change. */ + if (c == EOF && rl_end) + c = NEWLINE; +*************** +*** 744,750 **** + if (RL_ISSTATE (RL_STATE_MACRODEF)) + _rl_add_macro_char (ESC); + map = FUNCTION_TO_KEYMAP (map, ESC); + key = UNMETA (key); +- rl_key_sequence_length += 2; + return (_rl_dispatch (key, map)); + } +--- 789,796 ---- + if (RL_ISSTATE (RL_STATE_MACRODEF)) + _rl_add_macro_char (ESC); ++ RESIZE_KEYSEQ_BUFFER (); ++ rl_executing_keyseq[rl_key_sequence_length++] = ESC; + map = FUNCTION_TO_KEYMAP (map, ESC); + key = UNMETA (key); + return (_rl_dispatch (key, map)); + } +*************** +*** 766,776 **** + /* Special case rl_do_lowercase_version (). */ + if (func == rl_do_lowercase_version) + return (_rl_dispatch (_rl_to_lower (key), map)); + + rl_executing_keymap = map; + + rl_dispatching = 1; + RL_SETSTATE(RL_STATE_DISPATCHING); +! (*map[key].function)(rl_numeric_arg * rl_arg_sign, key); + RL_UNSETSTATE(RL_STATE_DISPATCHING); + rl_dispatching = 0; +--- 812,828 ---- + /* Special case rl_do_lowercase_version (). */ + if (func == rl_do_lowercase_version) ++ /* Should we do anything special if key == ANYOTHERKEY? */ + return (_rl_dispatch (_rl_to_lower (key), map)); + + rl_executing_keymap = map; ++ rl_executing_key = key; ++ ++ RESIZE_KEYSEQ_BUFFER(); ++ rl_executing_keyseq[rl_key_sequence_length++] = key; ++ rl_executing_keyseq[rl_key_sequence_length] = '\0'; + + rl_dispatching = 1; + RL_SETSTATE(RL_STATE_DISPATCHING); +! r = (*func) (rl_numeric_arg * rl_arg_sign, key); + RL_UNSETSTATE(RL_STATE_DISPATCHING); + rl_dispatching = 0; +*************** +*** 789,793 **** + shadow function that was overridden when the current keymap + was created. Return -2 to note that. */ +! _rl_unget_char (key); + return -2; + } +--- 841,848 ---- + shadow function that was overridden when the current keymap + was created. Return -2 to note that. */ +! if (RL_ISSTATE (RL_STATE_MACROINPUT)) +! _rl_prev_macro_key (); +! else +! _rl_unget_char (key); + return -2; + } +*************** +*** 798,802 **** + we need to back up the recursion chain and find the last + subsequence that is bound to a function. */ +! _rl_unget_char (key); + return -1; + } +--- 853,860 ---- + we need to back up the recursion chain and find the last + subsequence that is bound to a function. */ +! if (RL_ISSTATE (RL_STATE_MACROINPUT)) +! _rl_prev_macro_key (); +! else +! _rl_unget_char (key); + return -1; + } +*************** +*** 821,831 **** + will be if an arrow key has been pressed, and, if there's not, + just dispatch to (what we assume is) rl_vi_movement_mode right +! away. This is essentially an input test with a zero timeout. */ + if (rl_editing_mode == vi_mode && key == ESC && map == vi_insertion_keymap +! && _rl_input_queued (0) == 0) + return (_rl_dispatch (ANYOTHERKEY, FUNCTION_TO_KEYMAP (map, key))); + #endif + +! rl_key_sequence_length++; + _rl_dispatching_keymap = FUNCTION_TO_KEYMAP (map, key); + +--- 879,893 ---- + will be if an arrow key has been pressed, and, if there's not, + just dispatch to (what we assume is) rl_vi_movement_mode right +! away. This is essentially an input test with a zero timeout (by +! default) or a timeout determined by the value of `keyseq-timeout' */ +! /* _rl_keyseq_timeout specified in milliseconds; _rl_input_queued +! takes microseconds, so multiply by 1000 */ + if (rl_editing_mode == vi_mode && key == ESC && map == vi_insertion_keymap +! && _rl_input_queued ((_rl_keyseq_timeout > 0) ? _rl_keyseq_timeout*1000 : 0) == 0) + return (_rl_dispatch (ANYOTHERKEY, FUNCTION_TO_KEYMAP (map, key))); + #endif + +! RESIZE_KEYSEQ_BUFFER (); +! rl_executing_keyseq[rl_key_sequence_length++] = key; + _rl_dispatching_keymap = FUNCTION_TO_KEYMAP (map, key); + +*************** +*** 856,859 **** +--- 918,933 ---- + #endif + ++ /* Tentative inter-character timeout for potential multi-key ++ sequences? If no input within timeout, abort sequence and ++ act as if we got non-matching input. */ ++ /* _rl_keyseq_timeout specified in milliseconds; _rl_input_queued ++ takes microseconds, so multiply by 1000 */ ++ if (_rl_keyseq_timeout > 0 && ++ (RL_ISSTATE (RL_STATE_INPUTPENDING|RL_STATE_MACROINPUT) == 0) && ++ _rl_pushed_input_available () == 0 && ++ _rl_dispatching_keymap[ANYOTHERKEY].function && ++ _rl_input_queued (_rl_keyseq_timeout*1000) == 0) ++ return (_rl_subseq_result (-2, map, key, got_subseq)); ++ + newkey = _rl_subseq_getchar (key); + if (newkey < 0) +*************** +*** 876,879 **** +--- 950,954 ---- + if (map[key].function != 0) + { ++ rl_executing_keyseq[rl_key_sequence_length] = '\0'; + macro = savestring ((char *)map[key].function); + _rl_with_macro_input (macro); +*************** +*** 885,888 **** +--- 960,964 ---- + if (rl_editing_mode == vi_mode && _rl_keymap == vi_movement_keymap && + key != ANYOTHERKEY && ++ rl_key_sequence_length == 1 && /* XXX */ + _rl_vi_textmod_command (key)) + _rl_vi_set_last (key, rl_numeric_arg, rl_arg_sign); +*************** +*** 936,940 **** + tell the caller that it should try ANYOTHERKEY for an + overridden function. */ +! _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -2; +--- 1012,1019 ---- + tell the caller that it should try ANYOTHERKEY for an + overridden function. */ +! if (RL_ISSTATE (RL_STATE_MACROINPUT)) +! _rl_prev_macro_key (); +! else +! _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -2; +*************** +*** 943,947 **** + { + /* OK, back up the chain. */ +! _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -1; +--- 1022,1029 ---- + { + /* OK, back up the chain. */ +! if (RL_ISSTATE (RL_STATE_MACROINPUT)) +! _rl_prev_macro_key (); +! else +! _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -1; +*************** +*** 1092,1103 **** + bind_arrow_keys (); + +- /* Enable the meta key, if this terminal has one. */ +- if (_rl_enable_meta) +- _rl_enable_meta_key (); +- + /* If the completion parser's default word break characters haven't + been set yet, then do so now. */ + if (rl_completer_word_break_characters == (char *)NULL) + rl_completer_word_break_characters = (char *)rl_basic_word_break_characters; + } + +--- 1174,1190 ---- + bind_arrow_keys (); + + /* If the completion parser's default word break characters haven't + been set yet, then do so now. */ + if (rl_completer_word_break_characters == (char *)NULL) + rl_completer_word_break_characters = (char *)rl_basic_word_break_characters; ++ ++ #if defined (COLOR_SUPPORT) ++ if (_rl_colored_stats) ++ _rl_parse_colors (); ++ #endif ++ ++ rl_executing_keyseq = malloc (_rl_executing_keyseq_size = 16); ++ if (rl_executing_keyseq) ++ rl_executing_keyseq[0] = '\0'; + } + +*************** +*** 1160,1163 **** +--- 1247,1254 ---- + rl_bind_keyseq_if_unbound ("\340M", rl_forward_char); + rl_bind_keyseq_if_unbound ("\340K", rl_backward_char); ++ rl_bind_keyseq_if_unbound ("\340G", rl_beg_of_line); ++ rl_bind_keyseq_if_unbound ("\340O", rl_end_of_line); ++ rl_bind_keyseq_if_unbound ("\340S", rl_delete); ++ rl_bind_keyseq_if_unbound ("\340R", rl_overwrite_mode); + #endif + diff --git a/execute_cmd.c b/execute_cmd.c index 4a71150fa..5f38ab860 100644 --- a/execute_cmd.c +++ b/execute_cmd.c @@ -607,7 +607,7 @@ execute_command_internal (command, asynchronous, pipe_in, pipe_out, want to note this before execute_in_subshell modifies the COMMAND struct. Need to keep in mind that execute_in_subshell runs the exit trap for () subshells itself. */ - /* This handles { command; } & + /* This handles { command; } & */ s = user_subshell == 0 && command->type == cm_group && pipe_in == NO_PIPE && pipe_out == NO_PIPE && asynchronous; /* run exit trap for : | { ...; } and { ...; } | : */ /* run exit trap for : | ( ...; ) and ( ...; ) | : */ @@ -3748,13 +3748,13 @@ fix_assignment_words (words) { WORD_LIST *w, *wcmd; struct builtin *b; - int assoc, global, array; + int assoc, global, array, integer; if (words == 0) return; b = 0; - assoc = global = array = 0; + assoc = global = array = integer = 0; /* Skip over assignment statements preceding a command name */ wcmd = words; @@ -3789,6 +3789,8 @@ fix_assignment_words (words) #endif if (global) w->word->flags |= W_ASSNGLOBAL; + if (integer) + w->word->flags |= W_ASSIGNINT; } #if defined (ARRAY_VARS) /* Note that we saw an associative array option to a builtin that takes @@ -3814,6 +3816,8 @@ fix_assignment_words (words) array = 1; if ((wcmd->word->flags & W_ASSNBLTIN) && strchr (w->word->word+1, 'g')) global = 1; + if ((wcmd->word->flags & W_ASSNBLTIN) && strchr (w->word->word+1, 'i')) + integer = 1; } } diff --git a/execute_cmd.c~ b/execute_cmd.c~ new file mode 100644 index 000000000..f0ef2c6ac --- /dev/null +++ b/execute_cmd.c~ @@ -0,0 +1,5408 @@ +/* execute_cmd.c -- Execute a COMMAND structure. */ + +/* Copyright (C) 1987-2013 Free Software Foundation, Inc. + + This file is part of GNU Bash, the Bourne Again SHell. + + Bash is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Bash is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Bash. If not, see . +*/ + +#include "config.h" + +#if !defined (__GNUC__) && !defined (HAVE_ALLOCA_H) && defined (_AIX) + #pragma alloca +#endif /* _AIX && RISC6000 && !__GNUC__ */ + +#include +#include "chartypes.h" +#include "bashtypes.h" +#if !defined (_MINIX) && defined (HAVE_SYS_FILE_H) +# include +#endif +#include "filecntl.h" +#include "posixstat.h" +#include +#if defined (HAVE_SYS_PARAM_H) +# include +#endif + +#if defined (HAVE_UNISTD_H) +# include +#endif + +#include "posixtime.h" + +#if defined (HAVE_SYS_RESOURCE_H) && !defined (RLIMTYPE) +# include +#endif + +#if defined (HAVE_SYS_TIMES_H) && defined (HAVE_TIMES) +# include +#endif + +#include + +#if !defined (errno) +extern int errno; +#endif + +#define NEED_FPURGE_DECL + +#include "bashansi.h" +#include "bashintl.h" + +#include "memalloc.h" +#include "shell.h" +#include /* use <...> so we pick it up from the build directory */ +#include "flags.h" +#include "builtins.h" +#include "hashlib.h" +#include "jobs.h" +#include "execute_cmd.h" +#include "findcmd.h" +#include "redir.h" +#include "trap.h" +#include "pathexp.h" +#include "hashcmd.h" + +#if defined (COND_COMMAND) +# include "test.h" +#endif + +#include "builtins/common.h" +#include "builtins/builtext.h" /* list of builtins */ + +#include +#include + +#if defined (BUFFERED_INPUT) +# include "input.h" +#endif + +#if defined (ALIAS) +# include "alias.h" +#endif + +#if defined (HISTORY) +# include "bashhist.h" +#endif + +extern int dollar_dollar_pid; +extern int posixly_correct; +extern int expand_aliases; +extern int autocd; +extern int breaking, continuing, loop_level; +extern int parse_and_execute_level, running_trap, sourcelevel; +extern int command_string_index, line_number; +extern int dot_found_in_search; +extern int already_making_children; +extern int tempenv_assign_error; +extern char *the_printed_command, *shell_name; +extern pid_t last_command_subst_pid; +extern sh_builtin_func_t *last_shell_builtin, *this_shell_builtin; +extern char **subshell_argv, **subshell_envp; +extern int subshell_argc; +extern time_t shell_start_time; +#if 0 +extern char *glob_argv_flags; +#endif + +extern int job_control; /* XXX */ + +extern int close __P((int)); + +/* Static functions defined and used in this file. */ +static void close_pipes __P((int, int)); +static void do_piping __P((int, int)); +static void bind_lastarg __P((char *)); +static int shell_control_structure __P((enum command_type)); +static void cleanup_redirects __P((REDIRECT *)); + +#if defined (JOB_CONTROL) +static int restore_signal_mask __P((sigset_t *)); +#endif + +static void async_redirect_stdin __P((void)); + +static int builtin_status __P((int)); + +static int execute_for_command __P((FOR_COM *)); +#if defined (SELECT_COMMAND) +static int displen __P((const char *)); +static int print_index_and_element __P((int, int, WORD_LIST *)); +static void indent __P((int, int)); +static void print_select_list __P((WORD_LIST *, int, int, int)); +static char *select_query __P((WORD_LIST *, int, char *, int)); +static int execute_select_command __P((SELECT_COM *)); +#endif +#if defined (DPAREN_ARITHMETIC) +static int execute_arith_command __P((ARITH_COM *)); +#endif +#if defined (COND_COMMAND) +static int execute_cond_node __P((COND_COM *)); +static int execute_cond_command __P((COND_COM *)); +#endif +#if defined (COMMAND_TIMING) +static int mkfmt __P((char *, int, int, time_t, int)); +static void print_formatted_time __P((FILE *, char *, + time_t, int, time_t, int, + time_t, int, int)); +static int time_command __P((COMMAND *, int, int, int, struct fd_bitmap *)); +#endif +#if defined (ARITH_FOR_COMMAND) +static intmax_t eval_arith_for_expr __P((WORD_LIST *, int *)); +static int execute_arith_for_command __P((ARITH_FOR_COM *)); +#endif +static int execute_case_command __P((CASE_COM *)); +static int execute_while_command __P((WHILE_COM *)); +static int execute_until_command __P((WHILE_COM *)); +static int execute_while_or_until __P((WHILE_COM *, int)); +static int execute_if_command __P((IF_COM *)); +static int execute_null_command __P((REDIRECT *, int, int, int)); +static void fix_assignment_words __P((WORD_LIST *)); +static int execute_simple_command __P((SIMPLE_COM *, int, int, int, struct fd_bitmap *)); +static int execute_builtin __P((sh_builtin_func_t *, WORD_LIST *, int, int)); +static int execute_function __P((SHELL_VAR *, WORD_LIST *, int, struct fd_bitmap *, int, int)); +static int execute_builtin_or_function __P((WORD_LIST *, sh_builtin_func_t *, + SHELL_VAR *, + REDIRECT *, struct fd_bitmap *, int)); +static void execute_subshell_builtin_or_function __P((WORD_LIST *, REDIRECT *, + sh_builtin_func_t *, + SHELL_VAR *, + int, int, int, + struct fd_bitmap *, + int)); +static int execute_disk_command __P((WORD_LIST *, REDIRECT *, char *, + int, int, int, struct fd_bitmap *, int)); + +static char *getinterp __P((char *, int, int *)); +static void initialize_subshell __P((void)); +static int execute_in_subshell __P((COMMAND *, int, int, int, struct fd_bitmap *)); +#if defined (COPROCESS_SUPPORT) +static int execute_coproc __P((COMMAND *, int, int, struct fd_bitmap *)); +#endif + +static int execute_pipeline __P((COMMAND *, int, int, int, struct fd_bitmap *)); + +static int execute_connection __P((COMMAND *, int, int, int, struct fd_bitmap *)); + +static int execute_intern_function __P((WORD_DESC *, FUNCTION_DEF *)); + +/* Set to 1 if fd 0 was the subject of redirection to a subshell. Global + so that reader_loop can set it to zero before executing a command. */ +int stdin_redir; + +/* The name of the command that is currently being executed. + `test' needs this, for example. */ +char *this_command_name; + +/* The printed representation of the currently-executing command (same as + the_printed_command), except when a trap is being executed. Useful for + a debugger to know where exactly the program is currently executing. */ +char *the_printed_command_except_trap; + +/* For catching RETURN in a function. */ +int return_catch_flag; +int return_catch_value; +procenv_t return_catch; + +/* The value returned by the last synchronous command. */ +int last_command_exit_value; + +/* Whether or not the last command (corresponding to last_command_exit_value) + was terminated by a signal, and, if so, which one. */ +int last_command_exit_signal; + +/* Are we currently ignoring the -e option for the duration of a builtin's + execution? */ +int builtin_ignoring_errexit = 0; + +/* The list of redirections to perform which will undo the redirections + that I made in the shell. */ +REDIRECT *redirection_undo_list = (REDIRECT *)NULL; + +/* The list of redirections to perform which will undo the internal + redirections performed by the `exec' builtin. These are redirections + that must be undone even when exec discards redirection_undo_list. */ +REDIRECT *exec_redirection_undo_list = (REDIRECT *)NULL; + +/* When greater than zero, value is the `level' of builtins we are + currently executing (e.g. `eval echo a' would have it set to 2). */ +int executing_builtin = 0; + +/* Non-zero if we are executing a command list (a;b;c, etc.) */ +int executing_list = 0; + +/* Non-zero if failing commands in a command substitution should not exit the + shell even if -e is set. Used to pass the CMD_IGNORE_RETURN flag down to + commands run in command substitutions by parse_and_execute. */ +int comsub_ignore_return = 0; + +/* Non-zero if we have just forked and are currently running in a subshell + environment. */ +int subshell_environment; + +/* Count of nested subshells, like SHLVL. Available via $BASH_SUBSHELL */ +int subshell_level = 0; + +/* Currently-executing shell function. */ +SHELL_VAR *this_shell_function; + +/* If non-zero, matches in case and [[ ... ]] are case-insensitive */ +int match_ignore_case = 0; + +int executing_command_builtin = 0; + +struct stat SB; /* used for debugging */ + +static int special_builtin_failed; + +static COMMAND *currently_executing_command; + +/* The line number that the currently executing function starts on. */ +static int function_line_number; + +/* XXX - set to 1 if we're running the DEBUG trap and we want to show the line + number containing the function name. Used by executing_line_number to + report the correct line number. Kind of a hack. */ +static int showing_function_line; + +/* $LINENO ($BASH_LINENO) for use by an ERR trap. Global so parse_and_execute + can save and restore it. */ +int line_number_for_err_trap; + +/* A sort of function nesting level counter */ +int funcnest = 0; +int funcnest_max = 0; /* XXX - bash-4.2 */ + +int lastpipe_opt = 0; + +struct fd_bitmap *current_fds_to_close = (struct fd_bitmap *)NULL; + +#define FD_BITMAP_DEFAULT_SIZE 32 + +/* Functions to allocate and deallocate the structures used to pass + information from the shell to its children about file descriptors + to close. */ +struct fd_bitmap * +new_fd_bitmap (size) + int size; +{ + struct fd_bitmap *ret; + + ret = (struct fd_bitmap *)xmalloc (sizeof (struct fd_bitmap)); + + ret->size = size; + + if (size) + { + ret->bitmap = (char *)xmalloc (size); + memset (ret->bitmap, '\0', size); + } + else + ret->bitmap = (char *)NULL; + return (ret); +} + +void +dispose_fd_bitmap (fdbp) + struct fd_bitmap *fdbp; +{ + FREE (fdbp->bitmap); + free (fdbp); +} + +void +close_fd_bitmap (fdbp) + struct fd_bitmap *fdbp; +{ + register int i; + + if (fdbp) + { + for (i = 0; i < fdbp->size; i++) + if (fdbp->bitmap[i]) + { + close (i); + fdbp->bitmap[i] = 0; + } + } +} + +/* Return the line number of the currently executing command. */ +int +executing_line_number () +{ + if (executing && showing_function_line == 0 && + (variable_context == 0 || interactive_shell == 0) && + currently_executing_command) + { +#if defined (COND_COMMAND) + if (currently_executing_command->type == cm_cond) + return currently_executing_command->value.Cond->line; +#endif +#if defined (DPAREN_ARITHMETIC) + if (currently_executing_command->type == cm_arith) + return currently_executing_command->value.Arith->line; +#endif +#if defined (ARITH_FOR_COMMAND) + if (currently_executing_command->type == cm_arith_for) + return currently_executing_command->value.ArithFor->line; +#endif + + return line_number; + } + else + return line_number; +} + +/* Execute the command passed in COMMAND. COMMAND is exactly what + read_command () places into GLOBAL_COMMAND. See "command.h" for the + details of the command structure. + + EXECUTION_SUCCESS or EXECUTION_FAILURE are the only possible + return values. Executing a command with nothing in it returns + EXECUTION_SUCCESS. */ +int +execute_command (command) + COMMAND *command; +{ + struct fd_bitmap *bitmap; + int result; + + current_fds_to_close = (struct fd_bitmap *)NULL; + bitmap = new_fd_bitmap (FD_BITMAP_DEFAULT_SIZE); + begin_unwind_frame ("execute-command"); + add_unwind_protect (dispose_fd_bitmap, (char *)bitmap); + + /* Just do the command, but not asynchronously. */ + result = execute_command_internal (command, 0, NO_PIPE, NO_PIPE, bitmap); + + dispose_fd_bitmap (bitmap); + discard_unwind_frame ("execute-command"); + +#if defined (PROCESS_SUBSTITUTION) + /* don't unlink fifos if we're in a shell function; wait until the function + returns. */ + if (variable_context == 0) + unlink_fifo_list (); +#endif /* PROCESS_SUBSTITUTION */ + + QUIT; + return (result); +} + +/* Return 1 if TYPE is a shell control structure type. */ +static int +shell_control_structure (type) + enum command_type type; +{ + switch (type) + { +#if defined (ARITH_FOR_COMMAND) + case cm_arith_for: +#endif +#if defined (SELECT_COMMAND) + case cm_select: +#endif +#if defined (DPAREN_ARITHMETIC) + case cm_arith: +#endif +#if defined (COND_COMMAND) + case cm_cond: +#endif + case cm_case: + case cm_while: + case cm_until: + case cm_if: + case cm_for: + case cm_group: + case cm_function_def: + return (1); + + default: + return (0); + } +} + +/* A function to use to unwind_protect the redirection undo list + for loops. */ +static void +cleanup_redirects (list) + REDIRECT *list; +{ + do_redirections (list, RX_ACTIVE); + dispose_redirects (list); +} + +#if 0 +/* Function to unwind_protect the redirections for functions and builtins. */ +static void +cleanup_func_redirects (list) + REDIRECT *list; +{ + do_redirections (list, RX_ACTIVE); +} +#endif + +void +dispose_exec_redirects () +{ + if (exec_redirection_undo_list) + { + dispose_redirects (exec_redirection_undo_list); + exec_redirection_undo_list = (REDIRECT *)NULL; + } +} + +#if defined (JOB_CONTROL) +/* A function to restore the signal mask to its proper value when the shell + is interrupted or errors occur while creating a pipeline. */ +static int +restore_signal_mask (set) + sigset_t *set; +{ + return (sigprocmask (SIG_SETMASK, set, (sigset_t *)NULL)); +} +#endif /* JOB_CONTROL */ + +#ifdef DEBUG +/* A debugging function that can be called from gdb, for instance. */ +void +open_files () +{ + register int i; + int f, fd_table_size; + + fd_table_size = getdtablesize (); + + fprintf (stderr, "pid %ld open files:", (long)getpid ()); + for (i = 3; i < fd_table_size; i++) + { + if ((f = fcntl (i, F_GETFD, 0)) != -1) + fprintf (stderr, " %d (%s)", i, f ? "close" : "open"); + } + fprintf (stderr, "\n"); +} +#endif + +static void +async_redirect_stdin () +{ + int fd; + + fd = open ("/dev/null", O_RDONLY); + if (fd > 0) + { + dup2 (fd, 0); + close (fd); + } + else if (fd < 0) + internal_error (_("cannot redirect standard input from /dev/null: %s"), strerror (errno)); +} + +#define DESCRIBE_PID(pid) do { if (interactive) describe_pid (pid); } while (0) + +/* Execute the command passed in COMMAND, perhaps doing it asynchrounously. + COMMAND is exactly what read_command () places into GLOBAL_COMMAND. + ASYNCHROUNOUS, if non-zero, says to do this command in the background. + PIPE_IN and PIPE_OUT are file descriptors saying where input comes + from and where it goes. They can have the value of NO_PIPE, which means + I/O is stdin/stdout. + FDS_TO_CLOSE is a list of file descriptors to close once the child has + been forked. This list often contains the unusable sides of pipes, etc. + + EXECUTION_SUCCESS or EXECUTION_FAILURE are the only possible + return values. Executing a command with nothing in it returns + EXECUTION_SUCCESS. */ +int +execute_command_internal (command, asynchronous, pipe_in, pipe_out, + fds_to_close) + COMMAND *command; + int asynchronous; + int pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + int exec_result, user_subshell, invert, ignore_return, was_error_trap; + REDIRECT *my_undo_list, *exec_undo_list; + char *tcmd; + volatile int last_pid; + volatile int save_line_number; +#if defined (PROCESS_SUBSTITUTION) + volatile int ofifo, nfifo, osize, saved_fifo; + volatile char *ofifo_list; +#endif + + if (breaking || continuing) + return (last_command_exit_value); + if (command == 0 || read_but_dont_execute) + return (EXECUTION_SUCCESS); + + QUIT; + run_pending_traps (); + +#if 0 + if (running_trap == 0) +#endif + currently_executing_command = command; + + invert = (command->flags & CMD_INVERT_RETURN) != 0; + + /* If we're inverting the return value and `set -e' has been executed, + we don't want a failing command to inadvertently cause the shell + to exit. */ + if (exit_immediately_on_error && invert) /* XXX */ + command->flags |= CMD_IGNORE_RETURN; /* XXX */ + + exec_result = EXECUTION_SUCCESS; + + /* If a command was being explicitly run in a subshell, or if it is + a shell control-structure, and it has a pipe, then we do the command + in a subshell. */ + if (command->type == cm_subshell && (command->flags & CMD_NO_FORK)) + return (execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close)); + +#if defined (COPROCESS_SUPPORT) + if (command->type == cm_coproc) + return (execute_coproc (command, pipe_in, pipe_out, fds_to_close)); +#endif + + user_subshell = command->type == cm_subshell || ((command->flags & CMD_WANT_SUBSHELL) != 0); + + if (command->type == cm_subshell || + (command->flags & (CMD_WANT_SUBSHELL|CMD_FORCE_SUBSHELL)) || + (shell_control_structure (command->type) && + (pipe_out != NO_PIPE || pipe_in != NO_PIPE || asynchronous))) + { + pid_t paren_pid; + int s; + + /* Fork a subshell, turn off the subshell bit, turn off job + control and call execute_command () on the command again. */ + line_number_for_err_trap = line_number; + tcmd = make_command_string (command); + paren_pid = make_child (savestring (tcmd), asynchronous); + + if (user_subshell && signal_is_trapped (ERROR_TRAP) && + signal_in_progress (DEBUG_TRAP) == 0 && running_trap == 0) + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + if (paren_pid == 0) + { + /* We want to run the exit trap for forced {} subshells, and we + want to note this before execute_in_subshell modifies the + COMMAND struct. Need to keep in mind that execute_in_subshell + runs the exit trap for () subshells itself. */ + /* This handles { command; } & */ + s = user_subshell == 0 && command->type == cm_group && pipe_in == NO_PIPE && pipe_out == NO_PIPE && asynchronous; + /* run exit trap for : | { ...; } and { ...; } | : */ + /* run exit trap for : | ( ...; ) and ( ...; ) | : */ + s += user_subshell == 0 && command->type == cm_group && (pipe_in != NO_PIPE || pipe_out != NO_PIPE) && asynchronous == 0; + + last_command_exit_value = execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close); + if (s) + subshell_exit (last_command_exit_value); + else + exit (last_command_exit_value); + /* NOTREACHED */ + } + else + { + close_pipes (pipe_in, pipe_out); + +#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD) + if (variable_context == 0) /* wait until shell function completes */ + unlink_fifo_list (); +#endif + /* If we are part of a pipeline, and not the end of the pipeline, + then we should simply return and let the last command in the + pipe be waited for. If we are not in a pipeline, or are the + last command in the pipeline, then we wait for the subshell + and return its exit status as usual. */ + if (pipe_out != NO_PIPE) + return (EXECUTION_SUCCESS); + + stop_pipeline (asynchronous, (COMMAND *)NULL); + + if (asynchronous == 0) + { + was_error_trap = signal_is_trapped (ERROR_TRAP) && signal_is_ignored (ERROR_TRAP) == 0; + invert = (command->flags & CMD_INVERT_RETURN) != 0; + ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0; + + exec_result = wait_for (paren_pid); + + /* If we have to, invert the return value. */ + if (invert) + exec_result = ((exec_result == EXECUTION_SUCCESS) + ? EXECUTION_FAILURE + : EXECUTION_SUCCESS); + + last_command_exit_value = exec_result; + if (user_subshell && was_error_trap && ignore_return == 0 && invert == 0 && exec_result != EXECUTION_SUCCESS) + { + save_line_number = line_number; + line_number = line_number_for_err_trap; + run_error_trap (); + line_number = save_line_number; + } + + if (user_subshell && ignore_return == 0 && invert == 0 && exit_immediately_on_error && exec_result != EXECUTION_SUCCESS) + { + run_pending_traps (); + jump_to_top_level (ERREXIT); + } + + return (last_command_exit_value); + } + else + { + DESCRIBE_PID (paren_pid); + + run_pending_traps (); + + return (EXECUTION_SUCCESS); + } + } + } + +#if defined (COMMAND_TIMING) + if (command->flags & CMD_TIME_PIPELINE) + { + if (asynchronous) + { + command->flags |= CMD_FORCE_SUBSHELL; + exec_result = execute_command_internal (command, 1, pipe_in, pipe_out, fds_to_close); + } + else + { + exec_result = time_command (command, asynchronous, pipe_in, pipe_out, fds_to_close); +#if 0 + if (running_trap == 0) +#endif + currently_executing_command = (COMMAND *)NULL; + } + return (exec_result); + } +#endif /* COMMAND_TIMING */ + + if (shell_control_structure (command->type) && command->redirects) + stdin_redir = stdin_redirects (command->redirects); + +#if defined (PROCESS_SUBSTITUTION) + if (variable_context != 0) + { + ofifo = num_fifos (); + ofifo_list = copy_fifo_list ((int *)&osize); + saved_fifo = 1; + } + else + saved_fifo = 0; +#endif + + /* Handle WHILE FOR CASE etc. with redirections. (Also '&' input + redirection.) */ + if (do_redirections (command->redirects, RX_ACTIVE|RX_UNDOABLE) != 0) + { + cleanup_redirects (redirection_undo_list); + redirection_undo_list = (REDIRECT *)NULL; + dispose_exec_redirects (); +#if defined (PROCESS_SUBSTITUTION) + if (saved_fifo) + free ((void *)ofifo_list); +#endif + return (last_command_exit_value = EXECUTION_FAILURE); + } + + if (redirection_undo_list) + { + /* XXX - why copy here? */ + my_undo_list = (REDIRECT *)copy_redirects (redirection_undo_list); + dispose_redirects (redirection_undo_list); + redirection_undo_list = (REDIRECT *)NULL; + } + else + my_undo_list = (REDIRECT *)NULL; + + if (exec_redirection_undo_list) + { + /* XXX - why copy here? */ + exec_undo_list = (REDIRECT *)copy_redirects (exec_redirection_undo_list); + dispose_redirects (exec_redirection_undo_list); + exec_redirection_undo_list = (REDIRECT *)NULL; + } + else + exec_undo_list = (REDIRECT *)NULL; + + if (my_undo_list || exec_undo_list) + begin_unwind_frame ("loop_redirections"); + + if (my_undo_list) + add_unwind_protect ((Function *)cleanup_redirects, my_undo_list); + + if (exec_undo_list) + add_unwind_protect ((Function *)dispose_redirects, exec_undo_list); + + ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0; + + QUIT; + + switch (command->type) + { + case cm_simple: + { + save_line_number = line_number; + /* We can't rely on variables retaining their values across a + call to execute_simple_command if a longjmp occurs as the + result of a `return' builtin. This is true for sure with gcc. */ +#if defined (RECYCLES_PIDS) + last_made_pid = NO_PID; +#endif + last_pid = last_made_pid; + was_error_trap = signal_is_trapped (ERROR_TRAP) && signal_is_ignored (ERROR_TRAP) == 0; + + if (ignore_return && command->value.Simple) + command->value.Simple->flags |= CMD_IGNORE_RETURN; + if (command->flags & CMD_STDIN_REDIR) + command->value.Simple->flags |= CMD_STDIN_REDIR; + + line_number_for_err_trap = line_number = command->value.Simple->line; + exec_result = + execute_simple_command (command->value.Simple, pipe_in, pipe_out, + asynchronous, fds_to_close); + line_number = save_line_number; + + /* The temporary environment should be used for only the simple + command immediately following its definition. */ + dispose_used_env_vars (); + +#if (defined (ultrix) && defined (mips)) || defined (C_ALLOCA) + /* Reclaim memory allocated with alloca () on machines which + may be using the alloca emulation code. */ + (void) alloca (0); +#endif /* (ultrix && mips) || C_ALLOCA */ + + /* If we forked to do the command, then we must wait_for () + the child. */ + + /* XXX - this is something to watch out for if there are problems + when the shell is compiled without job control. Don't worry about + whether or not last_made_pid == last_pid; already_making_children + tells us whether or not there are unwaited-for children to wait + for and reap. */ + if (already_making_children && pipe_out == NO_PIPE) + { + stop_pipeline (asynchronous, (COMMAND *)NULL); + + if (asynchronous) + { + DESCRIBE_PID (last_made_pid); + } + else +#if !defined (JOB_CONTROL) + /* Do not wait for asynchronous processes started from + startup files. */ + if (last_made_pid != last_asynchronous_pid) +#endif + /* When executing a shell function that executes other + commands, this causes the last simple command in + the function to be waited for twice. This also causes + subshells forked to execute builtin commands (e.g., in + pipelines) to be waited for twice. */ + exec_result = wait_for (last_made_pid); + } + } + + /* 2009/02/13 -- pipeline failure is processed elsewhere. This handles + only the failure of a simple command. */ + if (was_error_trap && ignore_return == 0 && invert == 0 && pipe_in == NO_PIPE && pipe_out == NO_PIPE && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + line_number = line_number_for_err_trap; + run_error_trap (); + line_number = save_line_number; + } + + if (ignore_return == 0 && invert == 0 && + ((posixly_correct && interactive == 0 && special_builtin_failed) || + (exit_immediately_on_error && pipe_in == NO_PIPE && pipe_out == NO_PIPE && exec_result != EXECUTION_SUCCESS))) + { + last_command_exit_value = exec_result; + run_pending_traps (); + jump_to_top_level (ERREXIT); + } + + break; + + case cm_for: + if (ignore_return) + command->value.For->flags |= CMD_IGNORE_RETURN; + exec_result = execute_for_command (command->value.For); + break; + +#if defined (ARITH_FOR_COMMAND) + case cm_arith_for: + if (ignore_return) + command->value.ArithFor->flags |= CMD_IGNORE_RETURN; + exec_result = execute_arith_for_command (command->value.ArithFor); + break; +#endif + +#if defined (SELECT_COMMAND) + case cm_select: + if (ignore_return) + command->value.Select->flags |= CMD_IGNORE_RETURN; + exec_result = execute_select_command (command->value.Select); + break; +#endif + + case cm_case: + if (ignore_return) + command->value.Case->flags |= CMD_IGNORE_RETURN; + exec_result = execute_case_command (command->value.Case); + break; + + case cm_while: + if (ignore_return) + command->value.While->flags |= CMD_IGNORE_RETURN; + exec_result = execute_while_command (command->value.While); + break; + + case cm_until: + if (ignore_return) + command->value.While->flags |= CMD_IGNORE_RETURN; + exec_result = execute_until_command (command->value.While); + break; + + case cm_if: + if (ignore_return) + command->value.If->flags |= CMD_IGNORE_RETURN; + exec_result = execute_if_command (command->value.If); + break; + + case cm_group: + + /* This code can be executed from either of two paths: an explicit + '{}' command, or via a function call. If we are executed via a + function call, we have already taken care of the function being + executed in the background (down there in execute_simple_command ()), + and this command should *not* be marked as asynchronous. If we + are executing a regular '{}' group command, and asynchronous == 1, + we must want to execute the whole command in the background, so we + need a subshell, and we want the stuff executed in that subshell + (this group command) to be executed in the foreground of that + subshell (i.e. there will not be *another* subshell forked). + + What we do is to force a subshell if asynchronous, and then call + execute_command_internal again with asynchronous still set to 1, + but with the original group command, so the printed command will + look right. + + The code above that handles forking off subshells will note that + both subshell and async are on, and turn off async in the child + after forking the subshell (but leave async set in the parent, so + the normal call to describe_pid is made). This turning off + async is *crucial*; if it is not done, this will fall into an + infinite loop of executions through this spot in subshell after + subshell until the process limit is exhausted. */ + + if (asynchronous) + { + command->flags |= CMD_FORCE_SUBSHELL; + exec_result = + execute_command_internal (command, 1, pipe_in, pipe_out, + fds_to_close); + } + else + { + if (ignore_return && command->value.Group->command) + command->value.Group->command->flags |= CMD_IGNORE_RETURN; + exec_result = + execute_command_internal (command->value.Group->command, + asynchronous, pipe_in, pipe_out, + fds_to_close); + } + break; + + case cm_connection: + exec_result = execute_connection (command, asynchronous, + pipe_in, pipe_out, fds_to_close); + break; + +#if defined (DPAREN_ARITHMETIC) + case cm_arith: + was_error_trap = signal_is_trapped (ERROR_TRAP) && signal_is_ignored (ERROR_TRAP) == 0; + if (ignore_return) + command->value.Arith->flags |= CMD_IGNORE_RETURN; + line_number_for_err_trap = save_line_number = line_number; + exec_result = execute_arith_command (command->value.Arith); + line_number = save_line_number; + + if (was_error_trap && ignore_return == 0 && invert == 0 && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + save_line_number = line_number; + line_number = line_number_for_err_trap; + run_error_trap (); + line_number = save_line_number; + } + + if (ignore_return == 0 && invert == 0 && exit_immediately_on_error && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + run_pending_traps (); + jump_to_top_level (ERREXIT); + } + + break; +#endif + +#if defined (COND_COMMAND) + case cm_cond: + was_error_trap = signal_is_trapped (ERROR_TRAP) && signal_is_ignored (ERROR_TRAP) == 0; + if (ignore_return) + command->value.Cond->flags |= CMD_IGNORE_RETURN; + + line_number_for_err_trap = save_line_number = line_number; + exec_result = execute_cond_command (command->value.Cond); + line_number = save_line_number; + + if (was_error_trap && ignore_return == 0 && invert == 0 && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + save_line_number = line_number; + line_number = line_number_for_err_trap; + run_error_trap (); + line_number = save_line_number; + } + + if (ignore_return == 0 && invert == 0 && exit_immediately_on_error && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + run_pending_traps (); + jump_to_top_level (ERREXIT); + } + + break; +#endif + + case cm_function_def: + exec_result = execute_intern_function (command->value.Function_def->name, + command->value.Function_def); + break; + + default: + command_error ("execute_command", CMDERR_BADTYPE, command->type, 0); + } + + if (my_undo_list) + { + do_redirections (my_undo_list, RX_ACTIVE); + dispose_redirects (my_undo_list); + } + + if (exec_undo_list) + dispose_redirects (exec_undo_list); + + if (my_undo_list || exec_undo_list) + discard_unwind_frame ("loop_redirections"); + +#if defined (PROCESS_SUBSTITUTION) + if (saved_fifo) + { + nfifo = num_fifos (); + if (nfifo > ofifo) + close_new_fifos ((char *)ofifo_list, osize); + free ((void *)ofifo_list); + } +#endif + + /* Invert the return value if we have to */ + if (invert) + exec_result = (exec_result == EXECUTION_SUCCESS) + ? EXECUTION_FAILURE + : EXECUTION_SUCCESS; + +#if defined (DPAREN_ARITHMETIC) || defined (COND_COMMAND) + /* This is where we set PIPESTATUS from the exit status of the appropriate + compound commands (the ones that look enough like simple commands to + cause confusion). We might be able to optimize by not doing this if + subshell_environment != 0. */ + switch (command->type) + { +# if defined (DPAREN_ARITHMETIC) + case cm_arith: +# endif +# if defined (COND_COMMAND) + case cm_cond: +# endif + set_pipestatus_from_exit (exec_result); + break; + } +#endif + + last_command_exit_value = exec_result; + run_pending_traps (); +#if 0 + if (running_trap == 0) +#endif + currently_executing_command = (COMMAND *)NULL; + + return (last_command_exit_value); +} + +#if defined (COMMAND_TIMING) + +#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY) +extern struct timeval *difftimeval __P((struct timeval *, struct timeval *, struct timeval *)); +extern struct timeval *addtimeval __P((struct timeval *, struct timeval *, struct timeval *)); +extern int timeval_to_cpu __P((struct timeval *, struct timeval *, struct timeval *)); +#endif + +#define POSIX_TIMEFORMAT "real %2R\nuser %2U\nsys %2S" +#define BASH_TIMEFORMAT "\nreal\t%3lR\nuser\t%3lU\nsys\t%3lS" + +static const int precs[] = { 0, 100, 10, 1 }; + +/* Expand one `%'-prefixed escape sequence from a time format string. */ +static int +mkfmt (buf, prec, lng, sec, sec_fraction) + char *buf; + int prec, lng; + time_t sec; + int sec_fraction; +{ + time_t min; + char abuf[INT_STRLEN_BOUND(time_t) + 1]; + int ind, aind; + + ind = 0; + abuf[sizeof(abuf) - 1] = '\0'; + + /* If LNG is non-zero, we want to decompose SEC into minutes and seconds. */ + if (lng) + { + min = sec / 60; + sec %= 60; + aind = sizeof(abuf) - 2; + do + abuf[aind--] = (min % 10) + '0'; + while (min /= 10); + aind++; + while (abuf[aind]) + buf[ind++] = abuf[aind++]; + buf[ind++] = 'm'; + } + + /* Now add the seconds. */ + aind = sizeof (abuf) - 2; + do + abuf[aind--] = (sec % 10) + '0'; + while (sec /= 10); + aind++; + while (abuf[aind]) + buf[ind++] = abuf[aind++]; + + /* We want to add a decimal point and PREC places after it if PREC is + nonzero. PREC is not greater than 3. SEC_FRACTION is between 0 + and 999. */ + if (prec != 0) + { + buf[ind++] = '.'; + for (aind = 1; aind <= prec; aind++) + { + buf[ind++] = (sec_fraction / precs[aind]) + '0'; + sec_fraction %= precs[aind]; + } + } + + if (lng) + buf[ind++] = 's'; + buf[ind] = '\0'; + + return (ind); +} + +/* Interpret the format string FORMAT, interpolating the following escape + sequences: + %[prec][l][RUS] + + where the optional `prec' is a precision, meaning the number of + characters after the decimal point, the optional `l' means to format + using minutes and seconds (MMmNN[.FF]s), like the `times' builtin', + and the last character is one of + + R number of seconds of `real' time + U number of seconds of `user' time + S number of seconds of `system' time + + An occurrence of `%%' in the format string is translated to a `%'. The + result is printed to FP, a pointer to a FILE. The other variables are + the seconds and thousandths of a second of real, user, and system time, + resectively. */ +static void +print_formatted_time (fp, format, rs, rsf, us, usf, ss, ssf, cpu) + FILE *fp; + char *format; + time_t rs; + int rsf; + time_t us; + int usf; + time_t ss; + int ssf, cpu; +{ + int prec, lng, len; + char *str, *s, ts[INT_STRLEN_BOUND (time_t) + sizeof ("mSS.FFFF")]; + time_t sum; + int sum_frac; + int sindex, ssize; + + len = strlen (format); + ssize = (len + 64) - (len % 64); + str = (char *)xmalloc (ssize); + sindex = 0; + + for (s = format; *s; s++) + { + if (*s != '%' || s[1] == '\0') + { + RESIZE_MALLOCED_BUFFER (str, sindex, 1, ssize, 64); + str[sindex++] = *s; + } + else if (s[1] == '%') + { + s++; + RESIZE_MALLOCED_BUFFER (str, sindex, 1, ssize, 64); + str[sindex++] = *s; + } + else if (s[1] == 'P') + { + s++; +#if 0 + /* clamp CPU usage at 100% */ + if (cpu > 10000) + cpu = 10000; +#endif + sum = cpu / 100; + sum_frac = (cpu % 100) * 10; + len = mkfmt (ts, 2, 0, sum, sum_frac); + RESIZE_MALLOCED_BUFFER (str, sindex, len, ssize, 64); + strcpy (str + sindex, ts); + sindex += len; + } + else + { + prec = 3; /* default is three places past the decimal point. */ + lng = 0; /* default is to not use minutes or append `s' */ + s++; + if (DIGIT (*s)) /* `precision' */ + { + prec = *s++ - '0'; + if (prec > 3) prec = 3; + } + if (*s == 'l') /* `length extender' */ + { + lng = 1; + s++; + } + if (*s == 'R' || *s == 'E') + len = mkfmt (ts, prec, lng, rs, rsf); + else if (*s == 'U') + len = mkfmt (ts, prec, lng, us, usf); + else if (*s == 'S') + len = mkfmt (ts, prec, lng, ss, ssf); + else + { + internal_error (_("TIMEFORMAT: `%c': invalid format character"), *s); + free (str); + return; + } + RESIZE_MALLOCED_BUFFER (str, sindex, len, ssize, 64); + strcpy (str + sindex, ts); + sindex += len; + } + } + + str[sindex] = '\0'; + fprintf (fp, "%s\n", str); + fflush (fp); + + free (str); +} + +static int +time_command (command, asynchronous, pipe_in, pipe_out, fds_to_close) + COMMAND *command; + int asynchronous, pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + int rv, posix_time, old_flags, nullcmd; + time_t rs, us, ss; + int rsf, usf, ssf; + int cpu; + char *time_format; + +#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY) + struct timeval real, user, sys; + struct timeval before, after; +# if defined (HAVE_STRUCT_TIMEZONE) + struct timezone dtz; /* posix doesn't define this */ +# endif + struct rusage selfb, selfa, kidsb, kidsa; /* a = after, b = before */ +#else +# if defined (HAVE_TIMES) + clock_t tbefore, tafter, real, user, sys; + struct tms before, after; +# endif +#endif + +#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY) +# if defined (HAVE_STRUCT_TIMEZONE) + gettimeofday (&before, &dtz); +# else + gettimeofday (&before, (void *)NULL); +# endif /* !HAVE_STRUCT_TIMEZONE */ + getrusage (RUSAGE_SELF, &selfb); + getrusage (RUSAGE_CHILDREN, &kidsb); +#else +# if defined (HAVE_TIMES) + tbefore = times (&before); +# endif +#endif + + posix_time = command && (command->flags & CMD_TIME_POSIX); + + nullcmd = (command == 0) || (command->type == cm_simple && command->value.Simple->words == 0 && command->value.Simple->redirects == 0); + if (posixly_correct && nullcmd) + { +#if defined (HAVE_GETRUSAGE) + selfb.ru_utime.tv_sec = kidsb.ru_utime.tv_sec = selfb.ru_stime.tv_sec = kidsb.ru_stime.tv_sec = 0; + selfb.ru_utime.tv_usec = kidsb.ru_utime.tv_usec = selfb.ru_stime.tv_usec = kidsb.ru_stime.tv_usec = 0; + before.tv_sec = shell_start_time; + before.tv_usec = 0; +#else + before.tms_utime = before.tms_stime = before.tms_cutime = before.tms_cstime = 0; + tbefore = shell_start_time; +#endif + } + + old_flags = command->flags; + command->flags &= ~(CMD_TIME_PIPELINE|CMD_TIME_POSIX); + rv = execute_command_internal (command, asynchronous, pipe_in, pipe_out, fds_to_close); + command->flags = old_flags; + + rs = us = ss = 0; + rsf = usf = ssf = cpu = 0; + +#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY) +# if defined (HAVE_STRUCT_TIMEZONE) + gettimeofday (&after, &dtz); +# else + gettimeofday (&after, (void *)NULL); +# endif /* !HAVE_STRUCT_TIMEZONE */ + getrusage (RUSAGE_SELF, &selfa); + getrusage (RUSAGE_CHILDREN, &kidsa); + + difftimeval (&real, &before, &after); + timeval_to_secs (&real, &rs, &rsf); + + addtimeval (&user, difftimeval(&after, &selfb.ru_utime, &selfa.ru_utime), + difftimeval(&before, &kidsb.ru_utime, &kidsa.ru_utime)); + timeval_to_secs (&user, &us, &usf); + + addtimeval (&sys, difftimeval(&after, &selfb.ru_stime, &selfa.ru_stime), + difftimeval(&before, &kidsb.ru_stime, &kidsa.ru_stime)); + timeval_to_secs (&sys, &ss, &ssf); + + cpu = timeval_to_cpu (&real, &user, &sys); +#else +# if defined (HAVE_TIMES) + tafter = times (&after); + + real = tafter - tbefore; + clock_t_to_secs (real, &rs, &rsf); + + user = (after.tms_utime - before.tms_utime) + (after.tms_cutime - before.tms_cutime); + clock_t_to_secs (user, &us, &usf); + + sys = (after.tms_stime - before.tms_stime) + (after.tms_cstime - before.tms_cstime); + clock_t_to_secs (sys, &ss, &ssf); + + cpu = (real == 0) ? 0 : ((user + sys) * 10000) / real; + +# else + rs = us = ss = 0; + rsf = usf = ssf = cpu = 0; +# endif +#endif + + if (posix_time) + time_format = POSIX_TIMEFORMAT; + else if ((time_format = get_string_value ("TIMEFORMAT")) == 0) + { + if (posixly_correct && nullcmd) + time_format = "user\t%2lU\nsys\t%2lS"; + else + time_format = BASH_TIMEFORMAT; + } + if (time_format && *time_format) + print_formatted_time (stderr, time_format, rs, rsf, us, usf, ss, ssf, cpu); + + return rv; +} +#endif /* COMMAND_TIMING */ + +/* Execute a command that's supposed to be in a subshell. This must be + called after make_child and we must be running in the child process. + The caller will return or exit() immediately with the value this returns. */ +static int +execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close) + COMMAND *command; + int asynchronous; + int pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + int user_subshell, return_code, function_value, should_redir_stdin, invert; + int ois, user_coproc; + int result; + volatile COMMAND *tcom; + + USE_VAR(user_subshell); + USE_VAR(user_coproc); + USE_VAR(invert); + USE_VAR(tcom); + USE_VAR(asynchronous); + + subshell_level++; + should_redir_stdin = (asynchronous && (command->flags & CMD_STDIN_REDIR) && + pipe_in == NO_PIPE && + stdin_redirects (command->redirects) == 0); + + invert = (command->flags & CMD_INVERT_RETURN) != 0; + user_subshell = command->type == cm_subshell || ((command->flags & CMD_WANT_SUBSHELL) != 0); + user_coproc = command->type == cm_coproc; + + command->flags &= ~(CMD_FORCE_SUBSHELL | CMD_WANT_SUBSHELL | CMD_INVERT_RETURN); + + /* If a command is asynchronous in a subshell (like ( foo ) & or + the special case of an asynchronous GROUP command where the + the subshell bit is turned on down in case cm_group: below), + turn off `asynchronous', so that two subshells aren't spawned. + XXX - asynchronous used to be set to 0 in this block, but that + means that setup_async_signals was never run. Now it's set to + 0 after subshell_environment is set appropriately and setup_async_signals + is run. + + This seems semantically correct to me. For example, + ( foo ) & seems to say ``do the command `foo' in a subshell + environment, but don't wait for that subshell to finish'', + and "{ foo ; bar ; } &" seems to me to be like functions or + builtins in the background, which executed in a subshell + environment. I just don't see the need to fork two subshells. */ + + /* Don't fork again, we are already in a subshell. A `doubly + async' shell is not interactive, however. */ + if (asynchronous) + { +#if defined (JOB_CONTROL) + /* If a construct like ( exec xxx yyy ) & is given while job + control is active, we want to prevent exec from putting the + subshell back into the original process group, carefully + undoing all the work we just did in make_child. */ + original_pgrp = -1; +#endif /* JOB_CONTROL */ + ois = interactive_shell; + interactive_shell = 0; + /* This test is to prevent alias expansion by interactive shells that + run `(command) &' but to allow scripts that have enabled alias + expansion with `shopt -s expand_alias' to continue to expand + aliases. */ + if (ois != interactive_shell) + expand_aliases = 0; + } + + /* Subshells are neither login nor interactive. */ + login_shell = interactive = 0; + + if (user_subshell) + subshell_environment = SUBSHELL_PAREN; + else + { + subshell_environment = 0; /* XXX */ + if (asynchronous) + subshell_environment |= SUBSHELL_ASYNC; + if (pipe_in != NO_PIPE || pipe_out != NO_PIPE) + subshell_environment |= SUBSHELL_PIPE; + if (user_coproc) + subshell_environment |= SUBSHELL_COPROC; + } + + reset_terminating_signals (); /* in sig.c */ + /* Cancel traps, in trap.c. */ + /* Reset the signal handlers in the child, but don't free the + trap strings. Set a flag noting that we have to free the + trap strings if we run trap to change a signal disposition. */ + reset_signal_handlers (); + subshell_environment |= SUBSHELL_RESETTRAP; + + /* Make sure restore_original_signals doesn't undo the work done by + make_child to ensure that asynchronous children are immune to SIGINT + and SIGQUIT. Turn off asynchronous to make sure more subshells are + not spawned. */ + if (asynchronous) + { + setup_async_signals (); + asynchronous = 0; + } + +#if defined (JOB_CONTROL) + set_sigchld_handler (); +#endif /* JOB_CONTROL */ + + set_sigint_handler (); + +#if defined (JOB_CONTROL) + /* Delete all traces that there were any jobs running. This is + only for subshells. */ + without_job_control (); +#endif /* JOB_CONTROL */ + + if (fds_to_close) + close_fd_bitmap (fds_to_close); + + do_piping (pipe_in, pipe_out); + +#if defined (COPROCESS_SUPPORT) + coproc_closeall (); +#endif + + /* If this is a user subshell, set a flag if stdin was redirected. + This is used later to decide whether to redirect fd 0 to + /dev/null for async commands in the subshell. This adds more + sh compatibility, but I'm not sure it's the right thing to do. */ + if (user_subshell) + { + stdin_redir = stdin_redirects (command->redirects); + restore_default_signal (EXIT_TRAP); + } + + /* If this is an asynchronous command (command &), we want to + redirect the standard input from /dev/null in the absence of + any specific redirection involving stdin. */ + if (should_redir_stdin && stdin_redir == 0) + async_redirect_stdin (); + + /* Do redirections, then dispose of them before recursive call. */ + if (command->redirects) + { + if (do_redirections (command->redirects, RX_ACTIVE) != 0) + exit (invert ? EXECUTION_SUCCESS : EXECUTION_FAILURE); + + dispose_redirects (command->redirects); + command->redirects = (REDIRECT *)NULL; + } + + if (command->type == cm_subshell) + tcom = command->value.Subshell->command; + else if (user_coproc) + tcom = command->value.Coproc->command; + else + tcom = command; + + if (command->flags & CMD_TIME_PIPELINE) + tcom->flags |= CMD_TIME_PIPELINE; + if (command->flags & CMD_TIME_POSIX) + tcom->flags |= CMD_TIME_POSIX; + + /* Make sure the subshell inherits any CMD_IGNORE_RETURN flag. */ + if ((command->flags & CMD_IGNORE_RETURN) && tcom != command) + tcom->flags |= CMD_IGNORE_RETURN; + + /* If this is a simple command, tell execute_disk_command that it + might be able to get away without forking and simply exec. + This means things like ( sleep 10 ) will only cause one fork. + If we're timing the command or inverting its return value, however, + we cannot do this optimization. */ + if ((user_subshell || user_coproc) && (tcom->type == cm_simple || tcom->type == cm_subshell) && + ((tcom->flags & CMD_TIME_PIPELINE) == 0) && + ((tcom->flags & CMD_INVERT_RETURN) == 0)) + { + tcom->flags |= CMD_NO_FORK; + if (tcom->type == cm_simple) + tcom->value.Simple->flags |= CMD_NO_FORK; + } + + invert = (tcom->flags & CMD_INVERT_RETURN) != 0; + tcom->flags &= ~CMD_INVERT_RETURN; + + result = setjmp_nosigs (top_level); + + /* If we're inside a function while executing this subshell, we + need to handle a possible `return'. */ + function_value = 0; + if (return_catch_flag) + function_value = setjmp_nosigs (return_catch); + + /* If we're going to exit the shell, we don't want to invert the return + status. */ + if (result == EXITPROG) + invert = 0, return_code = last_command_exit_value; + else if (result) + return_code = EXECUTION_FAILURE; + else if (function_value) + return_code = return_catch_value; + else + return_code = execute_command_internal ((COMMAND *)tcom, asynchronous, NO_PIPE, NO_PIPE, fds_to_close); + + /* If we are asked to, invert the return value. */ + if (invert) + return_code = (return_code == EXECUTION_SUCCESS) ? EXECUTION_FAILURE + : EXECUTION_SUCCESS; + + /* If we were explicitly placed in a subshell with (), we need + to do the `shell cleanup' things, such as running traps[0]. */ + if (user_subshell && signal_is_trapped (0)) + { + last_command_exit_value = return_code; + return_code = run_exit_trap (); + } + + subshell_level--; + return (return_code); + /* NOTREACHED */ +} + +#if defined (COPROCESS_SUPPORT) +#define COPROC_MAX 16 + +typedef struct cpelement + { + struct cpelement *next; + struct coproc *coproc; + } +cpelement_t; + +typedef struct cplist + { + struct cpelement *head; + struct cpelement *tail; + int ncoproc; + int lock; + } +cplist_t; + +static struct cpelement *cpe_alloc __P((struct coproc *)); +static void cpe_dispose __P((struct cpelement *)); +static struct cpelement *cpl_add __P((struct coproc *)); +static struct cpelement *cpl_delete __P((pid_t)); +static void cpl_reap __P((void)); +static void cpl_flush __P((void)); +static void cpl_closeall __P((void)); +static struct cpelement *cpl_search __P((pid_t)); +static struct cpelement *cpl_searchbyname __P((const char *)); +static void cpl_prune __P((void)); + +static void coproc_free __P((struct coproc *)); + +/* Will go away when there is fully-implemented support for multiple coprocs. */ +Coproc sh_coproc = { 0, NO_PID, -1, -1, 0, 0, 0, 0, 0 }; + +cplist_t coproc_list = {0, 0, 0}; + +/* Functions to manage the list of coprocs */ + +static struct cpelement * +cpe_alloc (cp) + Coproc *cp; +{ + struct cpelement *cpe; + + cpe = (struct cpelement *)xmalloc (sizeof (struct cpelement)); + cpe->coproc = cp; + cpe->next = (struct cpelement *)0; + return cpe; +} + +static void +cpe_dispose (cpe) + struct cpelement *cpe; +{ + free (cpe); +} + +static struct cpelement * +cpl_add (cp) + Coproc *cp; +{ + struct cpelement *cpe; + + cpe = cpe_alloc (cp); + + if (coproc_list.head == 0) + { + coproc_list.head = coproc_list.tail = cpe; + coproc_list.ncoproc = 0; /* just to make sure */ + } + else + { + coproc_list.tail->next = cpe; + coproc_list.tail = cpe; + } + coproc_list.ncoproc++; + + return cpe; +} + +static struct cpelement * +cpl_delete (pid) + pid_t pid; +{ + struct cpelement *prev, *p; + + for (prev = p = coproc_list.head; p; prev = p, p = p->next) + if (p->coproc->c_pid == pid) + { + prev->next = p->next; /* remove from list */ + break; + } + + if (p == 0) + return 0; /* not found */ + +#if defined (DEBUG) + itrace("cpl_delete: deleting %d", pid); +#endif + + /* Housekeeping in the border cases. */ + if (p == coproc_list.head) + coproc_list.head = coproc_list.head->next; + else if (p == coproc_list.tail) + coproc_list.tail = prev; + + coproc_list.ncoproc--; + if (coproc_list.ncoproc == 0) + coproc_list.head = coproc_list.tail = 0; + else if (coproc_list.ncoproc == 1) + coproc_list.tail = coproc_list.head; /* just to make sure */ + + return (p); +} + +static void +cpl_reap () +{ + struct cpelement *p, *next, *nh, *nt; + + /* Build a new list by removing dead coprocs and fix up the coproc_list + pointers when done. */ + nh = nt = next = (struct cpelement *)0; + for (p = coproc_list.head; p; p = next) + { + next = p->next; + if (p->coproc->c_flags & COPROC_DEAD) + { + coproc_list.ncoproc--; /* keep running count, fix up pointers later */ + +#if defined (DEBUG) + itrace("cpl_reap: deleting %d", p->coproc->c_pid); +#endif + + coproc_dispose (p->coproc); + cpe_dispose (p); + } + else if (nh == 0) + nh = nt = p; + else + { + nt->next = p; + nt = nt->next; + } + } + + if (coproc_list.ncoproc == 0) + coproc_list.head = coproc_list.tail = 0; + else + { + if (nt) + nt->next = 0; + coproc_list.head = nh; + coproc_list.tail = nt; + if (coproc_list.ncoproc == 1) + coproc_list.tail = coproc_list.head; /* just to make sure */ + } +} + +/* Clear out the list of saved statuses */ +static void +cpl_flush () +{ + struct cpelement *cpe, *p; + + for (cpe = coproc_list.head; cpe; ) + { + p = cpe; + cpe = cpe->next; + + coproc_dispose (p->coproc); + cpe_dispose (p); + } + + coproc_list.head = coproc_list.tail = 0; + coproc_list.ncoproc = 0; +} + +static void +cpl_closeall () +{ + struct cpelement *cpe; + + for (cpe = coproc_list.head; cpe; cpe = cpe->next) + coproc_close (cpe->coproc); +} + +static void +cpl_fdchk (fd) + int fd; +{ + struct cpelement *cpe; + + for (cpe = coproc_list.head; cpe; cpe = cpe->next) + coproc_checkfd (cpe->coproc, fd); +} + +/* Search for PID in the list of coprocs; return the cpelement struct if + found. If not found, return NULL. */ +static struct cpelement * +cpl_search (pid) + pid_t pid; +{ + struct cpelement *cpe; + + for (cpe = coproc_list.head ; cpe; cpe = cpe->next) + if (cpe->coproc->c_pid == pid) + return cpe; + return (struct cpelement *)NULL; +} + +/* Search for the coproc named NAME in the list of coprocs; return the + cpelement struct if found. If not found, return NULL. */ +static struct cpelement * +cpl_searchbyname (name) + const char *name; +{ + struct cpelement *cp; + + for (cp = coproc_list.head ; cp; cp = cp->next) + if (STREQ (cp->coproc->c_name, name)) + return cp; + return (struct cpelement *)NULL; +} + +#if 0 +static void +cpl_prune () +{ + struct cpelement *cp; + + while (coproc_list.head && coproc_list.ncoproc > COPROC_MAX) + { + cp = coproc_list.head; + coproc_list.head = coproc_list.head->next; + coproc_dispose (cp->coproc); + cpe_dispose (cp); + coproc_list.ncoproc--; + } +} +#endif + +/* These currently use a single global "shell coproc" but are written in a + way to not preclude additional coprocs later (using the list management + package above). */ + +struct coproc * +getcoprocbypid (pid) + pid_t pid; +{ +#if MULTIPLE_COPROCS + struct cpelement *p; + + p = cpl_search (pid); + return (p ? p->coproc : 0); +#else + return (pid == sh_coproc.c_pid ? &sh_coproc : 0); +#endif +} + +struct coproc * +getcoprocbyname (name) + const char *name; +{ +#if MULTIPLE_COPROCS + struct cpelement *p; + + p = cpl_searchbyname (name); + return (p ? p->coproc : 0); +#else + return ((sh_coproc.c_name && STREQ (sh_coproc.c_name, name)) ? &sh_coproc : 0); +#endif +} + +void +coproc_init (cp) + struct coproc *cp; +{ + cp->c_name = 0; + cp->c_pid = NO_PID; + cp->c_rfd = cp->c_wfd = -1; + cp->c_rsave = cp->c_wsave = -1; + cp->c_flags = cp->c_status = cp->c_lock = 0; +} + +struct coproc * +coproc_alloc (name, pid) + char *name; + pid_t pid; +{ + struct coproc *cp; + +#if MULTIPLE_COPROCS + cp = (struct coproc *)xmalloc (sizeof (struct coproc)); +#else + cp = &sh_coproc; +#endif + coproc_init (cp); + cp->c_lock = 2; + + cp->c_pid = pid; + cp->c_name = savestring (name); +#if MULTIPLE_COPROCS + cpl_add (cp); +#endif + cp->c_lock = 0; + return (cp); +} + +static void +coproc_free (cp) + struct coproc *cp; +{ + free (cp); +} + +void +coproc_dispose (cp) + struct coproc *cp; +{ + sigset_t set, oset; + + if (cp == 0) + return; + + BLOCK_SIGNAL (SIGCHLD, set, oset); + cp->c_lock = 3; + coproc_unsetvars (cp); + FREE (cp->c_name); + coproc_close (cp); +#if MULTIPLE_COPROCS + coproc_free (cp); +#else + coproc_init (cp); + cp->c_lock = 0; +#endif + UNBLOCK_SIGNAL (oset); +} + +/* Placeholder for now. Will require changes for multiple coprocs */ +void +coproc_flush () +{ +#if MULTIPLE_COPROCS + cpl_flush (); +#else + coproc_dispose (&sh_coproc); +#endif +} + +void +coproc_close (cp) + struct coproc *cp; +{ + if (cp->c_rfd >= 0) + { + close (cp->c_rfd); + cp->c_rfd = -1; + } + if (cp->c_wfd >= 0) + { + close (cp->c_wfd); + cp->c_wfd = -1; + } + cp->c_rsave = cp->c_wsave = -1; +} + +void +coproc_closeall () +{ +#if MULTIPLE_COPROCS + cpl_closeall (); +#else + coproc_close (&sh_coproc); /* XXX - will require changes for multiple coprocs */ +#endif +} + +void +coproc_reap () +{ +#if MULTIPLE_COPROCS + cpl_reap (); +#else + struct coproc *cp; + + cp = &sh_coproc; /* XXX - will require changes for multiple coprocs */ + if (cp && (cp->c_flags & COPROC_DEAD)) + coproc_dispose (cp); +#endif +} + +void +coproc_rclose (cp, fd) + struct coproc *cp; + int fd; +{ + if (cp->c_rfd >= 0 && cp->c_rfd == fd) + { + close (cp->c_rfd); + cp->c_rfd = -1; + } +} + +void +coproc_wclose (cp, fd) + struct coproc *cp; + int fd; +{ + if (cp->c_wfd >= 0 && cp->c_wfd == fd) + { + close (cp->c_wfd); + cp->c_wfd = -1; + } +} + +void +coproc_checkfd (cp, fd) + struct coproc *cp; + int fd; +{ + int update; + + update = 0; + if (cp->c_rfd >= 0 && cp->c_rfd == fd) + update = cp->c_rfd = -1; + if (cp->c_wfd >= 0 && cp->c_wfd == fd) + update = cp->c_wfd = -1; + if (update) + coproc_setvars (cp); +} + +void +coproc_fdchk (fd) + int fd; +{ +#if MULTIPLE_COPROCS + cpl_fdchk (fd); +#else + coproc_checkfd (&sh_coproc, fd); +#endif +} + +void +coproc_fdclose (cp, fd) + struct coproc *cp; + int fd; +{ + coproc_rclose (cp, fd); + coproc_wclose (cp, fd); + coproc_setvars (cp); +} + +void +coproc_fdsave (cp) + struct coproc *cp; +{ + cp->c_rsave = cp->c_rfd; + cp->c_wsave = cp->c_wfd; +} + +void +coproc_fdrestore (cp) + struct coproc *cp; +{ + cp->c_rfd = cp->c_rsave; + cp->c_wfd = cp->c_wsave; +} + +void +coproc_pidchk (pid, status) + pid_t pid; +{ + struct coproc *cp; + +#if MULTIPLE_COPROCS + struct cpelement *cpe; + + cpe = cpl_delete (pid); + cp = cpe ? cpe->coproc : 0; +#else + cp = getcoprocbypid (pid); +#endif + if (cp) + { + cp->c_lock = 4; + cp->c_status = status; + cp->c_flags |= COPROC_DEAD; + cp->c_flags &= ~COPROC_RUNNING; + /* Don't dispose the coproc or unset the COPROC_XXX variables because + this is executed in a signal handler context. Wait until coproc_reap + takes care of it. */ + cp->c_lock = 0; + } +} + +void +coproc_setvars (cp) + struct coproc *cp; +{ + SHELL_VAR *v; + char *namevar, *t; + int l; +#if defined (ARRAY_VARS) + arrayind_t ind; +#endif + + if (cp->c_name == 0) + return; + + l = strlen (cp->c_name); + namevar = xmalloc (l + 16); + +#if defined (ARRAY_VARS) + v = find_variable (cp->c_name); + if (v == 0) + v = make_new_array_variable (cp->c_name); + if (array_p (v) == 0) + v = convert_var_to_array (v); + + t = itos (cp->c_rfd); + ind = 0; + v = bind_array_variable (cp->c_name, ind, t, 0); + free (t); + + t = itos (cp->c_wfd); + ind = 1; + bind_array_variable (cp->c_name, ind, t, 0); + free (t); +#else + sprintf (namevar, "%s_READ", cp->c_name); + t = itos (cp->c_rfd); + bind_variable (namevar, t, 0); + free (t); + sprintf (namevar, "%s_WRITE", cp->c_name); + t = itos (cp->c_wfd); + bind_variable (namevar, t, 0); + free (t); +#endif + + sprintf (namevar, "%s_PID", cp->c_name); + t = itos (cp->c_pid); + bind_variable (namevar, t, 0); + free (t); + + free (namevar); +} + +void +coproc_unsetvars (cp) + struct coproc *cp; +{ + int l; + char *namevar; + + if (cp->c_name == 0) + return; + + l = strlen (cp->c_name); + namevar = xmalloc (l + 16); + + sprintf (namevar, "%s_PID", cp->c_name); + unbind_variable (namevar); + +#if defined (ARRAY_VARS) + unbind_variable (cp->c_name); +#else + sprintf (namevar, "%s_READ", cp->c_name); + unbind_variable (namevar); + sprintf (namevar, "%s_WRITE", cp->c_name); + unbind_variable (namevar); +#endif + + free (namevar); +} + +static int +execute_coproc (command, pipe_in, pipe_out, fds_to_close) + COMMAND *command; + int pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + int rpipe[2], wpipe[2], estat, invert; + pid_t coproc_pid; + Coproc *cp; + char *tcmd; + sigset_t set, oset; + + /* XXX -- can be removed after changes to handle multiple coprocs */ +#if !MULTIPLE_COPROCS + if (sh_coproc.c_pid != NO_PID) + internal_warning ("execute_coproc: coproc [%d:%s] still exists", sh_coproc.c_pid, sh_coproc.c_name); + coproc_init (&sh_coproc); +#endif + + invert = (command->flags & CMD_INVERT_RETURN) != 0; + command_string_index = 0; + tcmd = make_command_string (command); + + sh_openpipe ((int *)&rpipe); /* 0 = parent read, 1 = child write */ + sh_openpipe ((int *)&wpipe); /* 0 = child read, 1 = parent write */ + + BLOCK_SIGNAL (SIGCHLD, set, oset); + + coproc_pid = make_child (savestring (tcmd), 1); + + if (coproc_pid == 0) + { + close (rpipe[0]); + close (wpipe[1]); + + UNBLOCK_SIGNAL (oset); + estat = execute_in_subshell (command, 1, wpipe[0], rpipe[1], fds_to_close); + + fflush (stdout); + fflush (stderr); + + exit (estat); + } + + close (rpipe[1]); + close (wpipe[0]); + + /* XXX - possibly run Coproc->name through word expansion? */ + cp = coproc_alloc (command->value.Coproc->name, coproc_pid); + cp->c_rfd = rpipe[0]; + cp->c_wfd = wpipe[1]; + + SET_CLOSE_ON_EXEC (cp->c_rfd); + SET_CLOSE_ON_EXEC (cp->c_wfd); + + coproc_setvars (cp); + + UNBLOCK_SIGNAL (oset); + +#if 0 + itrace ("execute_coproc: [%d] %s", coproc_pid, the_printed_command); +#endif + + close_pipes (pipe_in, pipe_out); +#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD) + unlink_fifo_list (); +#endif + stop_pipeline (1, (COMMAND *)NULL); + DESCRIBE_PID (coproc_pid); + run_pending_traps (); + + return (invert ? EXECUTION_FAILURE : EXECUTION_SUCCESS); +} +#endif + +static void +restore_stdin (s) + int s; +{ + dup2 (s, 0); + close (s); +} + +/* Catch-all cleanup function for lastpipe code for unwind-protects */ +static void +lastpipe_cleanup (s) + int s; +{ + unfreeze_jobs_list (); +} + +static int +execute_pipeline (command, asynchronous, pipe_in, pipe_out, fds_to_close) + COMMAND *command; + int asynchronous, pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + int prev, fildes[2], new_bitmap_size, dummyfd, ignore_return, exec_result; + int lstdin, lastpipe_flag, lastpipe_jid; + COMMAND *cmd; + struct fd_bitmap *fd_bitmap; + pid_t lastpid; + +#if defined (JOB_CONTROL) + sigset_t set, oset; + BLOCK_CHILD (set, oset); +#endif /* JOB_CONTROL */ + + ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0; + + prev = pipe_in; + cmd = command; + + while (cmd && cmd->type == cm_connection && + cmd->value.Connection && cmd->value.Connection->connector == '|') + { + /* Make a pipeline between the two commands. */ + if (pipe (fildes) < 0) + { + sys_error (_("pipe error")); +#if defined (JOB_CONTROL) + terminate_current_pipeline (); + kill_current_pipeline (); + UNBLOCK_CHILD (oset); +#endif /* JOB_CONTROL */ + last_command_exit_value = EXECUTION_FAILURE; + /* The unwind-protects installed below will take care + of closing all of the open file descriptors. */ + throw_to_top_level (); + return (EXECUTION_FAILURE); /* XXX */ + } + + /* Here is a problem: with the new file close-on-exec + code, the read end of the pipe (fildes[0]) stays open + in the first process, so that process will never get a + SIGPIPE. There is no way to signal the first process + that it should close fildes[0] after forking, so it + remains open. No SIGPIPE is ever sent because there + is still a file descriptor open for reading connected + to the pipe. We take care of that here. This passes + around a bitmap of file descriptors that must be + closed after making a child process in execute_simple_command. */ + + /* We need fd_bitmap to be at least as big as fildes[0]. + If fildes[0] is less than fds_to_close->size, then + use fds_to_close->size. */ + new_bitmap_size = (fildes[0] < fds_to_close->size) + ? fds_to_close->size + : fildes[0] + 8; + + fd_bitmap = new_fd_bitmap (new_bitmap_size); + + /* Now copy the old information into the new bitmap. */ + xbcopy ((char *)fds_to_close->bitmap, (char *)fd_bitmap->bitmap, fds_to_close->size); + + /* And mark the pipe file descriptors to be closed. */ + fd_bitmap->bitmap[fildes[0]] = 1; + + /* In case there are pipe or out-of-processes errors, we + want all these file descriptors to be closed when + unwind-protects are run, and the storage used for the + bitmaps freed up. */ + begin_unwind_frame ("pipe-file-descriptors"); + add_unwind_protect (dispose_fd_bitmap, fd_bitmap); + add_unwind_protect (close_fd_bitmap, fd_bitmap); + if (prev >= 0) + add_unwind_protect (close, prev); + dummyfd = fildes[1]; + add_unwind_protect (close, dummyfd); + +#if defined (JOB_CONTROL) + add_unwind_protect (restore_signal_mask, &oset); +#endif /* JOB_CONTROL */ + + if (ignore_return && cmd->value.Connection->first) + cmd->value.Connection->first->flags |= CMD_IGNORE_RETURN; + execute_command_internal (cmd->value.Connection->first, asynchronous, + prev, fildes[1], fd_bitmap); + + if (prev >= 0) + close (prev); + + prev = fildes[0]; + close (fildes[1]); + + dispose_fd_bitmap (fd_bitmap); + discard_unwind_frame ("pipe-file-descriptors"); + + cmd = cmd->value.Connection->second; + } + + lastpid = last_made_pid; + + /* Now execute the rightmost command in the pipeline. */ + if (ignore_return && cmd) + cmd->flags |= CMD_IGNORE_RETURN; + + lastpipe_flag = 0; + + begin_unwind_frame ("lastpipe-exec"); + lstdin = -1; + /* If the `lastpipe' option is set with shopt, and job control is not + enabled, execute the last element of non-async pipelines in the + current shell environment. */ + if (lastpipe_opt && job_control == 0 && asynchronous == 0 && pipe_out == NO_PIPE && prev > 0) + { + lstdin = move_to_high_fd (0, 1, -1); + if (lstdin > 0) + { + do_piping (prev, pipe_out); + prev = NO_PIPE; + add_unwind_protect (restore_stdin, lstdin); + lastpipe_flag = 1; + freeze_jobs_list (); + lastpipe_jid = stop_pipeline (0, (COMMAND *)NULL); /* XXX */ + add_unwind_protect (lastpipe_cleanup, lastpipe_jid); + } + if (cmd) + cmd->flags |= CMD_LASTPIPE; + } + if (prev >= 0) + add_unwind_protect (close, prev); + + exec_result = execute_command_internal (cmd, asynchronous, prev, pipe_out, fds_to_close); + + if (lstdin > 0) + restore_stdin (lstdin); + + if (prev >= 0) + close (prev); + +#if defined (JOB_CONTROL) + UNBLOCK_CHILD (oset); +#endif + + QUIT; + + if (lastpipe_flag) + { +#if defined (JOB_CONTROL) + append_process (savestring (the_printed_command), dollar_dollar_pid, exec_result, lastpipe_jid); +#endif + lstdin = wait_for (lastpid); +#if defined (JOB_CONTROL) + exec_result = job_exit_status (lastpipe_jid); +#endif + unfreeze_jobs_list (); + } + + discard_unwind_frame ("lastpipe-exec"); + + return (exec_result); +} + +static int +execute_connection (command, asynchronous, pipe_in, pipe_out, fds_to_close) + COMMAND *command; + int asynchronous, pipe_in, pipe_out; + struct fd_bitmap *fds_to_close; +{ + COMMAND *tc, *second; + int ignore_return, exec_result, was_error_trap, invert; + volatile int save_line_number; + + ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0; + + switch (command->value.Connection->connector) + { + /* Do the first command asynchronously. */ + case '&': + tc = command->value.Connection->first; + if (tc == 0) + return (EXECUTION_SUCCESS); + + if (ignore_return) + tc->flags |= CMD_IGNORE_RETURN; + tc->flags |= CMD_AMPERSAND; + + /* If this shell was compiled without job control support, + if we are currently in a subshell via `( xxx )', or if job + control is not active then the standard input for an + asynchronous command is forced to /dev/null. */ +#if defined (JOB_CONTROL) + if ((subshell_environment || !job_control) && !stdin_redir) +#else + if (!stdin_redir) +#endif /* JOB_CONTROL */ + tc->flags |= CMD_STDIN_REDIR; + + exec_result = execute_command_internal (tc, 1, pipe_in, pipe_out, fds_to_close); + QUIT; + + if (tc->flags & CMD_STDIN_REDIR) + tc->flags &= ~CMD_STDIN_REDIR; + + second = command->value.Connection->second; + if (second) + { + if (ignore_return) + second->flags |= CMD_IGNORE_RETURN; + + exec_result = execute_command_internal (second, asynchronous, pipe_in, pipe_out, fds_to_close); + } + + break; + + /* Just call execute command on both sides. */ + case ';': + if (ignore_return) + { + if (command->value.Connection->first) + command->value.Connection->first->flags |= CMD_IGNORE_RETURN; + if (command->value.Connection->second) + command->value.Connection->second->flags |= CMD_IGNORE_RETURN; + } + executing_list++; + QUIT; + execute_command (command->value.Connection->first); + QUIT; + exec_result = execute_command_internal (command->value.Connection->second, + asynchronous, pipe_in, pipe_out, + fds_to_close); + executing_list--; + break; + + case '|': + was_error_trap = signal_is_trapped (ERROR_TRAP) && signal_is_ignored (ERROR_TRAP) == 0; + invert = (command->flags & CMD_INVERT_RETURN) != 0; + ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0; + + line_number_for_err_trap = line_number; + exec_result = execute_pipeline (command, asynchronous, pipe_in, pipe_out, fds_to_close); + + if (was_error_trap && ignore_return == 0 && invert == 0 && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + save_line_number = line_number; + line_number = line_number_for_err_trap; + run_error_trap (); + line_number = save_line_number; + } + + if (ignore_return == 0 && invert == 0 && exit_immediately_on_error && exec_result != EXECUTION_SUCCESS) + { + last_command_exit_value = exec_result; + run_pending_traps (); + jump_to_top_level (ERREXIT); + } + + break; + + case AND_AND: + case OR_OR: + if (asynchronous) + { + /* If we have something like `a && b &' or `a || b &', run the + && or || stuff in a subshell. Force a subshell and just call + execute_command_internal again. Leave asynchronous on + so that we get a report from the parent shell about the + background job. */ + command->flags |= CMD_FORCE_SUBSHELL; + exec_result = execute_command_internal (command, 1, pipe_in, pipe_out, fds_to_close); + break; + } + + /* Execute the first command. If the result of that is successful + and the connector is AND_AND, or the result is not successful + and the connector is OR_OR, then execute the second command, + otherwise return. */ + + executing_list++; + if (command->value.Connection->first) + command->value.Connection->first->flags |= CMD_IGNORE_RETURN; + + exec_result = execute_command (command->value.Connection->first); + QUIT; + if (((command->value.Connection->connector == AND_AND) && + (exec_result == EXECUTION_SUCCESS)) || + ((command->value.Connection->connector == OR_OR) && + (exec_result != EXECUTION_SUCCESS))) + { + if (ignore_return && command->value.Connection->second) + command->value.Connection->second->flags |= CMD_IGNORE_RETURN; + + exec_result = execute_command (command->value.Connection->second); + } + executing_list--; + break; + + default: + command_error ("execute_connection", CMDERR_BADCONN, command->value.Connection->connector, 0); + jump_to_top_level (DISCARD); + exec_result = EXECUTION_FAILURE; + } + + return exec_result; +} + +#define REAP() \ + do \ + { \ + if (!interactive_shell) \ + reap_dead_jobs (); \ + } \ + while (0) + +/* Execute a FOR command. The syntax is: FOR word_desc IN word_list; + DO command; DONE */ +static int +execute_for_command (for_command) + FOR_COM *for_command; +{ + register WORD_LIST *releaser, *list; + SHELL_VAR *v; + char *identifier; + int retval, save_line_number; +#if 0 + SHELL_VAR *old_value = (SHELL_VAR *)NULL; /* Remember the old value of x. */ +#endif + + save_line_number = line_number; + if (check_identifier (for_command->name, 1) == 0) + { + if (posixly_correct && interactive_shell == 0) + { + last_command_exit_value = EX_BADUSAGE; + jump_to_top_level (ERREXIT); + } + return (EXECUTION_FAILURE); + } + + loop_level++; + identifier = for_command->name->word; + + list = releaser = expand_words_no_vars (for_command->map_list); + + begin_unwind_frame ("for"); + add_unwind_protect (dispose_words, releaser); + +#if 0 + if (lexical_scoping) + { + old_value = copy_variable (find_variable (identifier)); + if (old_value) + add_unwind_protect (dispose_variable, old_value); + } +#endif + + if (for_command->flags & CMD_IGNORE_RETURN) + for_command->action->flags |= CMD_IGNORE_RETURN; + + for (retval = EXECUTION_SUCCESS; list; list = list->next) + { + QUIT; + + line_number = for_command->line; + + /* Remember what this command looks like, for debugger. */ + command_string_index = 0; + print_for_command_head (for_command); + + if (echo_command_at_execute) + xtrace_print_for_command_head (for_command); + + /* Save this command unless it's a trap command and we're not running + a debug trap. */ + if (signal_in_progress (DEBUG_TRAP) == 0 && running_trap == 0) + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + retval = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && retval != EXECUTION_SUCCESS) + continue; +#endif + + this_command_name = (char *)NULL; + /* XXX - special ksh93 for command index variable handling */ + v = find_variable_last_nameref (identifier); + if (v && nameref_p (v)) + { + v = bind_variable_value (v, list->word->word, 0); + } + else + v = bind_variable (identifier, list->word->word, 0); + if (readonly_p (v) || noassign_p (v)) + { + line_number = save_line_number; + if (readonly_p (v) && interactive_shell == 0 && posixly_correct) + { + last_command_exit_value = EXECUTION_FAILURE; + jump_to_top_level (FORCE_EOF); + } + else + { + dispose_words (releaser); + discard_unwind_frame ("for"); + loop_level--; + return (EXECUTION_FAILURE); + } + } + retval = execute_command (for_command->action); + REAP (); + QUIT; + + if (breaking) + { + breaking--; + break; + } + + if (continuing) + { + continuing--; + if (continuing) + break; + } + } + + loop_level--; + line_number = save_line_number; + +#if 0 + if (lexical_scoping) + { + if (!old_value) + unbind_variable (identifier); + else + { + SHELL_VAR *new_value; + + new_value = bind_variable (identifier, value_cell(old_value), 0); + new_value->attributes = old_value->attributes; + dispose_variable (old_value); + } + } +#endif + + dispose_words (releaser); + discard_unwind_frame ("for"); + return (retval); +} + +#if defined (ARITH_FOR_COMMAND) +/* Execute an arithmetic for command. The syntax is + + for (( init ; step ; test )) + do + body + done + + The execution should be exactly equivalent to + + eval \(\( init \)\) + while eval \(\( test \)\) ; do + body; + eval \(\( step \)\) + done +*/ +static intmax_t +eval_arith_for_expr (l, okp) + WORD_LIST *l; + int *okp; +{ + WORD_LIST *new; + intmax_t expresult; + int r; + + new = expand_words_no_vars (l); + if (new) + { + if (echo_command_at_execute) + xtrace_print_arith_cmd (new); + this_command_name = "(("; /* )) for expression error messages */ + + command_string_index = 0; + print_arith_command (new); + if (signal_in_progress (DEBUG_TRAP) == 0) + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + r = run_debug_trap (); + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ +#if defined (DEBUGGER) + if (debugging_mode == 0 || r == EXECUTION_SUCCESS) + expresult = evalexp (new->word->word, okp); + else + { + expresult = 0; + if (okp) + *okp = 1; + } +#else + expresult = evalexp (new->word->word, okp); +#endif + dispose_words (new); + } + else + { + expresult = 0; + if (okp) + *okp = 1; + } + return (expresult); +} + +static int +execute_arith_for_command (arith_for_command) + ARITH_FOR_COM *arith_for_command; +{ + intmax_t expresult; + int expok, body_status, arith_lineno, save_lineno; + + body_status = EXECUTION_SUCCESS; + loop_level++; + save_lineno = line_number; + + if (arith_for_command->flags & CMD_IGNORE_RETURN) + arith_for_command->action->flags |= CMD_IGNORE_RETURN; + + this_command_name = "(("; /* )) for expression error messages */ + + /* save the starting line number of the command so we can reset + line_number before executing each expression -- for $LINENO + and the DEBUG trap. */ + line_number = arith_lineno = arith_for_command->line; + if (variable_context && interactive_shell) + line_number -= function_line_number; + + /* Evaluate the initialization expression. */ + expresult = eval_arith_for_expr (arith_for_command->init, &expok); + if (expok == 0) + { + line_number = save_lineno; + return (EXECUTION_FAILURE); + } + + while (1) + { + /* Evaluate the test expression. */ + line_number = arith_lineno; + expresult = eval_arith_for_expr (arith_for_command->test, &expok); + line_number = save_lineno; + + if (expok == 0) + { + body_status = EXECUTION_FAILURE; + break; + } + REAP (); + if (expresult == 0) + break; + + /* Execute the body of the arithmetic for command. */ + QUIT; + body_status = execute_command (arith_for_command->action); + QUIT; + + /* Handle any `break' or `continue' commands executed by the body. */ + if (breaking) + { + breaking--; + break; + } + + if (continuing) + { + continuing--; + if (continuing) + break; + } + + /* Evaluate the step expression. */ + line_number = arith_lineno; + expresult = eval_arith_for_expr (arith_for_command->step, &expok); + line_number = save_lineno; + + if (expok == 0) + { + body_status = EXECUTION_FAILURE; + break; + } + } + + loop_level--; + line_number = save_lineno; + + return (body_status); +} +#endif + +#if defined (SELECT_COMMAND) +static int LINES, COLS, tabsize; + +#define RP_SPACE ") " +#define RP_SPACE_LEN 2 + +/* XXX - does not handle numbers > 1000000 at all. */ +#define NUMBER_LEN(s) \ +((s < 10) ? 1 \ + : ((s < 100) ? 2 \ + : ((s < 1000) ? 3 \ + : ((s < 10000) ? 4 \ + : ((s < 100000) ? 5 \ + : 6))))) + +static int +displen (s) + const char *s; +{ +#if defined (HANDLE_MULTIBYTE) + wchar_t *wcstr; + size_t slen; + int wclen; + + wcstr = 0; + slen = mbstowcs (wcstr, s, 0); + if (slen == -1) + slen = 0; + wcstr = (wchar_t *)xmalloc (sizeof (wchar_t) * (slen + 1)); + mbstowcs (wcstr, s, slen + 1); + wclen = wcswidth (wcstr, slen); + free (wcstr); + return (wclen < 0 ? STRLEN(s) : wclen); +#else + return (STRLEN (s)); +#endif +} + +static int +print_index_and_element (len, ind, list) + int len, ind; + WORD_LIST *list; +{ + register WORD_LIST *l; + register int i; + + if (list == 0) + return (0); + for (i = ind, l = list; l && --i; l = l->next) + ; + if (l == 0) /* don't think this can happen */ + return (0); + fprintf (stderr, "%*d%s%s", len, ind, RP_SPACE, l->word->word); + return (displen (l->word->word)); +} + +static void +indent (from, to) + int from, to; +{ + while (from < to) + { + if ((to / tabsize) > (from / tabsize)) + { + putc ('\t', stderr); + from += tabsize - from % tabsize; + } + else + { + putc (' ', stderr); + from++; + } + } +} + +static void +print_select_list (list, list_len, max_elem_len, indices_len) + WORD_LIST *list; + int list_len, max_elem_len, indices_len; +{ + int ind, row, elem_len, pos, cols, rows; + int first_column_indices_len, other_indices_len; + + if (list == 0) + { + putc ('\n', stderr); + return; + } + + cols = max_elem_len ? COLS / max_elem_len : 1; + if (cols == 0) + cols = 1; + rows = list_len ? list_len / cols + (list_len % cols != 0) : 1; + cols = list_len ? list_len / rows + (list_len % rows != 0) : 1; + + if (rows == 1) + { + rows = cols; + cols = 1; + } + + first_column_indices_len = NUMBER_LEN (rows); + other_indices_len = indices_len; + + for (row = 0; row < rows; row++) + { + ind = row; + pos = 0; + while (1) + { + indices_len = (pos == 0) ? first_column_indices_len : other_indices_len; + elem_len = print_index_and_element (indices_len, ind + 1, list); + elem_len += indices_len + RP_SPACE_LEN; + ind += rows; + if (ind >= list_len) + break; + indent (pos + elem_len, pos + max_elem_len); + pos += max_elem_len; + } + putc ('\n', stderr); + } +} + +/* Print the elements of LIST, one per line, preceded by an index from 1 to + LIST_LEN. Then display PROMPT and wait for the user to enter a number. + If the number is between 1 and LIST_LEN, return that selection. If EOF + is read, return a null string. If a blank line is entered, or an invalid + number is entered, the loop is executed again. */ +static char * +select_query (list, list_len, prompt, print_menu) + WORD_LIST *list; + int list_len; + char *prompt; + int print_menu; +{ + int max_elem_len, indices_len, len; + intmax_t reply; + WORD_LIST *l; + char *repl_string, *t; + +#if 0 + t = get_string_value ("LINES"); + LINES = (t && *t) ? atoi (t) : 24; +#endif + t = get_string_value ("COLUMNS"); + COLS = (t && *t) ? atoi (t) : 80; + +#if 0 + t = get_string_value ("TABSIZE"); + tabsize = (t && *t) ? atoi (t) : 8; + if (tabsize <= 0) + tabsize = 8; +#else + tabsize = 8; +#endif + + max_elem_len = 0; + for (l = list; l; l = l->next) + { + len = displen (l->word->word); + if (len > max_elem_len) + max_elem_len = len; + } + indices_len = NUMBER_LEN (list_len); + max_elem_len += indices_len + RP_SPACE_LEN + 2; + + while (1) + { + if (print_menu) + print_select_list (list, list_len, max_elem_len, indices_len); + fprintf (stderr, "%s", prompt); + fflush (stderr); + QUIT; + + if (read_builtin ((WORD_LIST *)NULL) != EXECUTION_SUCCESS) + { + putchar ('\n'); + return ((char *)NULL); + } + repl_string = get_string_value ("REPLY"); + if (*repl_string == 0) + { + print_menu = 1; + continue; + } + if (legal_number (repl_string, &reply) == 0) + return ""; + if (reply < 1 || reply > list_len) + return ""; + + for (l = list; l && --reply; l = l->next) + ; + return (l->word->word); /* XXX - can't be null? */ + } +} + +/* Execute a SELECT command. The syntax is: + SELECT word IN list DO command_list DONE + Only `break' or `return' in command_list will terminate + the command. */ +static int +execute_select_command (select_command) + SELECT_COM *select_command; +{ + WORD_LIST *releaser, *list; + SHELL_VAR *v; + char *identifier, *ps3_prompt, *selection; + int retval, list_len, show_menu, save_line_number; + + if (check_identifier (select_command->name, 1) == 0) + return (EXECUTION_FAILURE); + + save_line_number = line_number; + line_number = select_command->line; + + command_string_index = 0; + print_select_command_head (select_command); + + if (echo_command_at_execute) + xtrace_print_select_command_head (select_command); + +#if 0 + if (signal_in_progress (DEBUG_TRAP) == 0 && (this_command_name == 0 || (STREQ (this_command_name, "trap") == 0))) +#else + if (signal_in_progress (DEBUG_TRAP) == 0 && running_trap == 0) +#endif + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + retval = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && retval != EXECUTION_SUCCESS) + return (EXECUTION_SUCCESS); +#endif + + loop_level++; + identifier = select_command->name->word; + + /* command and arithmetic substitution, parameter and variable expansion, + word splitting, pathname expansion, and quote removal. */ + list = releaser = expand_words_no_vars (select_command->map_list); + list_len = list_length (list); + if (list == 0 || list_len == 0) + { + if (list) + dispose_words (list); + line_number = save_line_number; + return (EXECUTION_SUCCESS); + } + + begin_unwind_frame ("select"); + add_unwind_protect (dispose_words, releaser); + + if (select_command->flags & CMD_IGNORE_RETURN) + select_command->action->flags |= CMD_IGNORE_RETURN; + + retval = EXECUTION_SUCCESS; + show_menu = 1; + + while (1) + { + line_number = select_command->line; + ps3_prompt = get_string_value ("PS3"); + if (ps3_prompt == 0) + ps3_prompt = "#? "; + + QUIT; + selection = select_query (list, list_len, ps3_prompt, show_menu); + QUIT; + if (selection == 0) + { + /* select_query returns EXECUTION_FAILURE if the read builtin + fails, so we want to return failure in this case. */ + retval = EXECUTION_FAILURE; + break; + } + + v = bind_variable (identifier, selection, 0); + if (readonly_p (v) || noassign_p (v)) + { + if (readonly_p (v) && interactive_shell == 0 && posixly_correct) + { + last_command_exit_value = EXECUTION_FAILURE; + jump_to_top_level (FORCE_EOF); + } + else + { + dispose_words (releaser); + discard_unwind_frame ("select"); + loop_level--; + line_number = save_line_number; + return (EXECUTION_FAILURE); + } + } + + retval = execute_command (select_command->action); + + REAP (); + QUIT; + + if (breaking) + { + breaking--; + break; + } + + if (continuing) + { + continuing--; + if (continuing) + break; + } + +#if defined (KSH_COMPATIBLE_SELECT) + show_menu = 0; + selection = get_string_value ("REPLY"); + if (selection && *selection == '\0') + show_menu = 1; +#endif + } + + loop_level--; + line_number = save_line_number; + + dispose_words (releaser); + discard_unwind_frame ("select"); + return (retval); +} +#endif /* SELECT_COMMAND */ + +/* Execute a CASE command. The syntax is: CASE word_desc IN pattern_list ESAC. + The pattern_list is a linked list of pattern clauses; each clause contains + some patterns to compare word_desc against, and an associated command to + execute. */ +static int +execute_case_command (case_command) + CASE_COM *case_command; +{ + register WORD_LIST *list; + WORD_LIST *wlist, *es; + PATTERN_LIST *clauses; + char *word, *pattern; + int retval, match, ignore_return, save_line_number; + + save_line_number = line_number; + line_number = case_command->line; + + command_string_index = 0; + print_case_command_head (case_command); + + if (echo_command_at_execute) + xtrace_print_case_command_head (case_command); + +#if 0 + if (signal_in_progress (DEBUG_TRAP) == 0 && (this_command_name == 0 || (STREQ (this_command_name, "trap") == 0))) +#else + if (signal_in_progress (DEBUG_TRAP) == 0 && running_trap == 0) +#endif + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + retval = run_debug_trap(); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && retval != EXECUTION_SUCCESS) + { + line_number = save_line_number; + return (EXECUTION_SUCCESS); + } +#endif + + wlist = expand_word_unsplit (case_command->word, 0); + word = wlist ? string_list (wlist) : savestring (""); + dispose_words (wlist); + + retval = EXECUTION_SUCCESS; + ignore_return = case_command->flags & CMD_IGNORE_RETURN; + + begin_unwind_frame ("case"); + add_unwind_protect ((Function *)xfree, word); + +#define EXIT_CASE() goto exit_case_command + + for (clauses = case_command->clauses; clauses; clauses = clauses->next) + { + QUIT; + for (list = clauses->patterns; list; list = list->next) + { + es = expand_word_leave_quoted (list->word, 0); + + if (es && es->word && es->word->word && *(es->word->word)) + pattern = quote_string_for_globbing (es->word->word, QGLOB_CVTNULL); + else + { + pattern = (char *)xmalloc (1); + pattern[0] = '\0'; + } + + /* Since the pattern does not undergo quote removal (as per + Posix.2, section 3.9.4.3), the strmatch () call must be able + to recognize backslashes as escape characters. */ + match = strmatch (pattern, word, FNMATCH_EXTFLAG|FNMATCH_IGNCASE) != FNM_NOMATCH; + free (pattern); + + dispose_words (es); + + if (match) + { + do + { + if (clauses->action && ignore_return) + clauses->action->flags |= CMD_IGNORE_RETURN; + retval = execute_command (clauses->action); + } + while ((clauses->flags & CASEPAT_FALLTHROUGH) && (clauses = clauses->next)); + if (clauses == 0 || (clauses->flags & CASEPAT_TESTNEXT) == 0) + EXIT_CASE (); + else + break; + } + + QUIT; + } + } + +exit_case_command: + free (word); + discard_unwind_frame ("case"); + line_number = save_line_number; + return (retval); +} + +#define CMD_WHILE 0 +#define CMD_UNTIL 1 + +/* The WHILE command. Syntax: WHILE test DO action; DONE. + Repeatedly execute action while executing test produces + EXECUTION_SUCCESS. */ +static int +execute_while_command (while_command) + WHILE_COM *while_command; +{ + return (execute_while_or_until (while_command, CMD_WHILE)); +} + +/* UNTIL is just like WHILE except that the test result is negated. */ +static int +execute_until_command (while_command) + WHILE_COM *while_command; +{ + return (execute_while_or_until (while_command, CMD_UNTIL)); +} + +/* The body for both while and until. The only difference between the + two is that the test value is treated differently. TYPE is + CMD_WHILE or CMD_UNTIL. The return value for both commands should + be EXECUTION_SUCCESS if no commands in the body are executed, and + the status of the last command executed in the body otherwise. */ +static int +execute_while_or_until (while_command, type) + WHILE_COM *while_command; + int type; +{ + int return_value, body_status; + + body_status = EXECUTION_SUCCESS; + loop_level++; + + while_command->test->flags |= CMD_IGNORE_RETURN; + if (while_command->flags & CMD_IGNORE_RETURN) + while_command->action->flags |= CMD_IGNORE_RETURN; + + while (1) + { + return_value = execute_command (while_command->test); + REAP (); + + /* Need to handle `break' in the test when we would break out of the + loop. The job control code will set `breaking' to loop_level + when a job in a loop is stopped with SIGTSTP. If the stopped job + is in the loop test, `breaking' will not be reset unless we do + this, and the shell will cease to execute commands. */ + if (type == CMD_WHILE && return_value != EXECUTION_SUCCESS) + { + if (breaking) + breaking--; + break; + } + if (type == CMD_UNTIL && return_value == EXECUTION_SUCCESS) + { + if (breaking) + breaking--; + break; + } + + QUIT; + body_status = execute_command (while_command->action); + QUIT; + + if (breaking) + { + breaking--; + break; + } + + if (continuing) + { + continuing--; + if (continuing) + break; + } + } + loop_level--; + + return (body_status); +} + +/* IF test THEN command [ELSE command]. + IF also allows ELIF in the place of ELSE IF, but + the parser makes *that* stupidity transparent. */ +static int +execute_if_command (if_command) + IF_COM *if_command; +{ + int return_value, save_line_number; + + save_line_number = line_number; + if_command->test->flags |= CMD_IGNORE_RETURN; + return_value = execute_command (if_command->test); + line_number = save_line_number; + + if (return_value == EXECUTION_SUCCESS) + { + QUIT; + + if (if_command->true_case && (if_command->flags & CMD_IGNORE_RETURN)) + if_command->true_case->flags |= CMD_IGNORE_RETURN; + + return (execute_command (if_command->true_case)); + } + else + { + QUIT; + + if (if_command->false_case && (if_command->flags & CMD_IGNORE_RETURN)) + if_command->false_case->flags |= CMD_IGNORE_RETURN; + + return (execute_command (if_command->false_case)); + } +} + +#if defined (DPAREN_ARITHMETIC) +static int +execute_arith_command (arith_command) + ARITH_COM *arith_command; +{ + int expok, save_line_number, retval; + intmax_t expresult; + WORD_LIST *new; + char *exp; + + expresult = 0; + + save_line_number = line_number; + this_command_name = "(("; /* )) */ + line_number = arith_command->line; + /* If we're in a function, update the line number information. */ + if (variable_context && interactive_shell) + line_number -= function_line_number; + + command_string_index = 0; + print_arith_command (arith_command->exp); + + if (signal_in_progress (DEBUG_TRAP) == 0) + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + /* Run the debug trap before each arithmetic command, but do it after we + update the line number information and before we expand the various + words in the expression. */ + retval = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && retval != EXECUTION_SUCCESS) + { + line_number = save_line_number; + return (EXECUTION_SUCCESS); + } +#endif + + new = expand_words_no_vars (arith_command->exp); + + /* If we're tracing, make a new word list with `((' at the front and `))' + at the back and print it. */ + if (echo_command_at_execute) + xtrace_print_arith_cmd (new); + + if (new) + { + exp = new->next ? string_list (new) : new->word->word; + expresult = evalexp (exp, &expok); + line_number = save_line_number; + if (exp != new->word->word) + free (exp); + dispose_words (new); + } + else + { + expresult = 0; + expok = 1; + } + + if (expok == 0) + return (EXECUTION_FAILURE); + + return (expresult == 0 ? EXECUTION_FAILURE : EXECUTION_SUCCESS); +} +#endif /* DPAREN_ARITHMETIC */ + +#if defined (COND_COMMAND) + +static char * const nullstr = ""; + +/* XXX - can COND ever be NULL when this is called? */ +static int +execute_cond_node (cond) + COND_COM *cond; +{ + int result, invert, patmatch, rmatch, mflags, ignore; + char *arg1, *arg2; + + invert = (cond->flags & CMD_INVERT_RETURN); + ignore = (cond->flags & CMD_IGNORE_RETURN); + if (ignore) + { + if (cond->left) + cond->left->flags |= CMD_IGNORE_RETURN; + if (cond->right) + cond->right->flags |= CMD_IGNORE_RETURN; + } + + if (cond->type == COND_EXPR) + result = execute_cond_node (cond->left); + else if (cond->type == COND_OR) + { + result = execute_cond_node (cond->left); + if (result != EXECUTION_SUCCESS) + result = execute_cond_node (cond->right); + } + else if (cond->type == COND_AND) + { + result = execute_cond_node (cond->left); + if (result == EXECUTION_SUCCESS) + result = execute_cond_node (cond->right); + } + else if (cond->type == COND_UNARY) + { + if (ignore) + comsub_ignore_return++; + arg1 = cond_expand_word (cond->left->op, 0); + if (ignore) + comsub_ignore_return--; + if (arg1 == 0) + arg1 = nullstr; + if (echo_command_at_execute) + xtrace_print_cond_term (cond->type, invert, cond->op, arg1, (char *)NULL); + result = unary_test (cond->op->word, arg1) ? EXECUTION_SUCCESS : EXECUTION_FAILURE; + if (arg1 != nullstr) + free (arg1); + } + else if (cond->type == COND_BINARY) + { + rmatch = 0; + patmatch = (((cond->op->word[1] == '=') && (cond->op->word[2] == '\0') && + (cond->op->word[0] == '!' || cond->op->word[0] == '=')) || + (cond->op->word[0] == '=' && cond->op->word[1] == '\0')); +#if defined (COND_REGEXP) + rmatch = (cond->op->word[0] == '=' && cond->op->word[1] == '~' && + cond->op->word[2] == '\0'); +#endif + + if (ignore) + comsub_ignore_return++; + arg1 = cond_expand_word (cond->left->op, 0); + if (ignore) + comsub_ignore_return--; + if (arg1 == 0) + arg1 = nullstr; + if (ignore) + comsub_ignore_return++; + arg2 = cond_expand_word (cond->right->op, + (rmatch && shell_compatibility_level > 31) ? 2 : (patmatch ? 1 : 0)); + if (ignore) + comsub_ignore_return--; + if (arg2 == 0) + arg2 = nullstr; + + if (echo_command_at_execute) + xtrace_print_cond_term (cond->type, invert, cond->op, arg1, arg2); + +#if defined (COND_REGEXP) + if (rmatch) + { + mflags = SHMAT_PWARN; +#if defined (ARRAY_VARS) + mflags |= SHMAT_SUBEXP; +#endif + + result = sh_regmatch (arg1, arg2, mflags); + } + else +#endif /* COND_REGEXP */ + { + int oe; + oe = extended_glob; + extended_glob = 1; + result = binary_test (cond->op->word, arg1, arg2, TEST_PATMATCH|TEST_ARITHEXP|TEST_LOCALE) + ? EXECUTION_SUCCESS + : EXECUTION_FAILURE; + extended_glob = oe; + } + if (arg1 != nullstr) + free (arg1); + if (arg2 != nullstr) + free (arg2); + } + else + { + command_error ("execute_cond_node", CMDERR_BADTYPE, cond->type, 0); + jump_to_top_level (DISCARD); + result = EXECUTION_FAILURE; + } + + if (invert) + result = (result == EXECUTION_SUCCESS) ? EXECUTION_FAILURE : EXECUTION_SUCCESS; + + return result; +} + +static int +execute_cond_command (cond_command) + COND_COM *cond_command; +{ + int retval, save_line_number; + + retval = EXECUTION_SUCCESS; + save_line_number = line_number; + + this_command_name = "[["; + line_number = cond_command->line; + /* If we're in a function, update the line number information. */ + if (variable_context && interactive_shell) + line_number -= function_line_number; + command_string_index = 0; + print_cond_command (cond_command); + + if (signal_in_progress (DEBUG_TRAP) == 0) + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = savestring (the_printed_command); + } + + /* Run the debug trap before each conditional command, but do it after we + update the line number information. */ + retval = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && retval != EXECUTION_SUCCESS) + { + line_number = save_line_number; + return (EXECUTION_SUCCESS); + } +#endif + +#if 0 + debug_print_cond_command (cond_command); +#endif + + last_command_exit_value = retval = execute_cond_node (cond_command); + line_number = save_line_number; + return (retval); +} +#endif /* COND_COMMAND */ + +static void +bind_lastarg (arg) + char *arg; +{ + SHELL_VAR *var; + + if (arg == 0) + arg = ""; + var = bind_variable ("_", arg, 0); + VUNSETATTR (var, att_exported); +} + +/* Execute a null command. Fork a subshell if the command uses pipes or is + to be run asynchronously. This handles all the side effects that are + supposed to take place. */ +static int +execute_null_command (redirects, pipe_in, pipe_out, async) + REDIRECT *redirects; + int pipe_in, pipe_out, async; +{ + int r; + int forcefork; + REDIRECT *rd; + + for (forcefork = 0, rd = redirects; rd; rd = rd->next) + forcefork += rd->rflags & REDIR_VARASSIGN; + + if (forcefork || pipe_in != NO_PIPE || pipe_out != NO_PIPE || async) + { + /* We have a null command, but we really want a subshell to take + care of it. Just fork, do piping and redirections, and exit. */ + if (make_child ((char *)NULL, async) == 0) + { + /* Cancel traps, in trap.c. */ + restore_original_signals (); /* XXX */ + + do_piping (pipe_in, pipe_out); + +#if defined (COPROCESS_SUPPORT) + coproc_closeall (); +#endif + + subshell_environment = 0; + if (async) + subshell_environment |= SUBSHELL_ASYNC; + if (pipe_in != NO_PIPE || pipe_out != NO_PIPE) + subshell_environment |= SUBSHELL_PIPE; + + if (do_redirections (redirects, RX_ACTIVE) == 0) + exit (EXECUTION_SUCCESS); + else + exit (EXECUTION_FAILURE); + } + else + { + close_pipes (pipe_in, pipe_out); +#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD) + if (pipe_out == NO_PIPE) + unlink_fifo_list (); +#endif + return (EXECUTION_SUCCESS); + } + } + else + { + /* Even if there aren't any command names, pretend to do the + redirections that are specified. The user expects the side + effects to take place. If the redirections fail, then return + failure. Otherwise, if a command substitution took place while + expanding the command or a redirection, return the value of that + substitution. Otherwise, return EXECUTION_SUCCESS. */ + + r = do_redirections (redirects, RX_ACTIVE|RX_UNDOABLE); + cleanup_redirects (redirection_undo_list); + redirection_undo_list = (REDIRECT *)NULL; + + if (r != 0) + return (EXECUTION_FAILURE); + else if (last_command_subst_pid != NO_PID) + return (last_command_exit_value); + else + return (EXECUTION_SUCCESS); + } +} + +/* This is a hack to suppress word splitting for assignment statements + given as arguments to builtins with the ASSIGNMENT_BUILTIN flag set. */ +static void +fix_assignment_words (words) + WORD_LIST *words; +{ + WORD_LIST *w, *wcmd; + struct builtin *b; + int assoc, global, array; + + if (words == 0) + return; + + b = 0; + assoc = global = array = 0; + + /* Skip over assignment statements preceding a command name */ + wcmd = words; + for (wcmd = words; wcmd; wcmd = wcmd->next) + if ((wcmd->word->flags & W_ASSIGNMENT) == 0) + break; + + for (w = wcmd; w; w = w->next) + if (w->word->flags & W_ASSIGNMENT) + { + if (b == 0) + { + /* Posix (post-2008) says that `command' doesn't change whether + or not the builtin it shadows is a `declaration command', even + though it removes other special builtin properties. In Posix + mode, we skip over one or more instances of `command' and + deal with the next word as the assignment builtin. */ + while (posixly_correct && wcmd && wcmd->word && wcmd->word->word && STREQ (wcmd->word->word, "command")) + wcmd = wcmd->next; + b = builtin_address_internal (wcmd->word->word, 0); + if (b == 0 || (b->flags & ASSIGNMENT_BUILTIN) == 0) + return; + else if (b && (b->flags & ASSIGNMENT_BUILTIN)) + wcmd->word->flags |= W_ASSNBLTIN; + } + w->word->flags |= (W_NOSPLIT|W_NOGLOB|W_TILDEEXP|W_ASSIGNARG); +#if defined (ARRAY_VARS) + if (assoc) + w->word->flags |= W_ASSIGNASSOC; + if (array) + w->word->flags |= W_ASSIGNARRAY; +#endif + if (global) + w->word->flags |= W_ASSNGLOBAL; + } +#if defined (ARRAY_VARS) + /* Note that we saw an associative array option to a builtin that takes + assignment statements. This is a bit of a kludge. */ + else if (w->word->word[0] == '-' && (strchr (w->word->word+1, 'A') || strchr (w->word->word+1, 'a') || strchr (w->word->word+1, 'g'))) +#else + else if (w->word->word[0] == '-' && strchr (w->word->word+1, 'g')) +#endif + { + if (b == 0) + { + while (posixly_correct && wcmd && wcmd->word && wcmd->word->word && STREQ (wcmd->word->word, "command")) + wcmd = wcmd->next; + b = builtin_address_internal (wcmd->word->word, 0); + if (b == 0 || (b->flags & ASSIGNMENT_BUILTIN) == 0) + return; + else if (b && (b->flags & ASSIGNMENT_BUILTIN)) + wcmd->word->flags |= W_ASSNBLTIN; + } + if ((wcmd->word->flags & W_ASSNBLTIN) && strchr (w->word->word+1, 'A')) + assoc = 1; + else if ((wcmd->word->flags & W_ASSNBLTIN) && strchr (w->word->word+1, 'a')) + array = 1; + if ((wcmd->word->flags & W_ASSNBLTIN) && strchr (w->word->word+1, 'g')) + global = 1; + } +} + +/* Return 1 if the file found by searching $PATH for PATHNAME, defaulting + to PATHNAME, is a directory. Used by the autocd code below. */ +static int +is_dirname (pathname) + char *pathname; +{ + char *temp; + int ret; + + temp = search_for_command (pathname, 0); + ret = (temp ? file_isdir (temp) : file_isdir (pathname)); + free (temp); + return ret; +} + +/* The meaty part of all the executions. We have to start hacking the + real execution of commands here. Fork a process, set things up, + execute the command. */ +static int +execute_simple_command (simple_command, pipe_in, pipe_out, async, fds_to_close) + SIMPLE_COM *simple_command; + int pipe_in, pipe_out, async; + struct fd_bitmap *fds_to_close; +{ + WORD_LIST *words, *lastword; + char *command_line, *lastarg, *temp; + int first_word_quoted, result, builtin_is_special, already_forked, dofork; + pid_t old_last_async_pid; + sh_builtin_func_t *builtin; + SHELL_VAR *func; + volatile int old_builtin, old_command_builtin; + + result = EXECUTION_SUCCESS; + special_builtin_failed = builtin_is_special = 0; + command_line = (char *)0; + + QUIT; + + /* If we're in a function, update the line number information. */ + if (variable_context && interactive_shell && sourcelevel == 0) + line_number -= function_line_number; + + /* Remember what this command line looks like at invocation. */ + command_string_index = 0; + print_simple_command (simple_command); + +#if 0 + if (signal_in_progress (DEBUG_TRAP) == 0 && (this_command_name == 0 || (STREQ (this_command_name, "trap") == 0))) +#else + if (signal_in_progress (DEBUG_TRAP) == 0 && running_trap == 0) +#endif + { + FREE (the_printed_command_except_trap); + the_printed_command_except_trap = the_printed_command ? savestring (the_printed_command) : (char *)0; + } + + /* Run the debug trap before each simple command, but do it after we + update the line number information. */ + result = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode && result != EXECUTION_SUCCESS) + return (EXECUTION_SUCCESS); +#endif + + first_word_quoted = + simple_command->words ? (simple_command->words->word->flags & W_QUOTED) : 0; + + last_command_subst_pid = NO_PID; + old_last_async_pid = last_asynchronous_pid; + + already_forked = dofork = 0; + + /* If we're in a pipeline or run in the background, set DOFORK so we + make the child early, before word expansion. This keeps assignment + statements from affecting the parent shell's environment when they + should not. */ + dofork = pipe_in != NO_PIPE || pipe_out != NO_PIPE || async; + + /* Something like `%2 &' should restart job 2 in the background, not cause + the shell to fork here. */ + if (dofork && pipe_in == NO_PIPE && pipe_out == NO_PIPE && + simple_command->words && simple_command->words->word && + simple_command->words->word->word && + (simple_command->words->word->word[0] == '%')) + dofork = 0; + + if (dofork) + { + /* Do this now, because execute_disk_command will do it anyway in the + vast majority of cases. */ + maybe_make_export_env (); + + /* Don't let a DEBUG trap overwrite the command string to be saved with + the process/job associated with this child. */ + if (make_child (savestring (the_printed_command_except_trap), async) == 0) + { + already_forked = 1; + simple_command->flags |= CMD_NO_FORK; + + subshell_environment = SUBSHELL_FORK; + if (pipe_in != NO_PIPE || pipe_out != NO_PIPE) + subshell_environment |= SUBSHELL_PIPE; + if (async) + subshell_environment |= SUBSHELL_ASYNC; + + /* We need to do this before piping to handle some really + pathological cases where one of the pipe file descriptors + is < 2. */ + if (fds_to_close) + close_fd_bitmap (fds_to_close); + + do_piping (pipe_in, pipe_out); + pipe_in = pipe_out = NO_PIPE; +#if defined (COPROCESS_SUPPORT) + coproc_closeall (); +#endif + + last_asynchronous_pid = old_last_async_pid; + + CHECK_SIGTERM; + } + else + { + /* Don't let simple commands that aren't the last command in a + pipeline change $? for the rest of the pipeline (or at all). */ + if (pipe_out != NO_PIPE) + result = last_command_exit_value; + close_pipes (pipe_in, pipe_out); +#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD) + /* Close /dev/fd file descriptors in the parent after forking the + last child in a (possibly one-element) pipeline. */ + if (pipe_out == NO_PIPE) /* XXX */ + unlink_fifo_list (); /* XXX */ +#endif + command_line = (char *)NULL; /* don't free this. */ + bind_lastarg ((char *)NULL); + return (result); + } + } + + /* If we are re-running this as the result of executing the `command' + builtin, do not expand the command words a second time. */ + if ((simple_command->flags & CMD_INHIBIT_EXPANSION) == 0) + { + current_fds_to_close = fds_to_close; + fix_assignment_words (simple_command->words); + /* Pass the ignore return flag down to command substitutions */ + if (simple_command->flags & CMD_IGNORE_RETURN) /* XXX */ + comsub_ignore_return++; + words = expand_words (simple_command->words); + if (simple_command->flags & CMD_IGNORE_RETURN) + comsub_ignore_return--; + current_fds_to_close = (struct fd_bitmap *)NULL; + } + else + words = copy_word_list (simple_command->words); + + /* It is possible for WORDS not to have anything left in it. + Perhaps all the words consisted of `$foo', and there was + no variable `$foo'. */ + if (words == 0) + { + this_command_name = 0; + result = execute_null_command (simple_command->redirects, + pipe_in, pipe_out, + already_forked ? 0 : async); + if (already_forked) + exit (result); + else + { + bind_lastarg ((char *)NULL); + set_pipestatus_from_exit (result); + return (result); + } + } + + lastarg = (char *)NULL; + + begin_unwind_frame ("simple-command"); + + if (echo_command_at_execute) + xtrace_print_word_list (words, 1); + + builtin = (sh_builtin_func_t *)NULL; + func = (SHELL_VAR *)NULL; + if ((simple_command->flags & CMD_NO_FUNCTIONS) == 0) + { + /* Posix.2 says special builtins are found before functions. We + don't set builtin_is_special anywhere other than here, because + this path is followed only when the `command' builtin is *not* + being used, and we don't want to exit the shell if a special + builtin executed with `command builtin' fails. `command' is not + a special builtin. */ + if (posixly_correct) + { + builtin = find_special_builtin (words->word->word); + if (builtin) + builtin_is_special = 1; + } + if (builtin == 0) + func = find_function (words->word->word); + } + + /* In POSIX mode, assignment errors in the temporary environment cause a + non-interactive shell to exit. */ + if (builtin_is_special && interactive_shell == 0 && tempenv_assign_error) + { + last_command_exit_value = EXECUTION_FAILURE; + jump_to_top_level (ERREXIT); + } + tempenv_assign_error = 0; /* don't care about this any more */ + + add_unwind_protect (dispose_words, words); + QUIT; + + /* Bind the last word in this command to "$_" after execution. */ + for (lastword = words; lastword->next; lastword = lastword->next) + ; + lastarg = lastword->word->word; + +#if defined (JOB_CONTROL) + /* Is this command a job control related thing? */ + if (words->word->word[0] == '%' && already_forked == 0) + { + this_command_name = async ? "bg" : "fg"; + last_shell_builtin = this_shell_builtin; + this_shell_builtin = builtin_address (this_command_name); + result = (*this_shell_builtin) (words); + goto return_result; + } + + /* One other possiblilty. The user may want to resume an existing job. + If they do, find out whether this word is a candidate for a running + job. */ + if (job_control && already_forked == 0 && async == 0 && + !first_word_quoted && + !words->next && + words->word->word[0] && + !simple_command->redirects && + pipe_in == NO_PIPE && + pipe_out == NO_PIPE && + (temp = get_string_value ("auto_resume"))) + { + int job, jflags, started_status; + + jflags = JM_STOPPED|JM_FIRSTMATCH; + if (STREQ (temp, "exact")) + jflags |= JM_EXACT; + else if (STREQ (temp, "substring")) + jflags |= JM_SUBSTRING; + else + jflags |= JM_PREFIX; + job = get_job_by_name (words->word->word, jflags); + if (job != NO_JOB) + { + run_unwind_frame ("simple-command"); + this_command_name = "fg"; + last_shell_builtin = this_shell_builtin; + this_shell_builtin = builtin_address ("fg"); + + started_status = start_job (job, 1); + return ((started_status < 0) ? EXECUTION_FAILURE : started_status); + } + } +#endif /* JOB_CONTROL */ + +run_builtin: + /* Remember the name of this command globally. */ + this_command_name = words->word->word; + + QUIT; + + /* This command could be a shell builtin or a user-defined function. + We have already found special builtins by this time, so we do not + set builtin_is_special. If this is a function or builtin, and we + have pipes, then fork a subshell in here. Otherwise, just execute + the command directly. */ + if (func == 0 && builtin == 0) + builtin = find_shell_builtin (this_command_name); + + last_shell_builtin = this_shell_builtin; + this_shell_builtin = builtin; + + if (builtin || func) + { + if (builtin) + { + old_builtin = executing_builtin; + old_command_builtin = executing_command_builtin; + unwind_protect_int (executing_builtin); /* modified in execute_builtin */ + unwind_protect_int (executing_command_builtin); /* ditto */ + } + if (already_forked) + { + /* reset_terminating_signals (); */ /* XXX */ + /* Reset the signal handlers in the child, but don't free the + trap strings. Set a flag noting that we have to free the + trap strings if we run trap to change a signal disposition. */ + reset_signal_handlers (); + subshell_environment |= SUBSHELL_RESETTRAP; + + if (async) + { + if ((simple_command->flags & CMD_STDIN_REDIR) && + pipe_in == NO_PIPE && + (stdin_redirects (simple_command->redirects) == 0)) + async_redirect_stdin (); + setup_async_signals (); + } + + subshell_level++; + execute_subshell_builtin_or_function + (words, simple_command->redirects, builtin, func, + pipe_in, pipe_out, async, fds_to_close, + simple_command->flags); + subshell_level--; + } + else + { + result = execute_builtin_or_function + (words, builtin, func, simple_command->redirects, fds_to_close, + simple_command->flags); + if (builtin) + { + if (result > EX_SHERRBASE) + { + result = builtin_status (result); + if (builtin_is_special) + special_builtin_failed = 1; + } + /* In POSIX mode, if there are assignment statements preceding + a special builtin, they persist after the builtin + completes. */ + if (posixly_correct && builtin_is_special && temporary_env) + merge_temporary_env (); + } + else /* function */ + { + if (result == EX_USAGE) + result = EX_BADUSAGE; + else if (result > EX_SHERRBASE) + result = EXECUTION_FAILURE; + } + + set_pipestatus_from_exit (result); + + goto return_result; + } + } + + if (autocd && interactive && words->word && is_dirname (words->word->word)) + { + words = make_word_list (make_word ("cd"), words); + xtrace_print_word_list (words, 0); + goto run_builtin; + } + + if (command_line == 0) + command_line = savestring (the_printed_command_except_trap ? the_printed_command_except_trap : ""); + +#if defined (PROCESS_SUBSTITUTION) + if ((subshell_environment & SUBSHELL_COMSUB) && (simple_command->flags & CMD_NO_FORK) && fifos_pending() > 0) + simple_command->flags &= ~CMD_NO_FORK; +#endif + + result = execute_disk_command (words, simple_command->redirects, command_line, + pipe_in, pipe_out, async, fds_to_close, + simple_command->flags); + + return_result: + bind_lastarg (lastarg); + FREE (command_line); + dispose_words (words); + if (builtin) + { + executing_builtin = old_builtin; + executing_command_builtin = old_command_builtin; + } + discard_unwind_frame ("simple-command"); + this_command_name = (char *)NULL; /* points to freed memory now */ + return (result); +} + +/* Translate the special builtin exit statuses. We don't really need a + function for this; it's a placeholder for future work. */ +static int +builtin_status (result) + int result; +{ + int r; + + switch (result) + { + case EX_USAGE: + r = EX_BADUSAGE; + break; + case EX_REDIRFAIL: + case EX_BADSYNTAX: + case EX_BADASSIGN: + case EX_EXPFAIL: + r = EXECUTION_FAILURE; + break; + default: + r = EXECUTION_SUCCESS; + break; + } + return (r); +} + +static int +execute_builtin (builtin, words, flags, subshell) + sh_builtin_func_t *builtin; + WORD_LIST *words; + int flags, subshell; +{ + int old_e_flag, result, eval_unwind; + int isbltinenv; + char *error_trap; + + error_trap = 0; + old_e_flag = exit_immediately_on_error; + + /* The eval builtin calls parse_and_execute, which does not know about + the setting of flags, and always calls the execution functions with + flags that will exit the shell on an error if -e is set. If the + eval builtin is being called, and we're supposed to ignore the exit + value of the command, we turn the -e flag off ourselves and disable + the ERR trap, then restore them when the command completes. This is + also a problem (as below) for the command and source/. builtins. */ + if (subshell == 0 && (flags & CMD_IGNORE_RETURN) && + (builtin == eval_builtin || builtin == command_builtin || builtin == source_builtin)) + { + begin_unwind_frame ("eval_builtin"); + unwind_protect_int (exit_immediately_on_error); + unwind_protect_int (builtin_ignoring_errexit); + error_trap = TRAP_STRING (ERROR_TRAP); + if (error_trap) + { + error_trap = savestring (error_trap); + add_unwind_protect (xfree, error_trap); + add_unwind_protect (set_error_trap, error_trap); + restore_default_signal (ERROR_TRAP); + } + exit_immediately_on_error = 0; + builtin_ignoring_errexit = 1; + eval_unwind = 1; + } + else + eval_unwind = 0; + + /* The temporary environment for a builtin is supposed to apply to + all commands executed by that builtin. Currently, this is a + problem only with the `unset', `source' and `eval' builtins. + `mapfile' is a special case because it uses evalstring (same as + eval or source) to run its callbacks. */ + isbltinenv = (builtin == source_builtin || builtin == eval_builtin || builtin == unset_builtin || builtin == mapfile_builtin); + + if (isbltinenv) + { + if (subshell == 0) + begin_unwind_frame ("builtin_env"); + + if (temporary_env) + { + push_scope (VC_BLTNENV, temporary_env); + if (subshell == 0) + add_unwind_protect (pop_scope, (flags & CMD_COMMAND_BUILTIN) ? 0 : "1"); + temporary_env = (HASH_TABLE *)NULL; + } + } + + /* `return' does a longjmp() back to a saved environment in execute_function. + If a variable assignment list preceded the command, and the shell is + running in POSIX mode, we need to merge that into the shell_variables + table, since `return' is a POSIX special builtin. */ + if (posixly_correct && subshell == 0 && builtin == return_builtin && temporary_env) + { + begin_unwind_frame ("return_temp_env"); + add_unwind_protect (merge_temporary_env, (char *)NULL); + } + + executing_builtin++; + executing_command_builtin |= builtin == command_builtin; + result = ((*builtin) (words->next)); + + /* This shouldn't happen, but in case `return' comes back instead of + longjmp'ing, we need to unwind. */ + if (posixly_correct && subshell == 0 && builtin == return_builtin && temporary_env) + discard_unwind_frame ("return_temp_env"); + + if (subshell == 0 && isbltinenv) + run_unwind_frame ("builtin_env"); + + if (eval_unwind) + { + exit_immediately_on_error = errexit_flag; + builtin_ignoring_errexit = 0; + if (error_trap) + { + set_error_trap (error_trap); + xfree (error_trap); + } + discard_unwind_frame ("eval_builtin"); + } + + return (result); +} + +static int +execute_function (var, words, flags, fds_to_close, async, subshell) + SHELL_VAR *var; + WORD_LIST *words; + int flags; + struct fd_bitmap *fds_to_close; + int async, subshell; +{ + int return_val, result; + COMMAND *tc, *fc, *save_current; + char *debug_trap, *error_trap, *return_trap; +#if defined (ARRAY_VARS) + SHELL_VAR *funcname_v, *nfv, *bash_source_v, *bash_lineno_v; + ARRAY *funcname_a; + volatile ARRAY *bash_source_a; + volatile ARRAY *bash_lineno_a; +#endif + FUNCTION_DEF *shell_fn; + char *sfile, *t; + + USE_VAR(fc); + + if (funcnest_max > 0 && funcnest >= funcnest_max) + { + internal_error (_("%s: maximum function nesting level exceeded (%d)"), var->name, funcnest); + funcnest = 0; /* XXX - should we reset it somewhere else? */ + jump_to_top_level (DISCARD); + } + +#if defined (ARRAY_VARS) + GET_ARRAY_FROM_VAR ("FUNCNAME", funcname_v, funcname_a); + GET_ARRAY_FROM_VAR ("BASH_SOURCE", bash_source_v, bash_source_a); + GET_ARRAY_FROM_VAR ("BASH_LINENO", bash_lineno_v, bash_lineno_a); +#endif + + tc = (COMMAND *)copy_command (function_cell (var)); + if (tc && (flags & CMD_IGNORE_RETURN)) + tc->flags |= CMD_IGNORE_RETURN; + + if (subshell == 0) + { + begin_unwind_frame ("function_calling"); + push_context (var->name, subshell, temporary_env); + add_unwind_protect (pop_context, (char *)NULL); + unwind_protect_int (line_number); + unwind_protect_int (return_catch_flag); + unwind_protect_jmp_buf (return_catch); + add_unwind_protect (dispose_command, (char *)tc); + unwind_protect_pointer (this_shell_function); + unwind_protect_int (loop_level); + unwind_protect_int (funcnest); + } + else + push_context (var->name, subshell, temporary_env); /* don't unwind-protect for subshells */ + + temporary_env = (HASH_TABLE *)NULL; + + this_shell_function = var; + make_funcname_visible (1); + + debug_trap = TRAP_STRING(DEBUG_TRAP); + error_trap = TRAP_STRING(ERROR_TRAP); + return_trap = TRAP_STRING(RETURN_TRAP); + + /* The order of the unwind protects for debug_trap, error_trap and + return_trap is important here! unwind-protect commands are run + in reverse order of registration. If this causes problems, take + out the xfree unwind-protect calls and live with the small memory leak. */ + + /* function_trace_mode != 0 means that all functions inherit the DEBUG trap. + if the function has the trace attribute set, it inherits the DEBUG trap */ + if (debug_trap && ((trace_p (var) == 0) && function_trace_mode == 0)) + { + if (subshell == 0) + { + debug_trap = savestring (debug_trap); + add_unwind_protect (xfree, debug_trap); + add_unwind_protect (set_debug_trap, debug_trap); + } + restore_default_signal (DEBUG_TRAP); + } + + /* error_trace_mode != 0 means that functions inherit the ERR trap. */ + if (error_trap && error_trace_mode == 0) + { + if (subshell == 0) + { + error_trap = savestring (error_trap); + add_unwind_protect (xfree, error_trap); + add_unwind_protect (set_error_trap, error_trap); + } + restore_default_signal (ERROR_TRAP); + } + + /* Shell functions inherit the RETURN trap if function tracing is on + globally or on individually for this function. */ +#if 0 + if (return_trap && ((trace_p (var) == 0) && function_trace_mode == 0)) +#else + if (return_trap && (signal_in_progress (DEBUG_TRAP) || ((trace_p (var) == 0) && function_trace_mode == 0))) +#endif + { + if (subshell == 0) + { + return_trap = savestring (return_trap); + add_unwind_protect (xfree, return_trap); + add_unwind_protect (set_return_trap, return_trap); + } + restore_default_signal (RETURN_TRAP); + } + + funcnest++; +#if defined (ARRAY_VARS) + /* This is quite similar to the code in shell.c and elsewhere. */ + shell_fn = find_function_def (this_shell_function->name); + sfile = shell_fn ? shell_fn->source_file : ""; + array_push ((ARRAY *)funcname_a, this_shell_function->name); + + array_push ((ARRAY *)bash_source_a, sfile); + t = itos (executing_line_number ()); + array_push ((ARRAY *)bash_lineno_a, t); + free (t); +#endif + + /* The temporary environment for a function is supposed to apply to + all commands executed within the function body. */ + + remember_args (words->next, 1); + + /* Update BASH_ARGV and BASH_ARGC */ + if (debugging_mode) + push_args (words->next); + + /* Number of the line on which the function body starts. */ + line_number = function_line_number = tc->line; + +#if defined (JOB_CONTROL) + if (subshell) + stop_pipeline (async, (COMMAND *)NULL); +#endif + + fc = tc; + + return_catch_flag++; + return_val = setjmp_nosigs (return_catch); + + if (return_val) + { + result = return_catch_value; + /* Run the RETURN trap in the function's context. */ + save_current = currently_executing_command; + run_return_trap (); + currently_executing_command = save_current; + } + else + { + /* Run the debug trap here so we can trap at the start of a function's + execution rather than the execution of the body's first command. */ + showing_function_line = 1; + save_current = currently_executing_command; + result = run_debug_trap (); +#if defined (DEBUGGER) + /* In debugging mode, if the DEBUG trap returns a non-zero status, we + skip the command. */ + if (debugging_mode == 0 || result == EXECUTION_SUCCESS) + { + showing_function_line = 0; + currently_executing_command = save_current; + result = execute_command_internal (fc, 0, NO_PIPE, NO_PIPE, fds_to_close); + + /* Run the RETURN trap in the function's context */ + save_current = currently_executing_command; + run_return_trap (); + currently_executing_command = save_current; + } +#else + result = execute_command_internal (fc, 0, NO_PIPE, NO_PIPE, fds_to_close); + + save_current = currently_executing_command; + run_return_trap (); + currently_executing_command = save_current; +#endif + showing_function_line = 0; + } + + /* Restore BASH_ARGC and BASH_ARGV */ + if (debugging_mode) + pop_args (); + + if (subshell == 0) + run_unwind_frame ("function_calling"); + +#if defined (ARRAY_VARS) + /* These two variables cannot be unset, and cannot be affected by the + function. */ + array_pop ((ARRAY *)bash_source_a); + array_pop ((ARRAY *)bash_lineno_a); + + /* FUNCNAME can be unset, and so can potentially be changed by the + function. */ + GET_ARRAY_FROM_VAR ("FUNCNAME", nfv, funcname_a); + if (nfv == funcname_v) + array_pop (funcname_a); +#endif + + if (variable_context == 0 || this_shell_function == 0) + { + make_funcname_visible (0); +#if defined (PROCESS_SUBSTITUTION) + unlink_fifo_list (); +#endif + } + + return (result); +} + +/* A convenience routine for use by other parts of the shell to execute + a particular shell function. */ +int +execute_shell_function (var, words) + SHELL_VAR *var; + WORD_LIST *words; +{ + int ret; + struct fd_bitmap *bitmap; + + bitmap = new_fd_bitmap (FD_BITMAP_DEFAULT_SIZE); + begin_unwind_frame ("execute-shell-function"); + add_unwind_protect (dispose_fd_bitmap, (char *)bitmap); + + ret = execute_function (var, words, 0, bitmap, 0, 0); + + dispose_fd_bitmap (bitmap); + discard_unwind_frame ("execute-shell-function"); + + return ret; +} + +/* Execute a shell builtin or function in a subshell environment. This + routine does not return; it only calls exit(). If BUILTIN is non-null, + it points to a function to call to execute a shell builtin; otherwise + VAR points at the body of a function to execute. WORDS is the arguments + to the command, REDIRECTS specifies redirections to perform before the + command is executed. */ +static void +execute_subshell_builtin_or_function (words, redirects, builtin, var, + pipe_in, pipe_out, async, fds_to_close, + flags) + WORD_LIST *words; + REDIRECT *redirects; + sh_builtin_func_t *builtin; + SHELL_VAR *var; + int pipe_in, pipe_out, async; + struct fd_bitmap *fds_to_close; + int flags; +{ + int result, r, funcvalue; +#if defined (JOB_CONTROL) + int jobs_hack; + + jobs_hack = (builtin == jobs_builtin) && + ((subshell_environment & SUBSHELL_ASYNC) == 0 || pipe_out != NO_PIPE); +#endif + + /* A subshell is neither a login shell nor interactive. */ + login_shell = interactive = 0; + + if (async) + subshell_environment |= SUBSHELL_ASYNC; + if (pipe_in != NO_PIPE || pipe_out != NO_PIPE) + subshell_environment |= SUBSHELL_PIPE; + + maybe_make_export_env (); /* XXX - is this needed? */ + +#if defined (JOB_CONTROL) + /* Eradicate all traces of job control after we fork the subshell, so + all jobs begun by this subshell are in the same process group as + the shell itself. */ + + /* Allow the output of `jobs' to be piped. */ + if (jobs_hack) + kill_current_pipeline (); + else + without_job_control (); + + set_sigchld_handler (); +#endif /* JOB_CONTROL */ + + set_sigint_handler (); + + if (fds_to_close) + close_fd_bitmap (fds_to_close); + + do_piping (pipe_in, pipe_out); + + if (do_redirections (redirects, RX_ACTIVE) != 0) + exit (EXECUTION_FAILURE); + + if (builtin) + { + /* Give builtins a place to jump back to on failure, + so we don't go back up to main(). */ + result = setjmp_nosigs (top_level); + + /* Give the return builtin a place to jump to when executed in a subshell + or pipeline */ + funcvalue = 0; + if (return_catch_flag && builtin == return_builtin) + funcvalue = setjmp_nosigs (return_catch); + + if (result == EXITPROG) + exit (last_command_exit_value); + else if (result) + exit (EXECUTION_FAILURE); + else if (funcvalue) + exit (return_catch_value); + else + { + r = execute_builtin (builtin, words, flags, 1); + fflush (stdout); + if (r == EX_USAGE) + r = EX_BADUSAGE; + exit (r); + } + } + else + { + r = execute_function (var, words, flags, fds_to_close, async, 1); + fflush (stdout); + exit (r); + } +} + +/* Execute a builtin or function in the current shell context. If BUILTIN + is non-null, it is the builtin command to execute, otherwise VAR points + to the body of a function. WORDS are the command's arguments, REDIRECTS + are the redirections to perform. FDS_TO_CLOSE is the usual bitmap of + file descriptors to close. + + If BUILTIN is exec_builtin, the redirections specified in REDIRECTS are + not undone before this function returns. */ +static int +execute_builtin_or_function (words, builtin, var, redirects, + fds_to_close, flags) + WORD_LIST *words; + sh_builtin_func_t *builtin; + SHELL_VAR *var; + REDIRECT *redirects; + struct fd_bitmap *fds_to_close; + int flags; +{ + int result; + REDIRECT *saved_undo_list; +#if defined (PROCESS_SUBSTITUTION) + int ofifo, nfifo, osize; + char *ofifo_list; +#endif + + +#if defined (PROCESS_SUBSTITUTION) + ofifo = num_fifos (); + ofifo_list = copy_fifo_list (&osize); +#endif + + if (do_redirections (redirects, RX_ACTIVE|RX_UNDOABLE) != 0) + { + cleanup_redirects (redirection_undo_list); + redirection_undo_list = (REDIRECT *)NULL; + dispose_exec_redirects (); +#if defined (PROCESS_SUBSTITUTION) + free (ofifo_list); +#endif + return (EX_REDIRFAIL); /* was EXECUTION_FAILURE */ + } + + saved_undo_list = redirection_undo_list; + + /* Calling the "exec" builtin changes redirections forever. */ + if (builtin == exec_builtin) + { + dispose_redirects (saved_undo_list); + saved_undo_list = exec_redirection_undo_list; + exec_redirection_undo_list = (REDIRECT *)NULL; + } + else + dispose_exec_redirects (); + + if (saved_undo_list) + { + begin_unwind_frame ("saved redirects"); + add_unwind_protect (cleanup_redirects, (char *)saved_undo_list); + } + + redirection_undo_list = (REDIRECT *)NULL; + + if (builtin) + result = execute_builtin (builtin, words, flags, 0); + else + result = execute_function (var, words, flags, fds_to_close, 0, 0); + + /* We do this before undoing the effects of any redirections. */ + fflush (stdout); + fpurge (stdout); + if (ferror (stdout)) + clearerr (stdout); + + /* If we are executing the `command' builtin, but this_shell_builtin is + set to `exec_builtin', we know that we have something like + `command exec [redirection]', since otherwise `exec' would have + overwritten the shell and we wouldn't get here. In this case, we + want to behave as if the `command' builtin had not been specified + and preserve the redirections. */ + if (builtin == command_builtin && this_shell_builtin == exec_builtin) + { + int discard; + + discard = 0; + if (saved_undo_list) + { + dispose_redirects (saved_undo_list); + discard = 1; + } + redirection_undo_list = exec_redirection_undo_list; + saved_undo_list = exec_redirection_undo_list = (REDIRECT *)NULL; + if (discard) + discard_unwind_frame ("saved redirects"); + } + + if (saved_undo_list) + { + redirection_undo_list = saved_undo_list; + discard_unwind_frame ("saved redirects"); + } + + if (redirection_undo_list) + { + cleanup_redirects (redirection_undo_list); + redirection_undo_list = (REDIRECT *)NULL; + } + +#if defined (PROCESS_SUBSTITUTION) + /* Close any FIFOs created by this builtin or function. */ + nfifo = num_fifos (); + if (nfifo > ofifo) + close_new_fifos (ofifo_list, osize); + free (ofifo_list); +#endif + + return (result); +} + +void +setup_async_signals () +{ +#if defined (__BEOS__) + set_signal_handler (SIGHUP, SIG_IGN); /* they want csh-like behavior */ +#endif + +#if defined (JOB_CONTROL) + if (job_control == 0) +#endif + { + set_signal_handler (SIGINT, SIG_IGN); + set_signal_ignored (SIGINT); + set_signal_handler (SIGQUIT, SIG_IGN); + set_signal_ignored (SIGQUIT); + } +} + +/* Execute a simple command that is hopefully defined in a disk file + somewhere. + + 1) fork () + 2) connect pipes + 3) look up the command + 4) do redirections + 5) execve () + 6) If the execve failed, see if the file has executable mode set. + If so, and it isn't a directory, then execute its contents as + a shell script. + + Note that the filename hashing stuff has to take place up here, + in the parent. This is probably why the Bourne style shells + don't handle it, since that would require them to go through + this gnarly hair, for no good reason. + + NOTE: callers expect this to fork or exit(). */ + +/* Name of a shell function to call when a command name is not found. */ +#ifndef NOTFOUND_HOOK +# define NOTFOUND_HOOK "command_not_found_handle" +#endif + +static int +execute_disk_command (words, redirects, command_line, pipe_in, pipe_out, + async, fds_to_close, cmdflags) + WORD_LIST *words; + REDIRECT *redirects; + char *command_line; + int pipe_in, pipe_out, async; + struct fd_bitmap *fds_to_close; + int cmdflags; +{ + char *pathname, *command, **args; + int nofork, result; + pid_t pid; + SHELL_VAR *hookf; + WORD_LIST *wl; + + nofork = (cmdflags & CMD_NO_FORK); /* Don't fork, just exec, if no pipes */ + pathname = words->word->word; + + result = EXECUTION_SUCCESS; +#if defined (RESTRICTED_SHELL) + command = (char *)NULL; + if (restricted && mbschr (pathname, '/')) + { + internal_error (_("%s: restricted: cannot specify `/' in command names"), + pathname); + result = last_command_exit_value = EXECUTION_FAILURE; + + /* If we're not going to fork below, we must already be in a child + process or a context in which it's safe to call exit(2). */ + if (nofork && pipe_in == NO_PIPE && pipe_out == NO_PIPE) + exit (last_command_exit_value); + else + goto parent_return; + } +#endif /* RESTRICTED_SHELL */ + + command = search_for_command (pathname, 1); + + if (command) + { + maybe_make_export_env (); + put_command_name_into_env (command); + } + + /* We have to make the child before we check for the non-existence + of COMMAND, since we want the error messages to be redirected. */ + /* If we can get away without forking and there are no pipes to deal with, + don't bother to fork, just directly exec the command. */ + if (nofork && pipe_in == NO_PIPE && pipe_out == NO_PIPE) + pid = 0; + else + pid = make_child (savestring (command_line), async); + + if (pid == 0) + { + int old_interactive; + + reset_terminating_signals (); /* XXX */ + /* Cancel traps, in trap.c. */ + restore_original_signals (); + + CHECK_SIGTERM; + + /* restore_original_signals may have undone the work done + by make_child to ensure that SIGINT and SIGQUIT are ignored + in asynchronous children. */ + if (async) + { + if ((cmdflags & CMD_STDIN_REDIR) && + pipe_in == NO_PIPE && + (stdin_redirects (redirects) == 0)) + async_redirect_stdin (); + setup_async_signals (); + } + + /* This functionality is now provided by close-on-exec of the + file descriptors manipulated by redirection and piping. + Some file descriptors still need to be closed in all children + because of the way bash does pipes; fds_to_close is a + bitmap of all such file descriptors. */ + if (fds_to_close) + close_fd_bitmap (fds_to_close); + + do_piping (pipe_in, pipe_out); + + old_interactive = interactive; + if (async) + interactive = 0; + + subshell_environment = SUBSHELL_FORK; + + if (redirects && (do_redirections (redirects, RX_ACTIVE) != 0)) + { +#if defined (PROCESS_SUBSTITUTION) + /* Try to remove named pipes that may have been created as the + result of redirections. */ + unlink_fifo_list (); +#endif /* PROCESS_SUBSTITUTION */ + exit (EXECUTION_FAILURE); + } + + if (async) + interactive = old_interactive; + + if (command == 0) + { + hookf = find_function (NOTFOUND_HOOK); + if (hookf == 0) + { + /* Make sure filenames are displayed using printable characters */ + if (ansic_shouldquote (pathname)) + pathname = ansic_quote (pathname, 0, NULL); + internal_error (_("%s: command not found"), pathname); + exit (EX_NOTFOUND); /* Posix.2 says the exit status is 127 */ + } + +#if defined (JOB_CONTROL) + /* May need to reinitialize more of the job control state here. */ + kill_current_pipeline (); +#endif + + wl = make_word_list (make_word (NOTFOUND_HOOK), words); + exit (execute_shell_function (hookf, wl)); + } + + CHECK_SIGTERM; + + /* Execve expects the command name to be in args[0]. So we + leave it there, in the same format that the user used to + type it in. */ + args = strvec_from_word_list (words, 0, 0, (int *)NULL); + exit (shell_execve (command, args, export_env)); + } + else + { +parent_return: + QUIT; + + /* Make sure that the pipes are closed in the parent. */ + close_pipes (pipe_in, pipe_out); +#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD) + if (variable_context == 0) + unlink_fifo_list (); +#endif + FREE (command); + return (result); + } +} + +/* CPP defines to decide whether a particular index into the #! line + corresponds to a valid interpreter name or argument character, or + whitespace. The MSDOS define is to allow \r to be treated the same + as \n. */ + +#if !defined (MSDOS) +# define STRINGCHAR(ind) \ + (ind < sample_len && !whitespace (sample[ind]) && sample[ind] != '\n') +# define WHITECHAR(ind) \ + (ind < sample_len && whitespace (sample[ind])) +#else /* MSDOS */ +# define STRINGCHAR(ind) \ + (ind < sample_len && !whitespace (sample[ind]) && sample[ind] != '\n' && sample[ind] != '\r') +# define WHITECHAR(ind) \ + (ind < sample_len && whitespace (sample[ind])) +#endif /* MSDOS */ + +static char * +getinterp (sample, sample_len, endp) + char *sample; + int sample_len, *endp; +{ + register int i; + char *execname; + int start; + + /* Find the name of the interpreter to exec. */ + for (i = 2; i < sample_len && whitespace (sample[i]); i++) + ; + + for (start = i; STRINGCHAR(i); i++) + ; + + execname = substring (sample, start, i); + + if (endp) + *endp = i; + return execname; +} + +#if !defined (HAVE_HASH_BANG_EXEC) +/* If the operating system on which we're running does not handle + the #! executable format, then help out. SAMPLE is the text read + from the file, SAMPLE_LEN characters. COMMAND is the name of + the script; it and ARGS, the arguments given by the user, will + become arguments to the specified interpreter. ENV is the environment + to pass to the interpreter. + + The word immediately following the #! is the interpreter to execute. + A single argument to the interpreter is allowed. */ + +static int +execute_shell_script (sample, sample_len, command, args, env) + char *sample; + int sample_len; + char *command; + char **args, **env; +{ + char *execname, *firstarg; + int i, start, size_increment, larry; + + /* Find the name of the interpreter to exec. */ + execname = getinterp (sample, sample_len, &i); + size_increment = 1; + + /* Now the argument, if any. */ + for (firstarg = (char *)NULL, start = i; WHITECHAR(i); i++) + ; + + /* If there is more text on the line, then it is an argument for the + interpreter. */ + + if (STRINGCHAR(i)) + { + for (start = i; STRINGCHAR(i); i++) + ; + firstarg = substring ((char *)sample, start, i); + size_increment = 2; + } + + larry = strvec_len (args) + size_increment; + args = strvec_resize (args, larry + 1); + + for (i = larry - 1; i; i--) + args[i] = args[i - size_increment]; + + args[0] = execname; + if (firstarg) + { + args[1] = firstarg; + args[2] = command; + } + else + args[1] = command; + + args[larry] = (char *)NULL; + + return (shell_execve (execname, args, env)); +} +#undef STRINGCHAR +#undef WHITECHAR + +#endif /* !HAVE_HASH_BANG_EXEC */ + +static void +initialize_subshell () +{ +#if defined (ALIAS) + /* Forget about any aliases that we knew of. We are in a subshell. */ + delete_all_aliases (); +#endif /* ALIAS */ + +#if defined (HISTORY) + /* Forget about the history lines we have read. This is a non-interactive + subshell. */ + history_lines_this_session = 0; +#endif + +#if defined (JOB_CONTROL) + /* Forget about the way job control was working. We are in a subshell. */ + without_job_control (); + set_sigchld_handler (); + init_job_stats (); +#endif /* JOB_CONTROL */ + + /* Reset the values of the shell flags and options. */ + reset_shell_flags (); + reset_shell_options (); + reset_shopt_options (); + + /* Zero out builtin_env, since this could be a shell script run from a + sourced file with a temporary environment supplied to the `source/.' + builtin. Such variables are not supposed to be exported (empirical + testing with sh and ksh). Just throw it away; don't worry about a + memory leak. */ + if (vc_isbltnenv (shell_variables)) + shell_variables = shell_variables->down; + + clear_unwind_protect_list (0); + /* XXX -- are there other things we should be resetting here? */ + parse_and_execute_level = 0; /* nothing left to restore it */ + + /* We're no longer inside a shell function. */ + variable_context = return_catch_flag = funcnest = 0; + + executing_list = 0; /* XXX */ + + /* If we're not interactive, close the file descriptor from which we're + reading the current shell script. */ + if (interactive_shell == 0) + unset_bash_input (0); +} + +#if defined (HAVE_SETOSTYPE) && defined (_POSIX_SOURCE) +# define SETOSTYPE(x) __setostype(x) +#else +# define SETOSTYPE(x) +#endif + +#define READ_SAMPLE_BUF(file, buf, len) \ + do \ + { \ + fd = open(file, O_RDONLY); \ + if (fd >= 0) \ + { \ + len = read (fd, buf, 80); \ + close (fd); \ + } \ + else \ + len = -1; \ + } \ + while (0) + +/* Call execve (), handling interpreting shell scripts, and handling + exec failures. */ +int +shell_execve (command, args, env) + char *command; + char **args, **env; +{ + int larray, i, fd; + char sample[80]; + int sample_len; + + SETOSTYPE (0); /* Some systems use for USG/POSIX semantics */ + execve (command, args, env); + i = errno; /* error from execve() */ + CHECK_TERMSIG; + SETOSTYPE (1); + + /* If we get to this point, then start checking out the file. + Maybe it is something we can hack ourselves. */ + if (i != ENOEXEC) + { + if (file_isdir (command)) +#if defined (EISDIR) + internal_error (_("%s: %s"), command, strerror (EISDIR)); +#else + internal_error (_("%s: is a directory"), command); +#endif + else if (executable_file (command) == 0) + { + errno = i; + file_error (command); + } + /* errors not involving the path argument to execve. */ + else if (i == E2BIG || i == ENOMEM) + { + errno = i; + file_error (command); + } + else + { + /* The file has the execute bits set, but the kernel refuses to + run it for some reason. See why. */ +#if defined (HAVE_HASH_BANG_EXEC) + READ_SAMPLE_BUF (command, sample, sample_len); + sample[sample_len - 1] = '\0'; + if (sample_len > 2 && sample[0] == '#' && sample[1] == '!') + { + char *interp; + int ilen; + + interp = getinterp (sample, sample_len, (int *)NULL); + ilen = strlen (interp); + errno = i; + if (interp[ilen - 1] == '\r') + { + interp = xrealloc (interp, ilen + 2); + interp[ilen - 1] = '^'; + interp[ilen] = 'M'; + interp[ilen + 1] = '\0'; + } + sys_error (_("%s: %s: bad interpreter"), command, interp ? interp : ""); + FREE (interp); + return (EX_NOEXEC); + } +#endif + errno = i; + file_error (command); + } + return ((i == ENOENT) ? EX_NOTFOUND : EX_NOEXEC); /* XXX Posix.2 says that exit status is 126 */ + } + + /* This file is executable. + If it begins with #!, then help out people with losing operating + systems. Otherwise, check to see if it is a binary file by seeing + if the contents of the first line (or up to 80 characters) are in the + ASCII set. If it's a text file, execute the contents as shell commands, + otherwise return 126 (EX_BINARY_FILE). */ + READ_SAMPLE_BUF (command, sample, sample_len); + + if (sample_len == 0) + return (EXECUTION_SUCCESS); + + /* Is this supposed to be an executable script? + If so, the format of the line is "#! interpreter [argument]". + A single argument is allowed. The BSD kernel restricts + the length of the entire line to 32 characters (32 bytes + being the size of the BSD exec header), but we allow 80 + characters. */ + if (sample_len > 0) + { +#if !defined (HAVE_HASH_BANG_EXEC) + if (sample_len > 2 && sample[0] == '#' && sample[1] == '!') + return (execute_shell_script (sample, sample_len, command, args, env)); + else +#endif + if (check_binary_file (sample, sample_len)) + { + internal_error (_("%s: cannot execute binary file: %s"), command, strerror (i)); + return (EX_BINARY_FILE); + } + } + + /* We have committed to attempting to execute the contents of this file + as shell commands. */ + + initialize_subshell (); + + set_sigint_handler (); + + /* Insert the name of this shell into the argument list. */ + larray = strvec_len (args) + 1; + args = strvec_resize (args, larray + 1); + + for (i = larray - 1; i; i--) + args[i] = args[i - 1]; + + args[0] = shell_name; + args[1] = command; + args[larray] = (char *)NULL; + + if (args[0][0] == '-') + args[0]++; + +#if defined (RESTRICTED_SHELL) + if (restricted) + change_flag ('r', FLAG_OFF); +#endif + + if (subshell_argv) + { + /* Can't free subshell_argv[0]; that is shell_name. */ + for (i = 1; i < subshell_argc; i++) + free (subshell_argv[i]); + free (subshell_argv); + } + + dispose_command (currently_executing_command); /* XXX */ + currently_executing_command = (COMMAND *)NULL; + + subshell_argc = larray; + subshell_argv = args; + subshell_envp = env; + + unbind_args (); /* remove the positional parameters */ + + longjmp (subshell_top_level, 1); + /*NOTREACHED*/ +} + +static int +execute_intern_function (name, funcdef) + WORD_DESC *name; + FUNCTION_DEF *funcdef; +{ + SHELL_VAR *var; + + if (check_identifier (name, posixly_correct) == 0) + { + if (posixly_correct && interactive_shell == 0) + { + last_command_exit_value = EX_BADUSAGE; + jump_to_top_level (ERREXIT); + } + return (EXECUTION_FAILURE); + } + + /* Posix interpretation 383 */ + if (posixly_correct && find_special_builtin (name->word)) + { + internal_error (_("`%s': is a special builtin"), name->word); + last_command_exit_value = EX_BADUSAGE; + jump_to_top_level (ERREXIT); + } + + var = find_function (name->word); + if (var && (readonly_p (var) || noassign_p (var))) + { + if (readonly_p (var)) + internal_error (_("%s: readonly function"), var->name); + return (EXECUTION_FAILURE); + } + +#if defined (DEBUGGER) + bind_function_def (name->word, funcdef); +#endif + + bind_function (name->word, funcdef->command); + return (EXECUTION_SUCCESS); +} + +#if defined (INCLUDE_UNUSED) +#if defined (PROCESS_SUBSTITUTION) +void +close_all_files () +{ + register int i, fd_table_size; + + fd_table_size = getdtablesize (); + if (fd_table_size > 256) /* clamp to a reasonable value */ + fd_table_size = 256; + + for (i = 3; i < fd_table_size; i++) + close (i); +} +#endif /* PROCESS_SUBSTITUTION */ +#endif + +static void +close_pipes (in, out) + int in, out; +{ + if (in >= 0) + close (in); + if (out >= 0) + close (out); +} + +static void +dup_error (oldd, newd) + int oldd, newd; +{ + sys_error (_("cannot duplicate fd %d to fd %d"), oldd, newd); +} + +/* Redirect input and output to be from and to the specified pipes. + NO_PIPE and REDIRECT_BOTH are handled correctly. */ +static void +do_piping (pipe_in, pipe_out) + int pipe_in, pipe_out; +{ + if (pipe_in != NO_PIPE) + { + if (dup2 (pipe_in, 0) < 0) + dup_error (pipe_in, 0); + if (pipe_in > 0) + close (pipe_in); +#ifdef __CYGWIN__ + /* Let stdio know the fd may have changed from text to binary mode. */ + freopen (NULL, "r", stdin); +#endif /* __CYGWIN__ */ + } + if (pipe_out != NO_PIPE) + { + if (pipe_out != REDIRECT_BOTH) + { + if (dup2 (pipe_out, 1) < 0) + dup_error (pipe_out, 1); + if (pipe_out == 0 || pipe_out > 1) + close (pipe_out); + } + else + { + if (dup2 (1, 2) < 0) + dup_error (1, 2); + } +#ifdef __CYGWIN__ + /* Let stdio know the fd may have changed from text to binary mode, and + make sure to preserve stdout line buffering. */ + freopen (NULL, "w", stdout); + sh_setlinebuf (stdout); +#endif /* __CYGWIN__ */ + } +} diff --git a/lib/readline/histfile.c b/lib/readline/histfile.c index 6ab3a1cea..bb7431567 100644 --- a/lib/readline/histfile.c +++ b/lib/readline/histfile.c @@ -411,14 +411,16 @@ history_truncate_file (fname, lines) truncate to. */ if (bp > buffer && ((file = open (filename, O_WRONLY|O_TRUNC|O_BINARY, 0600)) != -1)) { - write (file, bp, chars_read - (bp - buffer)); + if (write (file, bp, chars_read - (bp - buffer)) < 0) + rv = errno; #if defined (__BEOS__) /* BeOS ignores O_TRUNC. */ ftruncate (file, chars_read - (bp - buffer)); #endif - close (file); + if (close (file) < 0 && rv == 0) + rv = errno; } truncate_exit: @@ -547,7 +549,8 @@ mmap_error: #endif } - close (file); + if (close (file) < 0 && rv == 0) + rv = errno; if (rv != 0 && output && bakname) rename (bakname, output); diff --git a/lib/readline/isearch.c b/lib/readline/isearch.c index dfd8ff8c9..fc56537c9 100644 --- a/lib/readline/isearch.c +++ b/lib/readline/isearch.c @@ -156,16 +156,16 @@ rl_forward_search_history (sign, key) WHERE is the history list number of the current line. If it is -1, then this line is the starting one. */ static void -rl_display_search (search_string, reverse_p, where) +rl_display_search (search_string, flags, where) char *search_string; - int reverse_p, where; + int flags, where; { char *message; int msglen, searchlen; searchlen = (search_string && *search_string) ? strlen (search_string) : 0; - message = (char *)xmalloc (searchlen + 33); + message = (char *)xmalloc (searchlen + 64); msglen = 0; #if defined (NOTDEF) @@ -178,7 +178,13 @@ rl_display_search (search_string, reverse_p, where) message[msglen++] = '('; - if (reverse_p) + if (flags & SF_FAILED) + { + strcpy (message + msglen, "failed "); + msglen += 7; + } + + if (flags & SF_REVERSE) { strcpy (message + msglen, "reverse-"); msglen += 8; @@ -517,7 +523,7 @@ add_character: cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); strcpy (cxt->search_string, last_isearch_string); cxt->search_string_index = last_isearch_string_len; - rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), -1); + rl_display_search (cxt->search_string, cxt->sflags, -1); break; } return (1); @@ -691,6 +697,7 @@ add_character: /* We cannot find the search string. Ding the bell. */ rl_ding (); cxt->history_pos = cxt->last_found_line; + rl_display_search (cxt->search_string, cxt->sflags, (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); return 1; } @@ -703,7 +710,7 @@ add_character: rl_replace_line (cxt->lines[cxt->history_pos], 0); rl_point = cxt->sline_index; cxt->last_found_line = cxt->history_pos; - rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); + rl_display_search (cxt->search_string, cxt->sflags, (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); } return 1; @@ -738,7 +745,7 @@ rl_search_history (direction, invoking_key) RL_SETSTATE(RL_STATE_ISEARCH); cxt = _rl_isearch_init (direction); - rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), -1); + rl_display_search (cxt->search_string, cxt->sflags, -1); /* If we are using the callback interface, all we do is set up here and return. The key is that we leave RL_STATE_ISEARCH set. */ diff --git a/lib/readline/isearch.c~ b/lib/readline/isearch.c~ new file mode 100644 index 000000000..6ba03cab1 --- /dev/null +++ b/lib/readline/isearch.c~ @@ -0,0 +1,789 @@ +/* isearch.c - incremental searching */ + +/* **************************************************************** */ +/* */ +/* I-Search and Searching */ +/* */ +/* **************************************************************** */ + +/* Copyright (C) 1987-2012 Free Software Foundation, Inc. + + This file is part of the GNU Readline Library (Readline), a library + for reading lines of text with interactive input and history editing. + + Readline is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Readline is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Readline. If not, see . +*/ + +#define READLINE_LIBRARY + +#if defined (HAVE_CONFIG_H) +# include +#endif + +#include + +#include + +#if defined (HAVE_UNISTD_H) +# include +#endif + +#if defined (HAVE_STDLIB_H) +# include +#else +# include "ansi_stdlib.h" +#endif + +#include "rldefs.h" +#include "rlmbutil.h" + +#include "readline.h" +#include "history.h" + +#include "rlprivate.h" +#include "xmalloc.h" + +/* Variables exported to other files in the readline library. */ +char *_rl_isearch_terminators = (char *)NULL; + +_rl_search_cxt *_rl_iscxt = 0; + +/* Variables imported from other files in the readline library. */ +extern HIST_ENTRY *_rl_saved_line_for_history; + +static int rl_search_history PARAMS((int, int)); + +static _rl_search_cxt *_rl_isearch_init PARAMS((int)); +static void _rl_isearch_fini PARAMS((_rl_search_cxt *)); +static int _rl_isearch_cleanup PARAMS((_rl_search_cxt *, int)); + +/* Last line found by the current incremental search, so we don't `find' + identical lines many times in a row. Now part of isearch context. */ +/* static char *prev_line_found; */ + +/* Last search string and its length. */ +static char *last_isearch_string; +static int last_isearch_string_len; + +static char * const default_isearch_terminators = "\033\012"; + +_rl_search_cxt * +_rl_scxt_alloc (type, flags) + int type, flags; +{ + _rl_search_cxt *cxt; + + cxt = (_rl_search_cxt *)xmalloc (sizeof (_rl_search_cxt)); + + cxt->type = type; + cxt->sflags = flags; + + cxt->search_string = 0; + cxt->search_string_size = cxt->search_string_index = 0; + + cxt->lines = 0; + cxt->allocated_line = 0; + cxt->hlen = cxt->hindex = 0; + + cxt->save_point = rl_point; + cxt->save_mark = rl_mark; + cxt->save_line = where_history (); + cxt->last_found_line = cxt->save_line; + cxt->prev_line_found = 0; + + cxt->save_undo_list = 0; + + cxt->keymap = _rl_keymap; + cxt->okeymap = _rl_keymap; + + cxt->history_pos = 0; + cxt->direction = 0; + + cxt->prevc = cxt->lastc = 0; + + cxt->sline = 0; + cxt->sline_len = cxt->sline_index = 0; + + cxt->search_terminators = 0; + + return cxt; +} + +void +_rl_scxt_dispose (cxt, flags) + _rl_search_cxt *cxt; + int flags; +{ + FREE (cxt->search_string); + FREE (cxt->allocated_line); + FREE (cxt->lines); + + xfree (cxt); +} + +/* Search backwards through the history looking for a string which is typed + interactively. Start with the current line. */ +int +rl_reverse_search_history (sign, key) + int sign, key; +{ + return (rl_search_history (-sign, key)); +} + +/* Search forwards through the history looking for a string which is typed + interactively. Start with the current line. */ +int +rl_forward_search_history (sign, key) + int sign, key; +{ + return (rl_search_history (sign, key)); +} + +/* Display the current state of the search in the echo-area. + SEARCH_STRING contains the string that is being searched for, + DIRECTION is zero for forward, or non-zero for reverse, + WHERE is the history list number of the current line. If it is + -1, then this line is the starting one. */ +static void +rl_display_search (search_string, flags, where) + char *search_string; + int flags, where; +{ + char *message; + int msglen, searchlen; + + searchlen = (search_string && *search_string) ? strlen (search_string) : 0; + + message = (char *)xmalloc (searchlen + 64); + msglen = 0; + +#if defined (NOTDEF) + if (where != -1) + { + sprintf (message, "[%d]", where + history_base); + msglen = strlen (message); + } +#endif /* NOTDEF */ + + message[msglen++] = '('; + + if (flags & SF_FAILED) + { + strcpy (message + msglen, "failed "); + msglen += 7; + } + + if (flags & SF_REVERSE) + { + strcpy (message + msglen, "reverse-"); + msglen += 8; + } + + strcpy (message + msglen, "i-search)`"); + msglen += 10; + + if (search_string) + { + strcpy (message + msglen, search_string); + msglen += searchlen; + } + + strcpy (message + msglen, "': "); + + rl_message ("%s", message); + xfree (message); + (*rl_redisplay_function) (); +} + +static _rl_search_cxt * +_rl_isearch_init (direction) + int direction; +{ + _rl_search_cxt *cxt; + register int i; + HIST_ENTRY **hlist; + + cxt = _rl_scxt_alloc (RL_SEARCH_ISEARCH, 0); + if (direction < 0) + cxt->sflags |= SF_REVERSE; + + cxt->search_terminators = _rl_isearch_terminators ? _rl_isearch_terminators + : default_isearch_terminators; + + /* Create an arrary of pointers to the lines that we want to search. */ + hlist = history_list (); + rl_maybe_replace_line (); + i = 0; + if (hlist) + for (i = 0; hlist[i]; i++); + + /* Allocate space for this many lines, +1 for the current input line, + and remember those lines. */ + cxt->lines = (char **)xmalloc ((1 + (cxt->hlen = i)) * sizeof (char *)); + for (i = 0; i < cxt->hlen; i++) + cxt->lines[i] = hlist[i]->line; + + if (_rl_saved_line_for_history) + cxt->lines[i] = _rl_saved_line_for_history->line; + else + { + /* Keep track of this so we can free it. */ + cxt->allocated_line = (char *)xmalloc (1 + strlen (rl_line_buffer)); + strcpy (cxt->allocated_line, &rl_line_buffer[0]); + cxt->lines[i] = cxt->allocated_line; + } + + cxt->hlen++; + + /* The line where we start the search. */ + cxt->history_pos = cxt->save_line; + + rl_save_prompt (); + + /* Initialize search parameters. */ + cxt->search_string = (char *)xmalloc (cxt->search_string_size = 128); + cxt->search_string[cxt->search_string_index = 0] = '\0'; + + /* Normalize DIRECTION into 1 or -1. */ + cxt->direction = (direction >= 0) ? 1 : -1; + + cxt->sline = rl_line_buffer; + cxt->sline_len = strlen (cxt->sline); + cxt->sline_index = rl_point; + + _rl_iscxt = cxt; /* save globally */ + + return cxt; +} + +static void +_rl_isearch_fini (cxt) + _rl_search_cxt *cxt; +{ + /* First put back the original state. */ + strcpy (rl_line_buffer, cxt->lines[cxt->save_line]); + + rl_restore_prompt (); + + /* Save the search string for possible later use. */ + FREE (last_isearch_string); + last_isearch_string = cxt->search_string; + last_isearch_string_len = cxt->search_string_index; + cxt->search_string = 0; + + if (cxt->last_found_line < cxt->save_line) + rl_get_previous_history (cxt->save_line - cxt->last_found_line, 0); + else + rl_get_next_history (cxt->last_found_line - cxt->save_line, 0); + + /* If the string was not found, put point at the end of the last matching + line. If last_found_line == orig_line, we didn't find any matching + history lines at all, so put point back in its original position. */ + if (cxt->sline_index < 0) + { + if (cxt->last_found_line == cxt->save_line) + cxt->sline_index = cxt->save_point; + else + cxt->sline_index = strlen (rl_line_buffer); + rl_mark = cxt->save_mark; + } + + rl_point = cxt->sline_index; + /* Don't worry about where to put the mark here; rl_get_previous_history + and rl_get_next_history take care of it. */ + + rl_clear_message (); +} + +int +_rl_search_getchar (cxt) + _rl_search_cxt *cxt; +{ + int c; + + /* Read a key and decide how to proceed. */ + RL_SETSTATE(RL_STATE_MOREINPUT); + c = cxt->lastc = rl_read_key (); + RL_UNSETSTATE(RL_STATE_MOREINPUT); + +#if defined (HANDLE_MULTIBYTE) + /* This ends up with C (and LASTC) being set to the last byte of the + multibyte character. In most cases c == lastc == mb[0] */ + if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) + c = cxt->lastc = _rl_read_mbstring (cxt->lastc, cxt->mb, MB_LEN_MAX); +#endif + + RL_CHECK_SIGNALS (); + return c; +} + +#define ENDSRCH_CHAR(c) \ + ((CTRL_CHAR (c) || META_CHAR (c) || (c) == RUBOUT) && ((c) != CTRL ('G'))) + +/* Process just-read character C according to isearch context CXT. Return + -1 if the caller should just free the context and return, 0 if we should + break out of the loop, and 1 if we should continue to read characters. */ +int +_rl_isearch_dispatch (cxt, c) + _rl_search_cxt *cxt; + int c; +{ + int n, wstart, wlen, limit, cval; + rl_command_func_t *f; + + f = (rl_command_func_t *)NULL; + + if (c < 0) + { + cxt->sflags |= SF_FAILED; + cxt->history_pos = cxt->last_found_line; + return -1; + } + + /* If we are moving into a new keymap, modify cxt->keymap and go on. + This can be a problem if c == ESC and we want to terminate the + incremental search, so we check */ + if (c >= 0 && cxt->keymap[c].type == ISKMAP && strchr (cxt->search_terminators, cxt->lastc) == 0) + { + /* _rl_keyseq_timeout specified in milliseconds; _rl_input_queued + takes microseconds, so multiply by 1000. If we don't get any + additional input and we this keymap shadows another function, process + that key as if it was all we read. */ + if (_rl_keyseq_timeout > 0 && + RL_ISSTATE (RL_STATE_CALLBACK) == 0 && + RL_ISSTATE (RL_STATE_INPUTPENDING) == 0 && + _rl_pushed_input_available () == 0 && + ((Keymap)(cxt->keymap[c].function))[ANYOTHERKEY].function && + _rl_input_queued (_rl_keyseq_timeout*1000) == 0) + goto add_character; + + cxt->okeymap = cxt->keymap; + cxt->keymap = FUNCTION_TO_KEYMAP (cxt->keymap, c); + cxt->sflags |= SF_CHGKMAP; + /* XXX - we should probably save this sequence, so we can do + something useful if this doesn't end up mapping to a command we + interpret here. Right now we just save the most recent character + that caused the index into a new keymap. */ + cxt->prevc = c; +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) + { + if (cxt->mb[1] == 0) + { + cxt->pmb[0] = c; /* XXX should be == cxt->mb[0] */ + cxt->pmb[1] = '\0'; + } + else + memcpy (cxt->pmb, cxt->mb, sizeof (cxt->pmb)); + } +#endif + return 1; + } + +add_character: + + /* Translate the keys we do something with to opcodes. */ + if (c >= 0 && cxt->keymap[c].type == ISFUNC) + { + f = cxt->keymap[c].function; + + if (f == rl_reverse_search_history) + cxt->lastc = (cxt->sflags & SF_REVERSE) ? -1 : -2; + else if (f == rl_forward_search_history) + cxt->lastc = (cxt->sflags & SF_REVERSE) ? -2 : -1; + else if (f == rl_rubout) + cxt->lastc = -3; + else if (c == CTRL ('G') || f == rl_abort) + cxt->lastc = -4; + else if (c == CTRL ('W') || f == rl_unix_word_rubout) /* XXX */ + cxt->lastc = -5; + else if (c == CTRL ('Y') || f == rl_yank) /* XXX */ + cxt->lastc = -6; + } + + /* If we changed the keymap earlier while translating a key sequence into + a command, restore it now that we've succeeded. */ + if (cxt->sflags & SF_CHGKMAP) + { + cxt->keymap = cxt->okeymap; + cxt->sflags &= ~SF_CHGKMAP; + /* If we indexed into a new keymap, but didn't map to a command that + affects the search (lastc > 0), and the character that mapped to a + new keymap would have ended the search (ENDSRCH_CHAR(cxt->prevc)), + handle that now as if the previous char would have ended the search + and we would have read the current character. */ + /* XXX - should we check cxt->mb? */ + if (cxt->lastc > 0 && ENDSRCH_CHAR (cxt->prevc)) + { + rl_stuff_char (cxt->lastc); + rl_execute_next (cxt->prevc); + /* XXX - do we insert everything in cxt->pmb? */ + return (0); + } + /* Otherwise, if the current character is mapped to self-insert or + nothing (i.e., not an editing command), and the previous character + was a keymap index, then we need to insert both the previous + character and the current character into the search string. */ + else if (cxt->lastc > 0 && cxt->prevc > 0 && + cxt->keymap[cxt->prevc].type == ISKMAP && + (f == 0 || f == rl_insert)) + { + /* Make lastc be the next character read */ + /* XXX - do we insert everything in cxt->mb? */ + rl_execute_next (cxt->lastc); + /* Dispatch on the previous character (insert into search string) */ + cxt->lastc = cxt->prevc; +#if defined (HANDLE_MULTIBYTE) + /* Have to overwrite cxt->mb here because dispatch uses it below */ + if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) + { + if (cxt->pmb[1] == 0) + { + cxt->mb[0] = cxt->lastc; /* == cxt->prevc */ + cxt->mb[1] = '\0'; + } + else + memcpy (cxt->mb, cxt->pmb, sizeof (cxt->mb)); + } +#endif + cxt->prevc = 0; + } + else if (cxt->lastc > 0 && cxt->prevc > 0 && f && f != rl_insert) + { + rl_stuff_char (cxt->lastc); + rl_execute_next (cxt->prevc); + /* XXX - do we insert everything in cxt->pmb? */ + return (0); + } + } + + /* The characters in isearch_terminators (set from the user-settable + variable isearch-terminators) are used to terminate the search but + not subsequently execute the character as a command. The default + value is "\033\012" (ESC and C-J). */ + if (cxt->lastc > 0 && strchr (cxt->search_terminators, cxt->lastc)) + { + /* ESC still terminates the search, but if there is pending + input or if input arrives within 0.1 seconds (on systems + with select(2)) it is used as a prefix character + with rl_execute_next. WATCH OUT FOR THIS! This is intended + to allow the arrow keys to be used like ^F and ^B are used + to terminate the search and execute the movement command. + XXX - since _rl_input_available depends on the application- + settable keyboard timeout value, this could alternatively + use _rl_input_queued(100000) */ + if (cxt->lastc == ESC && _rl_input_available ()) + rl_execute_next (ESC); + return (0); + } + +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) + { + if (cxt->lastc >= 0 && (cxt->mb[0] && cxt->mb[1] == '\0') && ENDSRCH_CHAR (cxt->lastc)) + { + /* This sets rl_pending_input to LASTC; it will be picked up the next + time rl_read_key is called. */ + rl_execute_next (cxt->lastc); + return (0); + } + } + else +#endif + if (cxt->lastc >= 0 && ENDSRCH_CHAR (cxt->lastc)) + { + /* This sets rl_pending_input to LASTC; it will be picked up the next + time rl_read_key is called. */ + rl_execute_next (cxt->lastc); + return (0); + } + + /* Now dispatch on the character. `Opcodes' affect the search string or + state. Other characters are added to the string. */ + switch (cxt->lastc) + { + /* search again */ + case -1: + if (cxt->search_string_index == 0) + { + if (last_isearch_string) + { + cxt->search_string_size = 64 + last_isearch_string_len; + cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); + strcpy (cxt->search_string, last_isearch_string); + cxt->search_string_index = last_isearch_string_len; + rl_display_search (cxt->search_string, cxt->sflags, -1); + break; + } + return (1); + } + else if (cxt->sflags & SF_REVERSE) + cxt->sline_index--; + else if (cxt->sline_index != cxt->sline_len) + cxt->sline_index++; + else + rl_ding (); + break; + + /* switch directions */ + case -2: + cxt->direction = -cxt->direction; + if (cxt->direction < 0) + cxt->sflags |= SF_REVERSE; + else + cxt->sflags &= ~SF_REVERSE; + break; + + /* delete character from search string. */ + case -3: /* C-H, DEL */ + /* This is tricky. To do this right, we need to keep a + stack of search positions for the current search, with + sentinels marking the beginning and end. But this will + do until we have a real isearch-undo. */ + if (cxt->search_string_index == 0) + rl_ding (); + else + cxt->search_string[--cxt->search_string_index] = '\0'; + break; + + case -4: /* C-G, abort */ + rl_replace_line (cxt->lines[cxt->save_line], 0); + rl_point = cxt->save_point; + rl_mark = cxt->save_mark; + rl_restore_prompt(); + rl_clear_message (); + + return -1; + + case -5: /* C-W */ + /* skip over portion of line we already matched and yank word */ + wstart = rl_point + cxt->search_string_index; + if (wstart >= rl_end) + { + rl_ding (); + break; + } + + /* if not in a word, move to one. */ + cval = _rl_char_value (rl_line_buffer, wstart); + if (_rl_walphabetic (cval) == 0) + { + rl_ding (); + break; + } + n = MB_NEXTCHAR (rl_line_buffer, wstart, 1, MB_FIND_NONZERO);; + while (n < rl_end) + { + cval = _rl_char_value (rl_line_buffer, n); + if (_rl_walphabetic (cval) == 0) + break; + n = MB_NEXTCHAR (rl_line_buffer, n, 1, MB_FIND_NONZERO);; + } + wlen = n - wstart + 1; + if (cxt->search_string_index + wlen + 1 >= cxt->search_string_size) + { + cxt->search_string_size += wlen + 1; + cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); + } + for (; wstart < n; wstart++) + cxt->search_string[cxt->search_string_index++] = rl_line_buffer[wstart]; + cxt->search_string[cxt->search_string_index] = '\0'; + break; + + case -6: /* C-Y */ + /* skip over portion of line we already matched and yank rest */ + wstart = rl_point + cxt->search_string_index; + if (wstart >= rl_end) + { + rl_ding (); + break; + } + n = rl_end - wstart + 1; + if (cxt->search_string_index + n + 1 >= cxt->search_string_size) + { + cxt->search_string_size += n + 1; + cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); + } + for (n = wstart; n < rl_end; n++) + cxt->search_string[cxt->search_string_index++] = rl_line_buffer[n]; + cxt->search_string[cxt->search_string_index] = '\0'; + break; + + /* Add character to search string and continue search. */ + default: + if (cxt->search_string_index + 2 >= cxt->search_string_size) + { + cxt->search_string_size += 128; + cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); + } +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) + { + int j, l; + + if (cxt->mb[0] == 0 || cxt->mb[1] == 0) + cxt->search_string[cxt->search_string_index++] = cxt->mb[0]; + else + for (j = 0, l = RL_STRLEN (cxt->mb); j < l; ) + cxt->search_string[cxt->search_string_index++] = cxt->mb[j++]; + } + else +#endif + cxt->search_string[cxt->search_string_index++] = cxt->lastc; /* XXX - was c instead of lastc */ + cxt->search_string[cxt->search_string_index] = '\0'; + break; + } + + for (cxt->sflags &= ~(SF_FOUND|SF_FAILED);; ) + { + limit = cxt->sline_len - cxt->search_string_index + 1; + + /* Search the current line. */ + while ((cxt->sflags & SF_REVERSE) ? (cxt->sline_index >= 0) : (cxt->sline_index < limit)) + { + if (STREQN (cxt->search_string, cxt->sline + cxt->sline_index, cxt->search_string_index)) + { + cxt->sflags |= SF_FOUND; + break; + } + else + cxt->sline_index += cxt->direction; + } + if (cxt->sflags & SF_FOUND) + break; + + /* Move to the next line, but skip new copies of the line + we just found and lines shorter than the string we're + searching for. */ + do + { + /* Move to the next line. */ + cxt->history_pos += cxt->direction; + + /* At limit for direction? */ + if ((cxt->sflags & SF_REVERSE) ? (cxt->history_pos < 0) : (cxt->history_pos == cxt->hlen)) + { + cxt->sflags |= SF_FAILED; + break; + } + + /* We will need these later. */ + cxt->sline = cxt->lines[cxt->history_pos]; + cxt->sline_len = strlen (cxt->sline); + } + while ((cxt->prev_line_found && STREQ (cxt->prev_line_found, cxt->lines[cxt->history_pos])) || + (cxt->search_string_index > cxt->sline_len)); + + if (cxt->sflags & SF_FAILED) + break; + + /* Now set up the line for searching... */ + cxt->sline_index = (cxt->sflags & SF_REVERSE) ? cxt->sline_len - cxt->search_string_index : 0; + } + + if (cxt->sflags & SF_FAILED) + { + /* We cannot find the search string. Ding the bell. */ + rl_ding (); + cxt->history_pos = cxt->last_found_line; +rl_display_search (cxt->search_string, cxt->sflags, (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); + return 1; + } + + /* We have found the search string. Just display it. But don't + actually move there in the history list until the user accepts + the location. */ + if (cxt->sflags & SF_FOUND) + { + cxt->prev_line_found = cxt->lines[cxt->history_pos]; + rl_replace_line (cxt->lines[cxt->history_pos], 0); + rl_point = cxt->sline_index; + cxt->last_found_line = cxt->history_pos; + rl_display_search (cxt->search_string, cxt->sflags, (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); + } + + return 1; +} + +static int +_rl_isearch_cleanup (cxt, r) + _rl_search_cxt *cxt; + int r; +{ + if (r >= 0) + _rl_isearch_fini (cxt); + _rl_scxt_dispose (cxt, 0); + _rl_iscxt = 0; + + RL_UNSETSTATE(RL_STATE_ISEARCH); + + return (r != 0); +} + +/* Search through the history looking for an interactively typed string. + This is analogous to i-search. We start the search in the current line. + DIRECTION is which direction to search; >= 0 means forward, < 0 means + backwards. */ +static int +rl_search_history (direction, invoking_key) + int direction, invoking_key; +{ + _rl_search_cxt *cxt; /* local for now, but saved globally */ + int c, r; + + RL_SETSTATE(RL_STATE_ISEARCH); + cxt = _rl_isearch_init (direction); + + rl_display_search (cxt->search_string, cxt->sflags, -1); + + /* If we are using the callback interface, all we do is set up here and + return. The key is that we leave RL_STATE_ISEARCH set. */ + if (RL_ISSTATE (RL_STATE_CALLBACK)) + return (0); + + r = -1; + for (;;) + { + c = _rl_search_getchar (cxt); + /* We might want to handle EOF here (c == 0) */ + r = _rl_isearch_dispatch (cxt, cxt->lastc); + if (r <= 0) + break; + } + + /* The searching is over. The user may have found the string that she + was looking for, or else she may have exited a failing search. If + LINE_INDEX is -1, then that shows that the string searched for was + not found. We use this to determine where to place rl_point. */ + return (_rl_isearch_cleanup (cxt, r)); +} + +#if defined (READLINE_CALLBACKS) +/* Called from the callback functions when we are ready to read a key. The + callback functions know to call this because RL_ISSTATE(RL_STATE_ISEARCH). + If _rl_isearch_dispatch finishes searching, this function is responsible + for turning off RL_STATE_ISEARCH, which it does using _rl_isearch_cleanup. */ +int +_rl_isearch_callback (cxt) + _rl_search_cxt *cxt; +{ + int c, r; + + c = _rl_search_getchar (cxt); + /* We might want to handle EOF here */ + r = _rl_isearch_dispatch (cxt, cxt->lastc); + + return (r <= 0) ? _rl_isearch_cleanup (cxt, r) : 0; +} +#endif diff --git a/lib/readline/readline.c b/lib/readline/readline.c index 45e5ada58..524d43a42 100644 --- a/lib/readline/readline.c +++ b/lib/readline/readline.c @@ -1,7 +1,7 @@ /* readline.c -- a general facility for reading lines of input with emacs style editing and completion. */ -/* Copyright (C) 1987-2012 Free Software Foundation, Inc. +/* Copyright (C) 1987-2013 Free Software Foundation, Inc. This file is part of the GNU Readline Library (Readline), a library for reading lines of text with interactive input and history editing. diff --git a/lib/readline/readline.c~ b/lib/readline/readline.c~ new file mode 100644 index 000000000..45e5ada58 --- /dev/null +++ b/lib/readline/readline.c~ @@ -0,0 +1,1348 @@ +/* readline.c -- a general facility for reading lines of input + with emacs style editing and completion. */ + +/* Copyright (C) 1987-2012 Free Software Foundation, Inc. + + This file is part of the GNU Readline Library (Readline), a library + for reading lines of text with interactive input and history editing. + + Readline is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Readline is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Readline. If not, see . +*/ + +#define READLINE_LIBRARY + +#if defined (HAVE_CONFIG_H) +# include +#endif + +#include +#include "posixstat.h" +#include +#if defined (HAVE_SYS_FILE_H) +# include +#endif /* HAVE_SYS_FILE_H */ + +#if defined (HAVE_UNISTD_H) +# include +#endif /* HAVE_UNISTD_H */ + +#if defined (HAVE_STDLIB_H) +# include +#else +# include "ansi_stdlib.h" +#endif /* HAVE_STDLIB_H */ + +#if defined (HAVE_LOCALE_H) +# include +#endif + +#include +#include "posixjmp.h" +#include + +#if !defined (errno) +extern int errno; +#endif /* !errno */ + +/* System-specific feature definitions and include files. */ +#include "rldefs.h" +#include "rlmbutil.h" + +#if defined (__EMX__) +# define INCL_DOSPROCESS +# include +#endif /* __EMX__ */ + +/* Some standard library routines. */ +#include "readline.h" +#include "history.h" + +#include "rlprivate.h" +#include "rlshell.h" +#include "xmalloc.h" + +#ifndef RL_LIBRARY_VERSION +# define RL_LIBRARY_VERSION "5.1" +#endif + +#ifndef RL_READLINE_VERSION +# define RL_READLINE_VERSION 0x0501 +#endif + +extern void _rl_free_history_entry PARAMS((HIST_ENTRY *)); + +/* Forward declarations used in this file. */ +static char *readline_internal PARAMS((void)); +static void readline_initialize_everything PARAMS((void)); + +static void bind_arrow_keys_internal PARAMS((Keymap)); +static void bind_arrow_keys PARAMS((void)); + +static void readline_default_bindings PARAMS((void)); +static void reset_default_bindings PARAMS((void)); + +static int _rl_subseq_result PARAMS((int, Keymap, int, int)); +static int _rl_subseq_getchar PARAMS((int)); + +/* **************************************************************** */ +/* */ +/* Line editing input utility */ +/* */ +/* **************************************************************** */ + +const char *rl_library_version = RL_LIBRARY_VERSION; + +int rl_readline_version = RL_READLINE_VERSION; + +/* True if this is `real' readline as opposed to some stub substitute. */ +int rl_gnu_readline_p = 1; + +/* A pointer to the keymap that is currently in use. + By default, it is the standard emacs keymap. */ +Keymap _rl_keymap = emacs_standard_keymap; + +/* The current style of editing. */ +int rl_editing_mode = emacs_mode; + +/* The current insert mode: input (the default) or overwrite */ +int rl_insert_mode = RL_IM_DEFAULT; + +/* Non-zero if we called this function from _rl_dispatch(). It's present + so functions can find out whether they were called from a key binding + or directly from an application. */ +int rl_dispatching; + +/* Non-zero if the previous command was a kill command. */ +int _rl_last_command_was_kill = 0; + +/* The current value of the numeric argument specified by the user. */ +int rl_numeric_arg = 1; + +/* Non-zero if an argument was typed. */ +int rl_explicit_arg = 0; + +/* Temporary value used while generating the argument. */ +int rl_arg_sign = 1; + +/* Non-zero means we have been called at least once before. */ +static int rl_initialized; + +#if 0 +/* If non-zero, this program is running in an EMACS buffer. */ +static int running_in_emacs; +#endif + +/* Flags word encapsulating the current readline state. */ +int rl_readline_state = RL_STATE_NONE; + +/* The current offset in the current input line. */ +int rl_point; + +/* Mark in the current input line. */ +int rl_mark; + +/* Length of the current input line. */ +int rl_end; + +/* Make this non-zero to return the current input_line. */ +int rl_done; + +/* The last function executed by readline. */ +rl_command_func_t *rl_last_func = (rl_command_func_t *)NULL; + +/* Top level environment for readline_internal (). */ +procenv_t _rl_top_level; + +/* The streams we interact with. */ +FILE *_rl_in_stream, *_rl_out_stream; + +/* The names of the streams that we do input and output to. */ +FILE *rl_instream = (FILE *)NULL; +FILE *rl_outstream = (FILE *)NULL; + +/* Non-zero means echo characters as they are read. Defaults to no echo; + set to 1 if there is a controlling terminal, we can get its attributes, + and the attributes include `echo'. Look at rltty.c:prepare_terminal_settings + for the code that sets it. */ +int _rl_echoing_p = 0; + +/* Current prompt. */ +char *rl_prompt = (char *)NULL; +int rl_visible_prompt_length = 0; + +/* Set to non-zero by calling application if it has already printed rl_prompt + and does not want readline to do it the first time. */ +int rl_already_prompted = 0; + +/* The number of characters read in order to type this complete command. */ +int rl_key_sequence_length = 0; + +/* If non-zero, then this is the address of a function to call just + before readline_internal_setup () prints the first prompt. */ +rl_hook_func_t *rl_startup_hook = (rl_hook_func_t *)NULL; + +/* If non-zero, this is the address of a function to call just before + readline_internal_setup () returns and readline_internal starts + reading input characters. */ +rl_hook_func_t *rl_pre_input_hook = (rl_hook_func_t *)NULL; + +/* What we use internally. You should always refer to RL_LINE_BUFFER. */ +static char *the_line; + +/* The character that can generate an EOF. Really read from + the terminal driver... just defaulted here. */ +int _rl_eof_char = CTRL ('D'); + +/* Non-zero makes this the next keystroke to read. */ +int rl_pending_input = 0; + +/* Pointer to a useful terminal name. */ +const char *rl_terminal_name = (const char *)NULL; + +/* Non-zero means to always use horizontal scrolling in line display. */ +int _rl_horizontal_scroll_mode = 0; + +/* Non-zero means to display an asterisk at the starts of history lines + which have been modified. */ +int _rl_mark_modified_lines = 0; + +/* The style of `bell' notification preferred. This can be set to NO_BELL, + AUDIBLE_BELL, or VISIBLE_BELL. */ +int _rl_bell_preference = AUDIBLE_BELL; + +/* String inserted into the line by rl_insert_comment (). */ +char *_rl_comment_begin; + +/* Keymap holding the function currently being executed. */ +Keymap rl_executing_keymap; + +/* Keymap we're currently using to dispatch. */ +Keymap _rl_dispatching_keymap; + +/* Non-zero means to erase entire line, including prompt, on empty input lines. */ +int rl_erase_empty_line = 0; + +/* Non-zero means to read only this many characters rather than up to a + character bound to accept-line. */ +int rl_num_chars_to_read; + +/* Line buffer and maintenence. */ +char *rl_line_buffer = (char *)NULL; +int rl_line_buffer_len = 0; + +/* Key sequence `contexts' */ +_rl_keyseq_cxt *_rl_kscxt = 0; + +int rl_executing_key; +char *rl_executing_keyseq = 0; +int _rl_executing_keyseq_size = 0; + +/* Timeout (specified in milliseconds) when reading characters making up an + ambiguous multiple-key sequence */ +int _rl_keyseq_timeout = 500; + +#define RESIZE_KEYSEQ_BUFFER() \ + do \ + { \ + if (rl_key_sequence_length + 2 >= _rl_executing_keyseq_size) \ + { \ + _rl_executing_keyseq_size += 16; \ + rl_executing_keyseq = xrealloc (rl_executing_keyseq, _rl_executing_keyseq_size); \ + } \ + } \ + while (0); + +/* Forward declarations used by the display, termcap, and history code. */ + +/* **************************************************************** */ +/* */ +/* `Forward' declarations */ +/* */ +/* **************************************************************** */ + +/* Non-zero means do not parse any lines other than comments and + parser directives. */ +unsigned char _rl_parsing_conditionalized_out = 0; + +/* Non-zero means to convert characters with the meta bit set to + escape-prefixed characters so we can indirect through + emacs_meta_keymap or vi_escape_keymap. */ +int _rl_convert_meta_chars_to_ascii = 1; + +/* Non-zero means to output characters with the meta bit set directly + rather than as a meta-prefixed escape sequence. */ +int _rl_output_meta_chars = 0; + +/* Non-zero means to look at the termios special characters and bind + them to equivalent readline functions at startup. */ +int _rl_bind_stty_chars = 1; + +/* Non-zero means to go through the history list at every newline (or + whenever rl_done is set and readline returns) and revert each line to + its initial state. */ +int _rl_revert_all_at_newline = 0; + +/* Non-zero means to honor the termios ECHOCTL bit and echo control + characters corresponding to keyboard-generated signals. */ +int _rl_echo_control_chars = 1; + +/* Non-zero means to prefix the displayed prompt with a character indicating + the editing mode: @ for emacs, : for vi-command, + for vi-insert. */ +int _rl_show_mode_in_prompt = 0; + +/* **************************************************************** */ +/* */ +/* Top Level Functions */ +/* */ +/* **************************************************************** */ + +/* Non-zero means treat 0200 bit in terminal input as Meta bit. */ +int _rl_meta_flag = 0; /* Forward declaration */ + +/* Set up the prompt and expand it. Called from readline() and + rl_callback_handler_install (). */ +int +rl_set_prompt (prompt) + const char *prompt; +{ + FREE (rl_prompt); + rl_prompt = prompt ? savestring (prompt) : (char *)NULL; + rl_display_prompt = rl_prompt ? rl_prompt : ""; + + rl_visible_prompt_length = rl_expand_prompt (rl_prompt); + return 0; +} + +/* Read a line of input. Prompt with PROMPT. An empty PROMPT means + none. A return value of NULL means that EOF was encountered. */ +char * +readline (prompt) + const char *prompt; +{ + char *value; +#if 0 + int in_callback; +#endif + + /* If we are at EOF return a NULL string. */ + if (rl_pending_input == EOF) + { + rl_clear_pending_input (); + return ((char *)NULL); + } + +#if 0 + /* If readline() is called after installing a callback handler, temporarily + turn off the callback state to avoid ensuing messiness. Patch supplied + by the gdb folks. XXX -- disabled. This can be fooled and readline + left in a strange state by a poorly-timed longjmp. */ + if (in_callback = RL_ISSTATE (RL_STATE_CALLBACK)) + RL_UNSETSTATE (RL_STATE_CALLBACK); +#endif + + rl_set_prompt (prompt); + + rl_initialize (); + if (rl_prep_term_function) + (*rl_prep_term_function) (_rl_meta_flag); + +#if defined (HANDLE_SIGNALS) + rl_set_signals (); +#endif + + value = readline_internal (); + if (rl_deprep_term_function) + (*rl_deprep_term_function) (); + +#if defined (HANDLE_SIGNALS) + rl_clear_signals (); +#endif + +#if 0 + if (in_callback) + RL_SETSTATE (RL_STATE_CALLBACK); +#endif + +#if HAVE_DECL_AUDIT_TTY && defined (ENABLE_TTY_AUDIT_SUPPORT) + if (value) + _rl_audit_tty (value); +#endif + + return (value); +} + +#if defined (READLINE_CALLBACKS) +# define STATIC_CALLBACK +#else +# define STATIC_CALLBACK static +#endif + +STATIC_CALLBACK void +readline_internal_setup () +{ + char *nprompt; + + _rl_in_stream = rl_instream; + _rl_out_stream = rl_outstream; + + /* Enable the meta key only for the duration of readline(), if this + terminal has one and the terminal has been initialized */ + if (_rl_enable_meta & RL_ISSTATE (RL_STATE_TERMPREPPED)) + _rl_enable_meta_key (); + + if (rl_startup_hook) + (*rl_startup_hook) (); + +#if defined (VI_MODE) + if (rl_editing_mode == vi_mode) + rl_vi_insertion_mode (1, 'i'); /* don't want to reset last */ +#endif /* VI_MODE */ + + /* If we're not echoing, we still want to at least print a prompt, because + rl_redisplay will not do it for us. If the calling application has a + custom redisplay function, though, let that function handle it. */ + if (_rl_echoing_p == 0 && rl_redisplay_function == rl_redisplay) + { + if (rl_prompt && rl_already_prompted == 0) + { + nprompt = _rl_strip_prompt (rl_prompt); + fprintf (_rl_out_stream, "%s", nprompt); + fflush (_rl_out_stream); + xfree (nprompt); + } + } + else + { + if (rl_prompt && rl_already_prompted) + rl_on_new_line_with_prompt (); + else + rl_on_new_line (); + (*rl_redisplay_function) (); + } + + if (rl_pre_input_hook) + (*rl_pre_input_hook) (); + + RL_CHECK_SIGNALS (); +} + +STATIC_CALLBACK char * +readline_internal_teardown (eof) + int eof; +{ + char *temp; + HIST_ENTRY *entry; + + RL_CHECK_SIGNALS (); + + /* Restore the original of this history line, iff the line that we + are editing was originally in the history, AND the line has changed. */ + entry = current_history (); + + if (entry && rl_undo_list) + { + temp = savestring (the_line); + rl_revert_line (1, 0); + entry = replace_history_entry (where_history (), the_line, (histdata_t)NULL); + _rl_free_history_entry (entry); + + strcpy (the_line, temp); + xfree (temp); + } + + if (_rl_revert_all_at_newline) + _rl_revert_all_lines (); + + /* At any rate, it is highly likely that this line has an undo list. Get + rid of it now. */ + if (rl_undo_list) + rl_free_undo_list (); + + /* Disable the meta key, if this terminal has one and we were told to use it. + The check whether or not we sent the enable string is in + _rl_disable_meta_key(); the flag is set in _rl_enable_meta_key */ + _rl_disable_meta_key (); + + /* Restore normal cursor, if available. */ + _rl_set_insert_mode (RL_IM_INSERT, 0); + + return (eof ? (char *)NULL : savestring (the_line)); +} + +void +_rl_internal_char_cleanup () +{ +#if defined (VI_MODE) + /* In vi mode, when you exit insert mode, the cursor moves back + over the previous character. We explicitly check for that here. */ + if (rl_editing_mode == vi_mode && _rl_keymap == vi_movement_keymap) + rl_vi_check (); +#endif /* VI_MODE */ + + if (rl_num_chars_to_read && rl_end >= rl_num_chars_to_read) + { + (*rl_redisplay_function) (); + _rl_want_redisplay = 0; + rl_newline (1, '\n'); + } + + if (rl_done == 0) + { + (*rl_redisplay_function) (); + _rl_want_redisplay = 0; + } + + /* If the application writer has told us to erase the entire line if + the only character typed was something bound to rl_newline, do so. */ + if (rl_erase_empty_line && rl_done && rl_last_func == rl_newline && + rl_point == 0 && rl_end == 0) + _rl_erase_entire_line (); +} + +STATIC_CALLBACK int +#if defined (READLINE_CALLBACKS) +readline_internal_char () +#else +readline_internal_charloop () +#endif +{ + static int lastc, eof_found; + int c, code, lk; + + lastc = -1; + eof_found = 0; + +#if !defined (READLINE_CALLBACKS) + while (rl_done == 0) + { +#endif + lk = _rl_last_command_was_kill; + +#if defined (HAVE_POSIX_SIGSETJMP) + code = sigsetjmp (_rl_top_level, 0); +#else + code = setjmp (_rl_top_level); +#endif + + if (code) + { + (*rl_redisplay_function) (); + _rl_want_redisplay = 0; + /* If we get here, we're not being called from something dispatched + from _rl_callback_read_char(), which sets up its own value of + _rl_top_level (saving and restoring the old, of course), so + we can just return here. */ + if (RL_ISSTATE (RL_STATE_CALLBACK)) + return (0); + } + + if (rl_pending_input == 0) + { + /* Then initialize the argument and number of keys read. */ + _rl_reset_argument (); + rl_key_sequence_length = 0; + rl_executing_keyseq[0] = 0; + } + + RL_SETSTATE(RL_STATE_READCMD); + c = rl_read_key (); + RL_UNSETSTATE(RL_STATE_READCMD); + + /* look at input.c:rl_getc() for the circumstances under which this will + be returned; punt immediately on read error without converting it to + a newline; assume that rl_read_key has already called the signal + handler. */ + if (c == READERR) + { +#if defined (READLINE_CALLBACKS) + RL_SETSTATE(RL_STATE_DONE); + return (rl_done = 1); +#else + eof_found = 1; + break; +#endif + } + + /* EOF typed to a non-blank line is a . If we want to change this, + to force any existing line to be ignored when read(2) reads EOF, + for example, this is the place to change. */ + if (c == EOF && rl_end) + c = NEWLINE; + + /* The character _rl_eof_char typed to blank line, and not as the + previous character is interpreted as EOF. */ + if (((c == _rl_eof_char && lastc != c) || c == EOF) && !rl_end) + { +#if defined (READLINE_CALLBACKS) + RL_SETSTATE(RL_STATE_DONE); + return (rl_done = 1); +#else + eof_found = 1; + break; +#endif + } + + lastc = c; + _rl_dispatch ((unsigned char)c, _rl_keymap); + RL_CHECK_SIGNALS (); + + /* If there was no change in _rl_last_command_was_kill, then no kill + has taken place. Note that if input is pending we are reading + a prefix command, so nothing has changed yet. */ + if (rl_pending_input == 0 && lk == _rl_last_command_was_kill) + _rl_last_command_was_kill = 0; + + _rl_internal_char_cleanup (); + +#if defined (READLINE_CALLBACKS) + return 0; +#else + } + + return (eof_found); +#endif +} + +#if defined (READLINE_CALLBACKS) +static int +readline_internal_charloop () +{ + int eof = 1; + + while (rl_done == 0) + eof = readline_internal_char (); + return (eof); +} +#endif /* READLINE_CALLBACKS */ + +/* Read a line of input from the global rl_instream, doing output on + the global rl_outstream. + If rl_prompt is non-null, then that is our prompt. */ +static char * +readline_internal () +{ + int eof; + + readline_internal_setup (); + eof = readline_internal_charloop (); + return (readline_internal_teardown (eof)); +} + +void +_rl_init_line_state () +{ + rl_point = rl_end = rl_mark = 0; + the_line = rl_line_buffer; + the_line[0] = 0; +} + +void +_rl_set_the_line () +{ + the_line = rl_line_buffer; +} + +#if defined (READLINE_CALLBACKS) +_rl_keyseq_cxt * +_rl_keyseq_cxt_alloc () +{ + _rl_keyseq_cxt *cxt; + + cxt = (_rl_keyseq_cxt *)xmalloc (sizeof (_rl_keyseq_cxt)); + + cxt->flags = cxt->subseq_arg = cxt->subseq_retval = 0; + + cxt->okey = 0; + cxt->ocxt = _rl_kscxt; + cxt->childval = 42; /* sentinel value */ + + return cxt; +} + +void +_rl_keyseq_cxt_dispose (cxt) + _rl_keyseq_cxt *cxt; +{ + xfree (cxt); +} + +void +_rl_keyseq_chain_dispose () +{ + _rl_keyseq_cxt *cxt; + + while (_rl_kscxt) + { + cxt = _rl_kscxt; + _rl_kscxt = _rl_kscxt->ocxt; + _rl_keyseq_cxt_dispose (cxt); + } +} +#endif + +static int +_rl_subseq_getchar (key) + int key; +{ + int k; + + if (key == ESC) + RL_SETSTATE(RL_STATE_METANEXT); + RL_SETSTATE(RL_STATE_MOREINPUT); + k = rl_read_key (); + RL_UNSETSTATE(RL_STATE_MOREINPUT); + if (key == ESC) + RL_UNSETSTATE(RL_STATE_METANEXT); + + return k; +} + +#if defined (READLINE_CALLBACKS) +int +_rl_dispatch_callback (cxt) + _rl_keyseq_cxt *cxt; +{ + int nkey, r; + + /* For now */ + /* The first time this context is used, we want to read input and dispatch + on it. When traversing the chain of contexts back `up', we want to use + the value from the next context down. We're simulating recursion using + a chain of contexts. */ + if ((cxt->flags & KSEQ_DISPATCHED) == 0) + { + nkey = _rl_subseq_getchar (cxt->okey); + if (nkey < 0) + { + _rl_abort_internal (); + return -1; + } + r = _rl_dispatch_subseq (nkey, cxt->dmap, cxt->subseq_arg); + cxt->flags |= KSEQ_DISPATCHED; + } + else + r = cxt->childval; + + /* For now */ + if (r != -3) /* don't do this if we indicate there will be other matches */ + r = _rl_subseq_result (r, cxt->oldmap, cxt->okey, (cxt->flags & KSEQ_SUBSEQ)); + + RL_CHECK_SIGNALS (); + if (r == 0) /* success! */ + { + _rl_keyseq_chain_dispose (); + RL_UNSETSTATE (RL_STATE_MULTIKEY); + return r; + } + + if (r != -3) /* magic value that says we added to the chain */ + _rl_kscxt = cxt->ocxt; + if (_rl_kscxt) + _rl_kscxt->childval = r; + if (r != -3) + _rl_keyseq_cxt_dispose (cxt); + + return r; +} +#endif /* READLINE_CALLBACKS */ + +/* Do the command associated with KEY in MAP. + If the associated command is really a keymap, then read + another key, and dispatch into that map. */ +int +_rl_dispatch (key, map) + register int key; + Keymap map; +{ + _rl_dispatching_keymap = map; + return _rl_dispatch_subseq (key, map, 0); +} + +int +_rl_dispatch_subseq (key, map, got_subseq) + register int key; + Keymap map; + int got_subseq; +{ + int r, newkey; + char *macro; + rl_command_func_t *func; +#if defined (READLINE_CALLBACKS) + _rl_keyseq_cxt *cxt; +#endif + + if (META_CHAR (key) && _rl_convert_meta_chars_to_ascii) + { + if (map[ESC].type == ISKMAP) + { + if (RL_ISSTATE (RL_STATE_MACRODEF)) + _rl_add_macro_char (ESC); + RESIZE_KEYSEQ_BUFFER (); + rl_executing_keyseq[rl_key_sequence_length++] = ESC; + map = FUNCTION_TO_KEYMAP (map, ESC); + key = UNMETA (key); + return (_rl_dispatch (key, map)); + } + else + rl_ding (); + return 0; + } + + if (RL_ISSTATE (RL_STATE_MACRODEF)) + _rl_add_macro_char (key); + + r = 0; + switch (map[key].type) + { + case ISFUNC: + func = map[key].function; + if (func) + { + /* Special case rl_do_lowercase_version (). */ + if (func == rl_do_lowercase_version) + /* Should we do anything special if key == ANYOTHERKEY? */ + return (_rl_dispatch (_rl_to_lower (key), map)); + + rl_executing_keymap = map; + rl_executing_key = key; + + RESIZE_KEYSEQ_BUFFER(); + rl_executing_keyseq[rl_key_sequence_length++] = key; + rl_executing_keyseq[rl_key_sequence_length] = '\0'; + + rl_dispatching = 1; + RL_SETSTATE(RL_STATE_DISPATCHING); + r = (*func) (rl_numeric_arg * rl_arg_sign, key); + RL_UNSETSTATE(RL_STATE_DISPATCHING); + rl_dispatching = 0; + + /* If we have input pending, then the last command was a prefix + command. Don't change the state of rl_last_func. Otherwise, + remember the last command executed in this variable. */ + if (rl_pending_input == 0 && map[key].function != rl_digit_argument) + rl_last_func = map[key].function; + + RL_CHECK_SIGNALS (); + } + else if (map[ANYOTHERKEY].function) + { + /* OK, there's no function bound in this map, but there is a + shadow function that was overridden when the current keymap + was created. Return -2 to note that. */ + if (RL_ISSTATE (RL_STATE_MACROINPUT)) + _rl_prev_macro_key (); + else + _rl_unget_char (key); + return -2; + } + else if (got_subseq) + { + /* Return -1 to note that we're in a subsequence, but we don't + have a matching key, nor was one overridden. This means + we need to back up the recursion chain and find the last + subsequence that is bound to a function. */ + if (RL_ISSTATE (RL_STATE_MACROINPUT)) + _rl_prev_macro_key (); + else + _rl_unget_char (key); + return -1; + } + else + { +#if defined (READLINE_CALLBACKS) + RL_UNSETSTATE (RL_STATE_MULTIKEY); + _rl_keyseq_chain_dispose (); +#endif + _rl_abort_internal (); + return -1; + } + break; + + case ISKMAP: + if (map[key].function != 0) + { +#if defined (VI_MODE) + /* The only way this test will be true is if a subsequence has been + bound starting with ESC, generally the arrow keys. What we do is + check whether there's input in the queue, which there generally + will be if an arrow key has been pressed, and, if there's not, + just dispatch to (what we assume is) rl_vi_movement_mode right + away. This is essentially an input test with a zero timeout (by + default) or a timeout determined by the value of `keyseq-timeout' */ + /* _rl_keyseq_timeout specified in milliseconds; _rl_input_queued + takes microseconds, so multiply by 1000 */ + if (rl_editing_mode == vi_mode && key == ESC && map == vi_insertion_keymap + && _rl_input_queued ((_rl_keyseq_timeout > 0) ? _rl_keyseq_timeout*1000 : 0) == 0) + return (_rl_dispatch (ANYOTHERKEY, FUNCTION_TO_KEYMAP (map, key))); +#endif + + RESIZE_KEYSEQ_BUFFER (); + rl_executing_keyseq[rl_key_sequence_length++] = key; + _rl_dispatching_keymap = FUNCTION_TO_KEYMAP (map, key); + + /* Allocate new context here. Use linked contexts (linked through + cxt->ocxt) to simulate recursion */ +#if defined (READLINE_CALLBACKS) + if (RL_ISSTATE (RL_STATE_CALLBACK)) + { + /* Return 0 only the first time, to indicate success to + _rl_callback_read_char. The rest of the time, we're called + from _rl_dispatch_callback, so we return -3 to indicate + special handling is necessary. */ + r = RL_ISSTATE (RL_STATE_MULTIKEY) ? -3 : 0; + cxt = _rl_keyseq_cxt_alloc (); + + if (got_subseq) + cxt->flags |= KSEQ_SUBSEQ; + cxt->okey = key; + cxt->oldmap = map; + cxt->dmap = _rl_dispatching_keymap; + cxt->subseq_arg = got_subseq || cxt->dmap[ANYOTHERKEY].function; + + RL_SETSTATE (RL_STATE_MULTIKEY); + _rl_kscxt = cxt; + + return r; /* don't indicate immediate success */ + } +#endif + + /* Tentative inter-character timeout for potential multi-key + sequences? If no input within timeout, abort sequence and + act as if we got non-matching input. */ + /* _rl_keyseq_timeout specified in milliseconds; _rl_input_queued + takes microseconds, so multiply by 1000 */ + if (_rl_keyseq_timeout > 0 && + (RL_ISSTATE (RL_STATE_INPUTPENDING|RL_STATE_MACROINPUT) == 0) && + _rl_pushed_input_available () == 0 && + _rl_dispatching_keymap[ANYOTHERKEY].function && + _rl_input_queued (_rl_keyseq_timeout*1000) == 0) + return (_rl_subseq_result (-2, map, key, got_subseq)); + + newkey = _rl_subseq_getchar (key); + if (newkey < 0) + { + _rl_abort_internal (); + return -1; + } + + r = _rl_dispatch_subseq (newkey, _rl_dispatching_keymap, got_subseq || map[ANYOTHERKEY].function); + return _rl_subseq_result (r, map, key, got_subseq); + } + else + { + _rl_abort_internal (); + return -1; + } + break; + + case ISMACR: + if (map[key].function != 0) + { + rl_executing_keyseq[rl_key_sequence_length] = '\0'; + macro = savestring ((char *)map[key].function); + _rl_with_macro_input (macro); + return 0; + } + break; + } +#if defined (VI_MODE) + if (rl_editing_mode == vi_mode && _rl_keymap == vi_movement_keymap && + key != ANYOTHERKEY && + rl_key_sequence_length == 1 && /* XXX */ + _rl_vi_textmod_command (key)) + _rl_vi_set_last (key, rl_numeric_arg, rl_arg_sign); +#endif + + return (r); +} + +static int +_rl_subseq_result (r, map, key, got_subseq) + int r; + Keymap map; + int key, got_subseq; +{ + Keymap m; + int type, nt; + rl_command_func_t *func, *nf; + + if (r == -2) + /* We didn't match anything, and the keymap we're indexed into + shadowed a function previously bound to that prefix. Call + the function. The recursive call to _rl_dispatch_subseq has + already taken care of pushing any necessary input back onto + the input queue with _rl_unget_char. */ + { + m = _rl_dispatching_keymap; + type = m[ANYOTHERKEY].type; + func = m[ANYOTHERKEY].function; + if (type == ISFUNC && func == rl_do_lowercase_version) + r = _rl_dispatch (_rl_to_lower (key), map); + else if (type == ISFUNC && func == rl_insert) + { + /* If the function that was shadowed was self-insert, we + somehow need a keymap with map[key].func == self-insert. + Let's use this one. */ + nt = m[key].type; + nf = m[key].function; + + m[key].type = type; + m[key].function = func; + r = _rl_dispatch (key, m); + m[key].type = nt; + m[key].function = nf; + } + else + r = _rl_dispatch (ANYOTHERKEY, m); + } + else if (r && map[ANYOTHERKEY].function) + { + /* We didn't match (r is probably -1), so return something to + tell the caller that it should try ANYOTHERKEY for an + overridden function. */ + if (RL_ISSTATE (RL_STATE_MACROINPUT)) + _rl_prev_macro_key (); + else + _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -2; + } + else if (r && got_subseq) + { + /* OK, back up the chain. */ + if (RL_ISSTATE (RL_STATE_MACROINPUT)) + _rl_prev_macro_key (); + else + _rl_unget_char (key); + _rl_dispatching_keymap = map; + return -1; + } + + return r; +} + +/* **************************************************************** */ +/* */ +/* Initializations */ +/* */ +/* **************************************************************** */ + +/* Initialize readline (and terminal if not already). */ +int +rl_initialize () +{ + /* If we have never been called before, initialize the + terminal and data structures. */ + if (!rl_initialized) + { + RL_SETSTATE(RL_STATE_INITIALIZING); + readline_initialize_everything (); + RL_UNSETSTATE(RL_STATE_INITIALIZING); + rl_initialized++; + RL_SETSTATE(RL_STATE_INITIALIZED); + } + + /* Initalize the current line information. */ + _rl_init_line_state (); + + /* We aren't done yet. We haven't even gotten started yet! */ + rl_done = 0; + RL_UNSETSTATE(RL_STATE_DONE); + + /* Tell the history routines what is going on. */ + _rl_start_using_history (); + + /* Make the display buffer match the state of the line. */ + rl_reset_line_state (); + + /* No such function typed yet. */ + rl_last_func = (rl_command_func_t *)NULL; + + /* Parsing of key-bindings begins in an enabled state. */ + _rl_parsing_conditionalized_out = 0; + +#if defined (VI_MODE) + if (rl_editing_mode == vi_mode) + _rl_vi_initialize_line (); +#endif + + /* Each line starts in insert mode (the default). */ + _rl_set_insert_mode (RL_IM_DEFAULT, 1); + + return 0; +} + +#if 0 +#if defined (__EMX__) +static void +_emx_build_environ () +{ + TIB *tibp; + PIB *pibp; + char *t, **tp; + int c; + + DosGetInfoBlocks (&tibp, &pibp); + t = pibp->pib_pchenv; + for (c = 1; *t; c++) + t += strlen (t) + 1; + tp = environ = (char **)xmalloc ((c + 1) * sizeof (char *)); + t = pibp->pib_pchenv; + while (*t) + { + *tp++ = t; + t += strlen (t) + 1; + } + *tp = 0; +} +#endif /* __EMX__ */ +#endif + +/* Initialize the entire state of the world. */ +static void +readline_initialize_everything () +{ +#if 0 +#if defined (__EMX__) + if (environ == 0) + _emx_build_environ (); +#endif +#endif + +#if 0 + /* Find out if we are running in Emacs -- UNUSED. */ + running_in_emacs = sh_get_env_value ("EMACS") != (char *)0; +#endif + + /* Set up input and output if they are not already set up. */ + if (!rl_instream) + rl_instream = stdin; + + if (!rl_outstream) + rl_outstream = stdout; + + /* Bind _rl_in_stream and _rl_out_stream immediately. These values + may change, but they may also be used before readline_internal () + is called. */ + _rl_in_stream = rl_instream; + _rl_out_stream = rl_outstream; + + /* Allocate data structures. */ + if (rl_line_buffer == 0) + rl_line_buffer = (char *)xmalloc (rl_line_buffer_len = DEFAULT_BUFFER_SIZE); + + /* Initialize the terminal interface. */ + if (rl_terminal_name == 0) + rl_terminal_name = sh_get_env_value ("TERM"); + _rl_init_terminal_io (rl_terminal_name); + + /* Bind tty characters to readline functions. */ + readline_default_bindings (); + + /* Initialize the function names. */ + rl_initialize_funmap (); + + /* Decide whether we should automatically go into eight-bit mode. */ + _rl_init_eightbit (); + + /* Read in the init file. */ + rl_read_init_file ((char *)NULL); + + /* XXX */ + if (_rl_horizontal_scroll_mode && _rl_term_autowrap) + { + _rl_screenwidth--; + _rl_screenchars -= _rl_screenheight; + } + + /* Override the effect of any `set keymap' assignments in the + inputrc file. */ + rl_set_keymap_from_edit_mode (); + + /* Try to bind a common arrow key prefix, if not already bound. */ + bind_arrow_keys (); + + /* If the completion parser's default word break characters haven't + been set yet, then do so now. */ + if (rl_completer_word_break_characters == (char *)NULL) + rl_completer_word_break_characters = (char *)rl_basic_word_break_characters; + +#if defined (COLOR_SUPPORT) + if (_rl_colored_stats) + _rl_parse_colors (); +#endif + + rl_executing_keyseq = malloc (_rl_executing_keyseq_size = 16); + if (rl_executing_keyseq) + rl_executing_keyseq[0] = '\0'; +} + +/* If this system allows us to look at the values of the regular + input editing characters, then bind them to their readline + equivalents, iff the characters are not bound to keymaps. */ +static void +readline_default_bindings () +{ + if (_rl_bind_stty_chars) + rl_tty_set_default_bindings (_rl_keymap); +} + +/* Reset the default bindings for the terminal special characters we're + interested in back to rl_insert and read the new ones. */ +static void +reset_default_bindings () +{ + if (_rl_bind_stty_chars) + { + rl_tty_unset_default_bindings (_rl_keymap); + rl_tty_set_default_bindings (_rl_keymap); + } +} + +/* Bind some common arrow key sequences in MAP. */ +static void +bind_arrow_keys_internal (map) + Keymap map; +{ + Keymap xkeymap; + + xkeymap = _rl_keymap; + _rl_keymap = map; + +#if defined (__MSDOS__) + rl_bind_keyseq_if_unbound ("\033[0A", rl_get_previous_history); + rl_bind_keyseq_if_unbound ("\033[0B", rl_backward_char); + rl_bind_keyseq_if_unbound ("\033[0C", rl_forward_char); + rl_bind_keyseq_if_unbound ("\033[0D", rl_get_next_history); +#endif + + rl_bind_keyseq_if_unbound ("\033[A", rl_get_previous_history); + rl_bind_keyseq_if_unbound ("\033[B", rl_get_next_history); + rl_bind_keyseq_if_unbound ("\033[C", rl_forward_char); + rl_bind_keyseq_if_unbound ("\033[D", rl_backward_char); + rl_bind_keyseq_if_unbound ("\033[H", rl_beg_of_line); + rl_bind_keyseq_if_unbound ("\033[F", rl_end_of_line); + + rl_bind_keyseq_if_unbound ("\033OA", rl_get_previous_history); + rl_bind_keyseq_if_unbound ("\033OB", rl_get_next_history); + rl_bind_keyseq_if_unbound ("\033OC", rl_forward_char); + rl_bind_keyseq_if_unbound ("\033OD", rl_backward_char); + rl_bind_keyseq_if_unbound ("\033OH", rl_beg_of_line); + rl_bind_keyseq_if_unbound ("\033OF", rl_end_of_line); + +#if defined (__MINGW32__) + rl_bind_keyseq_if_unbound ("\340H", rl_get_previous_history); + rl_bind_keyseq_if_unbound ("\340P", rl_get_next_history); + rl_bind_keyseq_if_unbound ("\340M", rl_forward_char); + rl_bind_keyseq_if_unbound ("\340K", rl_backward_char); + rl_bind_keyseq_if_unbound ("\340G", rl_beg_of_line); + rl_bind_keyseq_if_unbound ("\340O", rl_end_of_line); + rl_bind_keyseq_if_unbound ("\340S", rl_delete); + rl_bind_keyseq_if_unbound ("\340R", rl_overwrite_mode); +#endif + + _rl_keymap = xkeymap; +} + +/* Try and bind the common arrow key prefixes after giving termcap and + the inputrc file a chance to bind them and create `real' keymaps + for the arrow key prefix. */ +static void +bind_arrow_keys () +{ + bind_arrow_keys_internal (emacs_standard_keymap); + +#if defined (VI_MODE) + bind_arrow_keys_internal (vi_movement_keymap); + /* Unbind vi_movement_keymap[ESC] to allow users to repeatedly hit ESC + in vi command mode while still allowing the arrow keys to work. */ + if (vi_movement_keymap[ESC].type == ISKMAP) + rl_bind_keyseq_in_map ("\033", (rl_command_func_t *)NULL, vi_movement_keymap); + bind_arrow_keys_internal (vi_insertion_keymap); +#endif +} + +/* **************************************************************** */ +/* */ +/* Saving and Restoring Readline's state */ +/* */ +/* **************************************************************** */ + +int +rl_save_state (sp) + struct readline_state *sp; +{ + if (sp == 0) + return -1; + + sp->point = rl_point; + sp->end = rl_end; + sp->mark = rl_mark; + sp->buffer = rl_line_buffer; + sp->buflen = rl_line_buffer_len; + sp->ul = rl_undo_list; + sp->prompt = rl_prompt; + + sp->rlstate = rl_readline_state; + sp->done = rl_done; + sp->kmap = _rl_keymap; + + sp->lastfunc = rl_last_func; + sp->insmode = rl_insert_mode; + sp->edmode = rl_editing_mode; + sp->kseqlen = rl_key_sequence_length; + sp->inf = rl_instream; + sp->outf = rl_outstream; + sp->pendingin = rl_pending_input; + sp->macro = rl_executing_macro; + + sp->catchsigs = rl_catch_signals; + sp->catchsigwinch = rl_catch_sigwinch; + + return (0); +} + +int +rl_restore_state (sp) + struct readline_state *sp; +{ + if (sp == 0) + return -1; + + rl_point = sp->point; + rl_end = sp->end; + rl_mark = sp->mark; + the_line = rl_line_buffer = sp->buffer; + rl_line_buffer_len = sp->buflen; + rl_undo_list = sp->ul; + rl_prompt = sp->prompt; + + rl_readline_state = sp->rlstate; + rl_done = sp->done; + _rl_keymap = sp->kmap; + + rl_last_func = sp->lastfunc; + rl_insert_mode = sp->insmode; + rl_editing_mode = sp->edmode; + rl_key_sequence_length = sp->kseqlen; + rl_instream = sp->inf; + rl_outstream = sp->outf; + rl_pending_input = sp->pendingin; + rl_executing_macro = sp->macro; + + rl_catch_signals = sp->catchsigs; + rl_catch_sigwinch = sp->catchsigwinch; + + return (0); +} diff --git a/subst.c b/subst.c index 989479221..250c1eb1b 100644 --- a/subst.c +++ b/subst.c @@ -380,6 +380,11 @@ dump_word_flags (flags) f &= ~W_ASSNGLOBAL; fprintf (stderr, "W_ASSNGLOBAL%s", f ? "|" : ""); } + if (f & W_ASSIGNINT) + { + f &= ~W_ASSIGNINT; + fprintf (stderr, "W_ASSIGNINT%s", f ? "|" : ""); + } if (f & W_COMPASSIGN) { f &= ~W_COMPASSIGN; @@ -9430,17 +9435,38 @@ shell_expand_word_list (tlist, eflags) if ((tlist->word->flags & (W_COMPASSIGN|W_ASSIGNARG)) == (W_COMPASSIGN|W_ASSIGNARG)) { int t; + char opts[8], opti; + + opti = 0; + if (tlist->word->flags & (W_ASSIGNASSOC|W_ASSNGLOBAL|W_ASSIGNARRAY)) + opts[opti++] = '-'; if ((tlist->word->flags & (W_ASSIGNASSOC|W_ASSNGLOBAL)) == (W_ASSIGNASSOC|W_ASSNGLOBAL)) - make_internal_declare (tlist->word->word, "-gA"); + { + opts[opti++] = 'g'; + opts[opti++] = 'A'; + } else if (tlist->word->flags & W_ASSIGNASSOC) - make_internal_declare (tlist->word->word, "-A"); + opts[opti++] = 'A'; else if ((tlist->word->flags & (W_ASSIGNARRAY|W_ASSNGLOBAL)) == (W_ASSIGNARRAY|W_ASSNGLOBAL)) - make_internal_declare (tlist->word->word, "-ga"); + { + opts[opti++] = 'g'; + opts[opti++] = 'a'; + } else if (tlist->word->flags & W_ASSIGNARRAY) - make_internal_declare (tlist->word->word, "-a"); + opts[opti++] = 'a'; else if (tlist->word->flags & W_ASSNGLOBAL) - make_internal_declare (tlist->word->word, "-g"); + opts[opti++] = 'g'; + +#if 0 + /* If we have special handling note the integer attribute */ + if (opti > 0 && (tlist->word->flags & W_ASSIGNINT)) + opts[opti++] = 'i'; +#endif + + opts[opti] = '\0'; + if (opti > 0) + make_internal_declare (tlist->word->word, opts); t = do_word_assignment (tlist->word, 0); if (t == 0) diff --git a/subst.c~ b/subst.c~ new file mode 100644 index 000000000..d03931b6a --- /dev/null +++ b/subst.c~ @@ -0,0 +1,9662 @@ +/* subst.c -- The part of the shell that does parameter, command, arithmetic, + and globbing substitutions. */ + +/* ``Have a little faith, there's magic in the night. You ain't a + beauty, but, hey, you're alright.'' */ + +/* Copyright (C) 1987-2013 Free Software Foundation, Inc. + + This file is part of GNU Bash, the Bourne Again SHell. + + Bash is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Bash is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Bash. If not, see . +*/ + +#include "config.h" + +#include "bashtypes.h" +#include +#include "chartypes.h" +#if defined (HAVE_PWD_H) +# include +#endif +#include +#include + +#if defined (HAVE_UNISTD_H) +# include +#endif + +#include "bashansi.h" +#include "posixstat.h" +#include "bashintl.h" + +#include "shell.h" +#include "parser.h" +#include "flags.h" +#include "jobs.h" +#include "execute_cmd.h" +#include "filecntl.h" +#include "trap.h" +#include "pathexp.h" +#include "mailcheck.h" + +#include "shmbutil.h" +#include "typemax.h" + +#include "builtins/getopt.h" +#include "builtins/common.h" + +#include "builtins/builtext.h" + +#include +#include + +#if !defined (errno) +extern int errno; +#endif /* !errno */ + +/* The size that strings change by. */ +#define DEFAULT_INITIAL_ARRAY_SIZE 112 +#define DEFAULT_ARRAY_SIZE 128 + +/* Variable types. */ +#define VT_VARIABLE 0 +#define VT_POSPARMS 1 +#define VT_ARRAYVAR 2 +#define VT_ARRAYMEMBER 3 +#define VT_ASSOCVAR 4 + +#define VT_STARSUB 128 /* $* or ${array[*]} -- used to split */ + +/* Flags for quoted_strchr */ +#define ST_BACKSL 0x01 +#define ST_CTLESC 0x02 +#define ST_SQUOTE 0x04 /* unused yet */ +#define ST_DQUOTE 0x08 /* unused yet */ + +/* Flags for the `pflags' argument to param_expand() */ +#define PF_NOCOMSUB 0x01 /* Do not perform command substitution */ +#define PF_IGNUNBOUND 0x02 /* ignore unbound vars even if -u set */ +#define PF_NOSPLIT2 0x04 /* same as W_NOSPLIT2 */ +#define PF_ASSIGNRHS 0x08 /* same as W_ASSIGNRHS */ + +/* These defs make it easier to use the editor. */ +#define LBRACE '{' +#define RBRACE '}' +#define LPAREN '(' +#define RPAREN ')' + +#if defined (HANDLE_MULTIBYTE) +#define WLPAREN L'(' +#define WRPAREN L')' +#endif + +/* Evaluates to 1 if C is one of the shell's special parameters whose length + can be taken, but is also one of the special expansion characters. */ +#define VALID_SPECIAL_LENGTH_PARAM(c) \ + ((c) == '-' || (c) == '?' || (c) == '#') + +/* Evaluates to 1 if C is one of the shell's special parameters for which an + indirect variable reference may be made. */ +#define VALID_INDIR_PARAM(c) \ + ((posixly_correct == 0 && (c) == '#') || (posixly_correct == 0 && (c) == '?') || (c) == '@' || (c) == '*') + +/* Evaluates to 1 if C is one of the OP characters that follows the parameter + in ${parameter[:]OPword}. */ +#define VALID_PARAM_EXPAND_CHAR(c) (sh_syntaxtab[(unsigned char)c] & CSUBSTOP) + +/* Evaluates to 1 if this is one of the shell's special variables. */ +#define SPECIAL_VAR(name, wi) \ + ((DIGIT (*name) && all_digits (name)) || \ + (name[1] == '\0' && (sh_syntaxtab[(unsigned char)*name] & CSPECVAR)) || \ + (wi && name[2] == '\0' && VALID_INDIR_PARAM (name[1]))) + +/* An expansion function that takes a string and a quoted flag and returns + a WORD_LIST *. Used as the type of the third argument to + expand_string_if_necessary(). */ +typedef WORD_LIST *EXPFUNC __P((char *, int)); + +/* Process ID of the last command executed within command substitution. */ +pid_t last_command_subst_pid = NO_PID; +pid_t current_command_subst_pid = NO_PID; + +/* Variables used to keep track of the characters in IFS. */ +SHELL_VAR *ifs_var; +char *ifs_value; +unsigned char ifs_cmap[UCHAR_MAX + 1]; +int ifs_is_set, ifs_is_null; + +#if defined (HANDLE_MULTIBYTE) +unsigned char ifs_firstc[MB_LEN_MAX]; +size_t ifs_firstc_len; +#else +unsigned char ifs_firstc; +#endif + +/* Sentinel to tell when we are performing variable assignments preceding a + command name and putting them into the environment. Used to make sure + we use the temporary environment when looking up variable values. */ +int assigning_in_environment; + +/* Used to hold a list of variable assignments preceding a command. Global + so the SIGCHLD handler in jobs.c can unwind-protect it when it runs a + SIGCHLD trap and so it can be saved and restored by the trap handlers. */ +WORD_LIST *subst_assign_varlist = (WORD_LIST *)NULL; + +/* Extern functions and variables from different files. */ +extern int last_command_exit_value, last_command_exit_signal; +extern int subshell_environment, line_number; +extern int subshell_level, parse_and_execute_level, sourcelevel; +extern int eof_encountered; +extern int return_catch_flag, return_catch_value; +extern pid_t dollar_dollar_pid; +extern int posixly_correct; +extern char *this_command_name; +extern struct fd_bitmap *current_fds_to_close; +extern int wordexp_only; +extern int expanding_redir; +extern int tempenv_assign_error; +extern int builtin_ignoring_errexit; + +#if !defined (HAVE_WCSDUP) && defined (HANDLE_MULTIBYTE) +extern wchar_t *wcsdup __P((const wchar_t *)); +#endif + +/* Non-zero means to allow unmatched globbed filenames to expand to + a null file. */ +int allow_null_glob_expansion; + +/* Non-zero means to throw an error when globbing fails to match anything. */ +int fail_glob_expansion; + +#if 0 +/* Variables to keep track of which words in an expanded word list (the + output of expand_word_list_internal) are the result of globbing + expansions. GLOB_ARGV_FLAGS is used by execute_cmd.c. + (CURRENTLY UNUSED). */ +char *glob_argv_flags; +static int glob_argv_flags_size; +#endif + +static WORD_LIST expand_word_error, expand_word_fatal; +static WORD_DESC expand_wdesc_error, expand_wdesc_fatal; +static char expand_param_error, expand_param_fatal; +static char extract_string_error, extract_string_fatal; + +/* Tell the expansion functions to not longjmp back to top_level on fatal + errors. Enabled when doing completion and prompt string expansion. */ +static int no_longjmp_on_fatal_error = 0; + +/* Set by expand_word_unsplit; used to inhibit splitting and re-joining + $* on $IFS, primarily when doing assignment statements. */ +static int expand_no_split_dollar_star = 0; + +/* A WORD_LIST of words to be expanded by expand_word_list_internal, + without any leading variable assignments. */ +static WORD_LIST *garglist = (WORD_LIST *)NULL; + +static char *quoted_substring __P((char *, int, int)); +static int quoted_strlen __P((char *)); +static char *quoted_strchr __P((char *, int, int)); + +static char *expand_string_if_necessary __P((char *, int, EXPFUNC *)); +static inline char *expand_string_to_string_internal __P((char *, int, EXPFUNC *)); +static WORD_LIST *call_expand_word_internal __P((WORD_DESC *, int, int, int *, int *)); +static WORD_LIST *expand_string_internal __P((char *, int)); +static WORD_LIST *expand_string_leave_quoted __P((char *, int)); +static WORD_LIST *expand_string_for_rhs __P((char *, int, int *, int *)); + +static WORD_LIST *list_quote_escapes __P((WORD_LIST *)); +static char *make_quoted_char __P((int)); +static WORD_LIST *quote_list __P((WORD_LIST *)); + +static int unquoted_substring __P((char *, char *)); +static int unquoted_member __P((int, char *)); + +#if defined (ARRAY_VARS) +static SHELL_VAR *do_compound_assignment __P((char *, char *, int)); +#endif +static int do_assignment_internal __P((const WORD_DESC *, int)); + +static char *string_extract_verbatim __P((char *, size_t, int *, char *, int)); +static char *string_extract __P((char *, int *, char *, int)); +static char *string_extract_double_quoted __P((char *, int *, int)); +static inline char *string_extract_single_quoted __P((char *, int *)); +static inline int skip_single_quoted __P((const char *, size_t, int)); +static int skip_double_quoted __P((char *, size_t, int)); +static char *extract_delimited_string __P((char *, int *, char *, char *, char *, int)); +static char *extract_dollar_brace_string __P((char *, int *, int, int)); +static int skip_matched_pair __P((const char *, int, int, int, int)); + +static char *pos_params __P((char *, int, int, int)); + +static unsigned char *mb_getcharlens __P((char *, int)); + +static char *remove_upattern __P((char *, char *, int)); +#if defined (HANDLE_MULTIBYTE) +static wchar_t *remove_wpattern __P((wchar_t *, size_t, wchar_t *, int)); +#endif +static char *remove_pattern __P((char *, char *, int)); + +static int match_upattern __P((char *, char *, int, char **, char **)); +#if defined (HANDLE_MULTIBYTE) +static int match_wpattern __P((wchar_t *, char **, size_t, wchar_t *, int, char **, char **)); +#endif +static int match_pattern __P((char *, char *, int, char **, char **)); +static int getpatspec __P((int, char *)); +static char *getpattern __P((char *, int, int)); +static char *variable_remove_pattern __P((char *, char *, int, int)); +static char *list_remove_pattern __P((WORD_LIST *, char *, int, int, int)); +static char *parameter_list_remove_pattern __P((int, char *, int, int)); +#ifdef ARRAY_VARS +static char *array_remove_pattern __P((SHELL_VAR *, char *, int, char *, int)); +#endif +static char *parameter_brace_remove_pattern __P((char *, char *, int, char *, int, int, int)); + +static char *process_substitute __P((char *, int)); + +static char *read_comsub __P((int, int, int *)); + +#ifdef ARRAY_VARS +static arrayind_t array_length_reference __P((char *)); +#endif + +static int valid_brace_expansion_word __P((char *, int)); +static int chk_atstar __P((char *, int, int *, int *)); +static int chk_arithsub __P((const char *, int)); + +static WORD_DESC *parameter_brace_expand_word __P((char *, int, int, int, arrayind_t *)); +static char *parameter_brace_find_indir __P((char *, int, int, int)); +static WORD_DESC *parameter_brace_expand_indir __P((char *, int, int, int *, int *)); +static WORD_DESC *parameter_brace_expand_rhs __P((char *, char *, int, int, int *, int *)); +static void parameter_brace_expand_error __P((char *, char *)); + +static int valid_length_expression __P((char *)); +static intmax_t parameter_brace_expand_length __P((char *)); + +static char *skiparith __P((char *, int)); +static int verify_substring_values __P((SHELL_VAR *, char *, char *, int, intmax_t *, intmax_t *)); +static int get_var_and_type __P((char *, char *, arrayind_t, int, int, SHELL_VAR **, char **)); +static char *mb_substring __P((char *, int, int)); +static char *parameter_brace_substring __P((char *, char *, int, char *, int, int)); + +static int shouldexp_replacement __P((char *)); + +static char *pos_params_pat_subst __P((char *, char *, char *, int)); + +static char *parameter_brace_patsub __P((char *, char *, int, char *, int, int)); + +static char *pos_params_casemod __P((char *, char *, int, int)); +static char *parameter_brace_casemod __P((char *, char *, int, int, char *, int, int)); + +static WORD_DESC *parameter_brace_expand __P((char *, int *, int, int, int *, int *)); +static WORD_DESC *param_expand __P((char *, int *, int, int *, int *, int *, int *, int)); + +static WORD_LIST *expand_word_internal __P((WORD_DESC *, int, int, int *, int *)); + +static WORD_LIST *word_list_split __P((WORD_LIST *)); + +static void exp_jump_to_top_level __P((int)); + +static WORD_LIST *separate_out_assignments __P((WORD_LIST *)); +static WORD_LIST *glob_expand_word_list __P((WORD_LIST *, int)); +#ifdef BRACE_EXPANSION +static WORD_LIST *brace_expand_word_list __P((WORD_LIST *, int)); +#endif +#if defined (ARRAY_VARS) +static int make_internal_declare __P((char *, char *)); +#endif +static WORD_LIST *shell_expand_word_list __P((WORD_LIST *, int)); +static WORD_LIST *expand_word_list_internal __P((WORD_LIST *, int)); + +/* **************************************************************** */ +/* */ +/* Utility Functions */ +/* */ +/* **************************************************************** */ + +#if defined (DEBUG) +void +dump_word_flags (flags) + int flags; +{ + int f; + + f = flags; + fprintf (stderr, "%d -> ", f); + if (f & W_ASSIGNASSOC) + { + f &= ~W_ASSIGNASSOC; + fprintf (stderr, "W_ASSIGNASSOC%s", f ? "|" : ""); + } + if (f & W_ASSIGNARRAY) + { + f &= ~W_ASSIGNARRAY; + fprintf (stderr, "W_ASSIGNARRAY%s", f ? "|" : ""); + } + if (f & W_HASCTLESC) + { + f &= ~W_HASCTLESC; + fprintf (stderr, "W_HASCTLESC%s", f ? "|" : ""); + } + if (f & W_NOPROCSUB) + { + f &= ~W_NOPROCSUB; + fprintf (stderr, "W_NOPROCSUB%s", f ? "|" : ""); + } + if (f & W_DQUOTE) + { + f &= ~W_DQUOTE; + fprintf (stderr, "W_DQUOTE%s", f ? "|" : ""); + } + if (f & W_HASQUOTEDNULL) + { + f &= ~W_HASQUOTEDNULL; + fprintf (stderr, "W_HASQUOTEDNULL%s", f ? "|" : ""); + } + if (f & W_ASSIGNARG) + { + f &= ~W_ASSIGNARG; + fprintf (stderr, "W_ASSIGNARG%s", f ? "|" : ""); + } + if (f & W_ASSNBLTIN) + { + f &= ~W_ASSNBLTIN; + fprintf (stderr, "W_ASSNBLTIN%s", f ? "|" : ""); + } + if (f & W_ASSNGLOBAL) + { + f &= ~W_ASSNGLOBAL; + fprintf (stderr, "W_ASSNGLOBAL%s", f ? "|" : ""); + } + if (f & W_ASSIGNINT) + { + f &= ~W_ASSIGNINT; + fprintf (stderr, "W_ASSIGNINT%s", f ? "|" : ""); + } + if (f & W_COMPASSIGN) + { + f &= ~W_COMPASSIGN; + fprintf (stderr, "W_COMPASSIGN%s", f ? "|" : ""); + } + if (f & W_NOEXPAND) + { + f &= ~W_NOEXPAND; + fprintf (stderr, "W_NOEXPAND%s", f ? "|" : ""); + } + if (f & W_ITILDE) + { + f &= ~W_ITILDE; + fprintf (stderr, "W_ITILDE%s", f ? "|" : ""); + } + if (f & W_NOTILDE) + { + f &= ~W_NOTILDE; + fprintf (stderr, "W_NOTILDE%s", f ? "|" : ""); + } + if (f & W_ASSIGNRHS) + { + f &= ~W_ASSIGNRHS; + fprintf (stderr, "W_ASSIGNRHS%s", f ? "|" : ""); + } + if (f & W_NOCOMSUB) + { + f &= ~W_NOCOMSUB; + fprintf (stderr, "W_NOCOMSUB%s", f ? "|" : ""); + } + if (f & W_DOLLARSTAR) + { + f &= ~W_DOLLARSTAR; + fprintf (stderr, "W_DOLLARSTAR%s", f ? "|" : ""); + } + if (f & W_DOLLARAT) + { + f &= ~W_DOLLARAT; + fprintf (stderr, "W_DOLLARAT%s", f ? "|" : ""); + } + if (f & W_TILDEEXP) + { + f &= ~W_TILDEEXP; + fprintf (stderr, "W_TILDEEXP%s", f ? "|" : ""); + } + if (f & W_NOSPLIT2) + { + f &= ~W_NOSPLIT2; + fprintf (stderr, "W_NOSPLIT2%s", f ? "|" : ""); + } + if (f & W_NOSPLIT) + { + f &= ~W_NOSPLIT; + fprintf (stderr, "W_NOSPLIT%s", f ? "|" : ""); + } + if (f & W_NOBRACE) + { + f &= ~W_NOBRACE; + fprintf (stderr, "W_NOBRACE%s", f ? "|" : ""); + } + if (f & W_NOGLOB) + { + f &= ~W_NOGLOB; + fprintf (stderr, "W_NOGLOB%s", f ? "|" : ""); + } + if (f & W_SPLITSPACE) + { + f &= ~W_SPLITSPACE; + fprintf (stderr, "W_SPLITSPACE%s", f ? "|" : ""); + } + if (f & W_ASSIGNMENT) + { + f &= ~W_ASSIGNMENT; + fprintf (stderr, "W_ASSIGNMENT%s", f ? "|" : ""); + } + if (f & W_QUOTED) + { + f &= ~W_QUOTED; + fprintf (stderr, "W_QUOTED%s", f ? "|" : ""); + } + if (f & W_HASDOLLAR) + { + f &= ~W_HASDOLLAR; + fprintf (stderr, "W_HASDOLLAR%s", f ? "|" : ""); + } + fprintf (stderr, "\n"); + fflush (stderr); +} +#endif + +#ifdef INCLUDE_UNUSED +static char * +quoted_substring (string, start, end) + char *string; + int start, end; +{ + register int len, l; + register char *result, *s, *r; + + len = end - start; + + /* Move to string[start], skipping quoted characters. */ + for (s = string, l = 0; *s && l < start; ) + { + if (*s == CTLESC) + { + s++; + continue; + } + l++; + if (*s == 0) + break; + } + + r = result = (char *)xmalloc (2*len + 1); /* save room for quotes */ + + /* Copy LEN characters, including quote characters. */ + s = string + l; + for (l = 0; l < len; s++) + { + if (*s == CTLESC) + *r++ = *s++; + *r++ = *s; + l++; + if (*s == 0) + break; + } + *r = '\0'; + return result; +} +#endif + +#ifdef INCLUDE_UNUSED +/* Return the length of S, skipping over quoted characters */ +static int +quoted_strlen (s) + char *s; +{ + register char *p; + int i; + + i = 0; + for (p = s; *p; p++) + { + if (*p == CTLESC) + { + p++; + if (*p == 0) + return (i + 1); + } + i++; + } + + return i; +} +#endif + +/* Find the first occurrence of character C in string S, obeying shell + quoting rules. If (FLAGS & ST_BACKSL) is non-zero, backslash-escaped + characters are skipped. If (FLAGS & ST_CTLESC) is non-zero, characters + escaped with CTLESC are skipped. */ +static char * +quoted_strchr (s, c, flags) + char *s; + int c, flags; +{ + register char *p; + + for (p = s; *p; p++) + { + if (((flags & ST_BACKSL) && *p == '\\') + || ((flags & ST_CTLESC) && *p == CTLESC)) + { + p++; + if (*p == '\0') + return ((char *)NULL); + continue; + } + else if (*p == c) + return p; + } + return ((char *)NULL); +} + +/* Return 1 if CHARACTER appears in an unquoted portion of + STRING. Return 0 otherwise. CHARACTER must be a single-byte character. */ +static int +unquoted_member (character, string) + int character; + char *string; +{ + size_t slen; + int sindex, c; + DECLARE_MBSTATE; + + slen = strlen (string); + sindex = 0; + while (c = string[sindex]) + { + if (c == character) + return (1); + + switch (c) + { + default: + ADVANCE_CHAR (string, slen, sindex); + break; + + case '\\': + sindex++; + if (string[sindex]) + ADVANCE_CHAR (string, slen, sindex); + break; + + case '\'': + sindex = skip_single_quoted (string, slen, ++sindex); + break; + + case '"': + sindex = skip_double_quoted (string, slen, ++sindex); + break; + } + } + return (0); +} + +/* Return 1 if SUBSTR appears in an unquoted portion of STRING. */ +static int +unquoted_substring (substr, string) + char *substr, *string; +{ + size_t slen; + int sindex, c, sublen; + DECLARE_MBSTATE; + + if (substr == 0 || *substr == '\0') + return (0); + + slen = strlen (string); + sublen = strlen (substr); + for (sindex = 0; c = string[sindex]; ) + { + if (STREQN (string + sindex, substr, sublen)) + return (1); + + switch (c) + { + case '\\': + sindex++; + if (string[sindex]) + ADVANCE_CHAR (string, slen, sindex); + break; + + case '\'': + sindex = skip_single_quoted (string, slen, ++sindex); + break; + + case '"': + sindex = skip_double_quoted (string, slen, ++sindex); + break; + + default: + ADVANCE_CHAR (string, slen, sindex); + break; + } + } + return (0); +} + +/* Most of the substitutions must be done in parallel. In order + to avoid using tons of unclear goto's, I have some functions + for manipulating malloc'ed strings. They all take INDX, a + pointer to an integer which is the offset into the string + where manipulation is taking place. They also take SIZE, a + pointer to an integer which is the current length of the + character array for this string. */ + +/* Append SOURCE to TARGET at INDEX. SIZE is the current amount + of space allocated to TARGET. SOURCE can be NULL, in which + case nothing happens. Gets rid of SOURCE by freeing it. + Returns TARGET in case the location has changed. */ +INLINE char * +sub_append_string (source, target, indx, size) + char *source, *target; + int *indx, *size; +{ + if (source) + { + int srclen, n; + + srclen = STRLEN (source); + if (srclen >= (int)(*size - *indx)) + { + n = srclen + *indx; + n = (n + DEFAULT_ARRAY_SIZE) - (n % DEFAULT_ARRAY_SIZE); + target = (char *)xrealloc (target, (*size = n)); + } + + FASTCOPY (source, target + *indx, srclen); + *indx += srclen; + target[*indx] = '\0'; + + free (source); + } + return (target); +} + +#if 0 +/* UNUSED */ +/* Append the textual representation of NUMBER to TARGET. + INDX and SIZE are as in SUB_APPEND_STRING. */ +char * +sub_append_number (number, target, indx, size) + intmax_t number; + int *indx, *size; + char *target; +{ + char *temp; + + temp = itos (number); + return (sub_append_string (temp, target, indx, size)); +} +#endif + +/* Extract a substring from STRING, starting at SINDEX and ending with + one of the characters in CHARLIST. Don't make the ending character + part of the string. Leave SINDEX pointing at the ending character. + Understand about backslashes in the string. If (flags & SX_VARNAME) + is non-zero, and array variables have been compiled into the shell, + everything between a `[' and a corresponding `]' is skipped over. + If (flags & SX_NOALLOC) is non-zero, don't return the substring, just + update SINDEX. If (flags & SX_REQMATCH) is non-zero, the string must + contain a closing character from CHARLIST. */ +static char * +string_extract (string, sindex, charlist, flags) + char *string; + int *sindex; + char *charlist; + int flags; +{ + register int c, i; + int found; + size_t slen; + char *temp; + DECLARE_MBSTATE; + + slen = (MB_CUR_MAX > 1) ? strlen (string + *sindex) + *sindex : 0; + i = *sindex; + found = 0; + while (c = string[i]) + { + if (c == '\\') + { + if (string[i + 1]) + i++; + else + break; + } +#if defined (ARRAY_VARS) + else if ((flags & SX_VARNAME) && c == '[') + { + int ni; + /* If this is an array subscript, skip over it and continue. */ + ni = skipsubscript (string, i, 0); + if (string[ni] == ']') + i = ni; + } +#endif + else if (MEMBER (c, charlist)) + { + found = 1; + break; + } + + ADVANCE_CHAR (string, slen, i); + } + + /* If we had to have a matching delimiter and didn't find one, return an + error and let the caller deal with it. */ + if ((flags & SX_REQMATCH) && found == 0) + { + *sindex = i; + return (&extract_string_error); + } + + temp = (flags & SX_NOALLOC) ? (char *)NULL : substring (string, *sindex, i); + *sindex = i; + + return (temp); +} + +/* Extract the contents of STRING as if it is enclosed in double quotes. + SINDEX, when passed in, is the offset of the character immediately + following the opening double quote; on exit, SINDEX is left pointing after + the closing double quote. If STRIPDQ is non-zero, unquoted double + quotes are stripped and the string is terminated by a null byte. + Backslashes between the embedded double quotes are processed. If STRIPDQ + is zero, an unquoted `"' terminates the string. */ +static char * +string_extract_double_quoted (string, sindex, stripdq) + char *string; + int *sindex, stripdq; +{ + size_t slen; + char *send; + int j, i, t; + unsigned char c; + char *temp, *ret; /* The new string we return. */ + int pass_next, backquote, si; /* State variables for the machine. */ + int dquote; + DECLARE_MBSTATE; + + slen = strlen (string + *sindex) + *sindex; + send = string + slen; + + pass_next = backquote = dquote = 0; + temp = (char *)xmalloc (1 + slen - *sindex); + + j = 0; + i = *sindex; + while (c = string[i]) + { + /* Process a character that was quoted by a backslash. */ + if (pass_next) + { + /* XXX - take another look at this in light of Interp 221 */ + /* Posix.2 sez: + + ``The backslash shall retain its special meaning as an escape + character only when followed by one of the characters: + $ ` " \ ''. + + If STRIPDQ is zero, we handle the double quotes here and let + expand_word_internal handle the rest. If STRIPDQ is non-zero, + we have already been through one round of backslash stripping, + and want to strip these backslashes only if DQUOTE is non-zero, + indicating that we are inside an embedded double-quoted string. */ + + /* If we are in an embedded quoted string, then don't strip + backslashes before characters for which the backslash + retains its special meaning, but remove backslashes in + front of other characters. If we are not in an + embedded quoted string, don't strip backslashes at all. + This mess is necessary because the string was already + surrounded by double quotes (and sh has some really weird + quoting rules). + The returned string will be run through expansion as if + it were double-quoted. */ + if ((stripdq == 0 && c != '"') || + (stripdq && ((dquote && (sh_syntaxtab[c] & CBSDQUOTE)) || dquote == 0))) + temp[j++] = '\\'; + pass_next = 0; + +add_one_character: + COPY_CHAR_I (temp, j, string, send, i); + continue; + } + + /* A backslash protects the next character. The code just above + handles preserving the backslash in front of any character but + a double quote. */ + if (c == '\\') + { + pass_next++; + i++; + continue; + } + + /* Inside backquotes, ``the portion of the quoted string from the + initial backquote and the characters up to the next backquote + that is not preceded by a backslash, having escape characters + removed, defines that command''. */ + if (backquote) + { + if (c == '`') + backquote = 0; + temp[j++] = c; + i++; + continue; + } + + if (c == '`') + { + temp[j++] = c; + backquote++; + i++; + continue; + } + + /* Pass everything between `$(' and the matching `)' or a quoted + ${ ... } pair through according to the Posix.2 specification. */ + if (c == '$' && ((string[i + 1] == LPAREN) || (string[i + 1] == LBRACE))) + { + int free_ret = 1; + + si = i + 2; + if (string[i + 1] == LPAREN) + ret = extract_command_subst (string, &si, 0); + else + ret = extract_dollar_brace_string (string, &si, Q_DOUBLE_QUOTES, 0); + + temp[j++] = '$'; + temp[j++] = string[i + 1]; + + /* Just paranoia; ret will not be 0 unless no_longjmp_on_fatal_error + is set. */ + if (ret == 0 && no_longjmp_on_fatal_error) + { + free_ret = 0; + ret = string + i + 2; + } + + for (t = 0; ret[t]; t++, j++) + temp[j] = ret[t]; + temp[j] = string[si]; + + if (string[si]) + { + j++; + i = si + 1; + } + else + i = si; + + if (free_ret) + free (ret); + continue; + } + + /* Add any character but a double quote to the quoted string we're + accumulating. */ + if (c != '"') + goto add_one_character; + + /* c == '"' */ + if (stripdq) + { + dquote ^= 1; + i++; + continue; + } + + break; + } + temp[j] = '\0'; + + /* Point to after the closing quote. */ + if (c) + i++; + *sindex = i; + + return (temp); +} + +/* This should really be another option to string_extract_double_quoted. */ +static int +skip_double_quoted (string, slen, sind) + char *string; + size_t slen; + int sind; +{ + int c, i; + char *ret; + int pass_next, backquote, si; + DECLARE_MBSTATE; + + pass_next = backquote = 0; + i = sind; + while (c = string[i]) + { + if (pass_next) + { + pass_next = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '\\') + { + pass_next++; + i++; + continue; + } + else if (backquote) + { + if (c == '`') + backquote = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '`') + { + backquote++; + i++; + continue; + } + else if (c == '$' && ((string[i + 1] == LPAREN) || (string[i + 1] == LBRACE))) + { + si = i + 2; + if (string[i + 1] == LPAREN) + ret = extract_command_subst (string, &si, SX_NOALLOC); + else + ret = extract_dollar_brace_string (string, &si, Q_DOUBLE_QUOTES, SX_NOALLOC); + + i = si + 1; + continue; + } + else if (c != '"') + { + ADVANCE_CHAR (string, slen, i); + continue; + } + else + break; + } + + if (c) + i++; + + return (i); +} + +/* Extract the contents of STRING as if it is enclosed in single quotes. + SINDEX, when passed in, is the offset of the character immediately + following the opening single quote; on exit, SINDEX is left pointing after + the closing single quote. */ +static inline char * +string_extract_single_quoted (string, sindex) + char *string; + int *sindex; +{ + register int i; + size_t slen; + char *t; + DECLARE_MBSTATE; + + /* Don't need slen for ADVANCE_CHAR unless multibyte chars possible. */ + slen = (MB_CUR_MAX > 1) ? strlen (string + *sindex) + *sindex : 0; + i = *sindex; + while (string[i] && string[i] != '\'') + ADVANCE_CHAR (string, slen, i); + + t = substring (string, *sindex, i); + + if (string[i]) + i++; + *sindex = i; + + return (t); +} + +static inline int +skip_single_quoted (string, slen, sind) + const char *string; + size_t slen; + int sind; +{ + register int c; + DECLARE_MBSTATE; + + c = sind; + while (string[c] && string[c] != '\'') + ADVANCE_CHAR (string, slen, c); + + if (string[c]) + c++; + return c; +} + +/* Just like string_extract, but doesn't hack backslashes or any of + that other stuff. Obeys CTLESC quoting. Used to do splitting on $IFS. */ +static char * +string_extract_verbatim (string, slen, sindex, charlist, flags) + char *string; + size_t slen; + int *sindex; + char *charlist; + int flags; +{ + register int i; +#if defined (HANDLE_MULTIBYTE) + size_t clen; + wchar_t *wcharlist; +#endif + int c; + char *temp; + DECLARE_MBSTATE; + + if (charlist[0] == '\'' && charlist[1] == '\0') + { + temp = string_extract_single_quoted (string, sindex); + --*sindex; /* leave *sindex at separator character */ + return temp; + } + + i = *sindex; +#if 0 + /* See how the MBLEN and ADVANCE_CHAR macros work to understand why we need + this only if MB_CUR_MAX > 1. */ + slen = (MB_CUR_MAX > 1) ? strlen (string + *sindex) + *sindex : 1; +#endif +#if defined (HANDLE_MULTIBYTE) + clen = strlen (charlist); + wcharlist = 0; +#endif + while (c = string[i]) + { +#if defined (HANDLE_MULTIBYTE) + size_t mblength; +#endif + if ((flags & SX_NOCTLESC) == 0 && c == CTLESC) + { + i += 2; + continue; + } + /* Even if flags contains SX_NOCTLESC, we let CTLESC quoting CTLNUL + through, to protect the CTLNULs from later calls to + remove_quoted_nulls. */ + else if ((flags & SX_NOESCCTLNUL) == 0 && c == CTLESC && string[i+1] == CTLNUL) + { + i += 2; + continue; + } + +#if defined (HANDLE_MULTIBYTE) + mblength = MBLEN (string + i, slen - i); + if (mblength > 1) + { + wchar_t wc; + mblength = mbtowc (&wc, string + i, slen - i); + if (MB_INVALIDCH (mblength)) + { + if (MEMBER (c, charlist)) + break; + } + else + { + if (wcharlist == 0) + { + size_t len; + len = mbstowcs (wcharlist, charlist, 0); + if (len == -1) + len = 0; + wcharlist = (wchar_t *)xmalloc (sizeof (wchar_t) * (len + 1)); + mbstowcs (wcharlist, charlist, len + 1); + } + + if (wcschr (wcharlist, wc)) + break; + } + } + else +#endif + if (MEMBER (c, charlist)) + break; + + ADVANCE_CHAR (string, slen, i); + } + +#if defined (HANDLE_MULTIBYTE) + FREE (wcharlist); +#endif + + temp = substring (string, *sindex, i); + *sindex = i; + + return (temp); +} + +/* Extract the $( construct in STRING, and return a new string. + Start extracting at (SINDEX) as if we had just seen "$(". + Make (SINDEX) get the position of the matching ")". ) + XFLAGS is additional flags to pass to other extraction functions. */ +char * +extract_command_subst (string, sindex, xflags) + char *string; + int *sindex; + int xflags; +{ + if (string[*sindex] == LPAREN) + return (extract_delimited_string (string, sindex, "$(", "(", ")", xflags|SX_COMMAND)); /*)*/ + else + { + xflags |= (no_longjmp_on_fatal_error ? SX_NOLONGJMP : 0); + return (xparse_dolparen (string, string+*sindex, sindex, xflags)); + } +} + +/* Extract the $[ construct in STRING, and return a new string. (]) + Start extracting at (SINDEX) as if we had just seen "$[". + Make (SINDEX) get the position of the matching "]". */ +char * +extract_arithmetic_subst (string, sindex) + char *string; + int *sindex; +{ + return (extract_delimited_string (string, sindex, "$[", "[", "]", 0)); /*]*/ +} + +#if defined (PROCESS_SUBSTITUTION) +/* Extract the <( or >( construct in STRING, and return a new string. + Start extracting at (SINDEX) as if we had just seen "<(". + Make (SINDEX) get the position of the matching ")". */ /*))*/ +char * +extract_process_subst (string, starter, sindex) + char *string; + char *starter; + int *sindex; +{ + return (extract_delimited_string (string, sindex, starter, "(", ")", SX_COMMAND)); +} +#endif /* PROCESS_SUBSTITUTION */ + +#if defined (ARRAY_VARS) +/* This can be fooled by unquoted right parens in the passed string. If + each caller verifies that the last character in STRING is a right paren, + we don't even need to call extract_delimited_string. */ +char * +extract_array_assignment_list (string, sindex) + char *string; + int *sindex; +{ + int slen; + char *ret; + + slen = strlen (string); /* ( */ + if (string[slen - 1] == ')') + { + ret = substring (string, *sindex, slen - 1); + *sindex = slen - 1; + return ret; + } + return 0; +} +#endif + +/* Extract and create a new string from the contents of STRING, a + character string delimited with OPENER and CLOSER. SINDEX is + the address of an int describing the current offset in STRING; + it should point to just after the first OPENER found. On exit, + SINDEX gets the position of the last character of the matching CLOSER. + If OPENER is more than a single character, ALT_OPENER, if non-null, + contains a character string that can also match CLOSER and thus + needs to be skipped. */ +static char * +extract_delimited_string (string, sindex, opener, alt_opener, closer, flags) + char *string; + int *sindex; + char *opener, *alt_opener, *closer; + int flags; +{ + int i, c, si; + size_t slen; + char *t, *result; + int pass_character, nesting_level, in_comment; + int len_closer, len_opener, len_alt_opener; + DECLARE_MBSTATE; + + slen = strlen (string + *sindex) + *sindex; + len_opener = STRLEN (opener); + len_alt_opener = STRLEN (alt_opener); + len_closer = STRLEN (closer); + + pass_character = in_comment = 0; + + nesting_level = 1; + i = *sindex; + + while (nesting_level) + { + c = string[i]; + + if (c == 0) + break; + + if (in_comment) + { + if (c == '\n') + in_comment = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + + if (pass_character) /* previous char was backslash */ + { + pass_character = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + + /* Not exactly right yet; should handle shell metacharacters and + multibyte characters, too. See COMMENT_BEGIN define in parse.y */ + if ((flags & SX_COMMAND) && c == '#' && (i == 0 || string[i - 1] == '\n' || shellblank (string[i - 1]))) + { + in_comment = 1; + ADVANCE_CHAR (string, slen, i); + continue; + } + + if (c == CTLESC || c == '\\') + { + pass_character++; + i++; + continue; + } + + /* Process a nested command substitution, but only if we're parsing an + arithmetic substitution. */ + if ((flags & SX_COMMAND) && string[i] == '$' && string[i+1] == LPAREN) + { + si = i + 2; + t = extract_command_subst (string, &si, flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* Process a nested OPENER. */ + if (STREQN (string + i, opener, len_opener)) + { + si = i + len_opener; + t = extract_delimited_string (string, &si, opener, alt_opener, closer, flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* Process a nested ALT_OPENER */ + if (len_alt_opener && STREQN (string + i, alt_opener, len_alt_opener)) + { + si = i + len_alt_opener; + t = extract_delimited_string (string, &si, alt_opener, alt_opener, closer, flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* If the current substring terminates the delimited string, decrement + the nesting level. */ + if (STREQN (string + i, closer, len_closer)) + { + i += len_closer - 1; /* move to last byte of the closer */ + nesting_level--; + if (nesting_level == 0) + break; + } + + /* Pass old-style command substitution through verbatim. */ + if (c == '`') + { + si = i + 1; + t = string_extract (string, &si, "`", flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* Pass single-quoted and double-quoted strings through verbatim. */ + if (c == '\'' || c == '"') + { + si = i + 1; + i = (c == '\'') ? skip_single_quoted (string, slen, si) + : skip_double_quoted (string, slen, si); + continue; + } + + /* move past this character, which was not special. */ + ADVANCE_CHAR (string, slen, i); + } + + if (c == 0 && nesting_level) + { + if (no_longjmp_on_fatal_error == 0) + { + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("bad substitution: no closing `%s' in %s"), closer, string); + exp_jump_to_top_level (DISCARD); + } + else + { + *sindex = i; + return (char *)NULL; + } + } + + si = i - *sindex - len_closer + 1; + if (flags & SX_NOALLOC) + result = (char *)NULL; + else + { + result = (char *)xmalloc (1 + si); + strncpy (result, string + *sindex, si); + result[si] = '\0'; + } + *sindex = i; + + return (result); +} + +/* Extract a parameter expansion expression within ${ and } from STRING. + Obey the Posix.2 rules for finding the ending `}': count braces while + skipping over enclosed quoted strings and command substitutions. + SINDEX is the address of an int describing the current offset in STRING; + it should point to just after the first `{' found. On exit, SINDEX + gets the position of the matching `}'. QUOTED is non-zero if this + occurs inside double quotes. */ +/* XXX -- this is very similar to extract_delimited_string -- XXX */ +static char * +extract_dollar_brace_string (string, sindex, quoted, flags) + char *string; + int *sindex, quoted, flags; +{ + register int i, c; + size_t slen; + int pass_character, nesting_level, si, dolbrace_state; + char *result, *t; + DECLARE_MBSTATE; + + pass_character = 0; + nesting_level = 1; + slen = strlen (string + *sindex) + *sindex; + + /* The handling of dolbrace_state needs to agree with the code in parse.y: + parse_matched_pair(). The different initial value is to handle the + case where this function is called to parse the word in + ${param op word} (SX_WORD). */ + dolbrace_state = (flags & SX_WORD) ? DOLBRACE_WORD : DOLBRACE_PARAM; + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && (flags & SX_POSIXEXP)) + dolbrace_state = DOLBRACE_QUOTE; + + i = *sindex; + while (c = string[i]) + { + if (pass_character) + { + pass_character = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + + /* CTLESCs and backslashes quote the next character. */ + if (c == CTLESC || c == '\\') + { + pass_character++; + i++; + continue; + } + + if (string[i] == '$' && string[i+1] == LBRACE) + { + nesting_level++; + i += 2; + continue; + } + + if (c == RBRACE) + { + nesting_level--; + if (nesting_level == 0) + break; + i++; + continue; + } + + /* Pass the contents of old-style command substitutions through + verbatim. */ + if (c == '`') + { + si = i + 1; + t = string_extract (string, &si, "`", flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* Pass the contents of new-style command substitutions and + arithmetic substitutions through verbatim. */ + if (string[i] == '$' && string[i+1] == LPAREN) + { + si = i + 2; + t = extract_command_subst (string, &si, flags|SX_NOALLOC); + i = si + 1; + continue; + } + + /* Pass the contents of double-quoted strings through verbatim. */ + if (c == '"') + { + si = i + 1; + i = skip_double_quoted (string, slen, si); + /* skip_XXX_quoted leaves index one past close quote */ + continue; + } + + if (c == '\'') + { +/*itrace("extract_dollar_brace_string: c == single quote flags = %d quoted = %d dolbrace_state = %d", flags, quoted, dolbrace_state);*/ + if (posixly_correct && shell_compatibility_level > 42 && dolbrace_state != DOLBRACE_QUOTE && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ADVANCE_CHAR (string, slen, i); + else + { + si = i + 1; + i = skip_single_quoted (string, slen, si); + } + + continue; + } + + /* move past this character, which was not special. */ + ADVANCE_CHAR (string, slen, i); + + /* This logic must agree with parse.y:parse_matched_pair, since they + share the same defines. */ + if (dolbrace_state == DOLBRACE_PARAM && c == '%' && (i - *sindex) > 1) + dolbrace_state = DOLBRACE_QUOTE; + else if (dolbrace_state == DOLBRACE_PARAM && c == '#' && (i - *sindex) > 1) + dolbrace_state = DOLBRACE_QUOTE; + else if (dolbrace_state == DOLBRACE_PARAM && c == '/' && (i - *sindex) > 1) + dolbrace_state = DOLBRACE_QUOTE2; /* XXX */ + else if (dolbrace_state == DOLBRACE_PARAM && c == '^' && (i - *sindex) > 1) + dolbrace_state = DOLBRACE_QUOTE; + else if (dolbrace_state == DOLBRACE_PARAM && c == ',' && (i - *sindex) > 1) + dolbrace_state = DOLBRACE_QUOTE; + else if (dolbrace_state == DOLBRACE_PARAM && strchr ("#%^,~:-=?+/", c) != 0) + dolbrace_state = DOLBRACE_OP; + else if (dolbrace_state == DOLBRACE_OP && strchr ("#%^,~:-=?+/", c) == 0) + dolbrace_state = DOLBRACE_WORD; + } + + if (c == 0 && nesting_level) + { + if (no_longjmp_on_fatal_error == 0) + { /* { */ + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("bad substitution: no closing `%s' in %s"), "}", string); + exp_jump_to_top_level (DISCARD); + } + else + { + *sindex = i; + return ((char *)NULL); + } + } + + result = (flags & SX_NOALLOC) ? (char *)NULL : substring (string, *sindex, i); + *sindex = i; + + return (result); +} + +/* Remove backslashes which are quoting backquotes from STRING. Modifies + STRING, and returns a pointer to it. */ +char * +de_backslash (string) + char *string; +{ + register size_t slen; + register int i, j, prev_i; + DECLARE_MBSTATE; + + slen = strlen (string); + i = j = 0; + + /* Loop copying string[i] to string[j], i >= j. */ + while (i < slen) + { + if (string[i] == '\\' && (string[i + 1] == '`' || string[i + 1] == '\\' || + string[i + 1] == '$')) + i++; + prev_i = i; + ADVANCE_CHAR (string, slen, i); + if (j < prev_i) + do string[j++] = string[prev_i++]; while (prev_i < i); + else + j = i; + } + string[j] = '\0'; + + return (string); +} + +#if 0 +/*UNUSED*/ +/* Replace instances of \! in a string with !. */ +void +unquote_bang (string) + char *string; +{ + register int i, j; + register char *temp; + + temp = (char *)xmalloc (1 + strlen (string)); + + for (i = 0, j = 0; (temp[j] = string[i]); i++, j++) + { + if (string[i] == '\\' && string[i + 1] == '!') + { + temp[j] = '!'; + i++; + } + } + strcpy (string, temp); + free (temp); +} +#endif + +#define CQ_RETURN(x) do { no_longjmp_on_fatal_error = 0; return (x); } while (0) + +/* This function assumes s[i] == open; returns with s[ret] == close; used to + parse array subscripts. FLAGS & 1 means to not attempt to skip over + matched pairs of quotes or backquotes, or skip word expansions; it is + intended to be used after expansion has been performed and during final + assignment parsing (see arrayfunc.c:assign_compound_array_list()). */ +static int +skip_matched_pair (string, start, open, close, flags) + const char *string; + int start, open, close, flags; +{ + int i, pass_next, backq, si, c, count; + size_t slen; + char *temp, *ss; + DECLARE_MBSTATE; + + slen = strlen (string + start) + start; + no_longjmp_on_fatal_error = 1; + + i = start + 1; /* skip over leading bracket */ + count = 1; + pass_next = backq = 0; + ss = (char *)string; + while (c = string[i]) + { + if (pass_next) + { + pass_next = 0; + if (c == 0) + CQ_RETURN(i); + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '\\') + { + pass_next = 1; + i++; + continue; + } + else if (backq) + { + if (c == '`') + backq = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + else if ((flags & 1) == 0 && c == '`') + { + backq = 1; + i++; + continue; + } + else if ((flags & 1) == 0 && c == open) + { + count++; + i++; + continue; + } + else if (c == close) + { + count--; + if (count == 0) + break; + i++; + continue; + } + else if ((flags & 1) == 0 && (c == '\'' || c == '"')) + { + i = (c == '\'') ? skip_single_quoted (ss, slen, ++i) + : skip_double_quoted (ss, slen, ++i); + /* no increment, the skip functions increment past the closing quote. */ + } + else if ((flags&1) == 0 && c == '$' && (string[i+1] == LPAREN || string[i+1] == LBRACE)) + { + si = i + 2; + if (string[si] == '\0') + CQ_RETURN(si); + + if (string[i+1] == LPAREN) + temp = extract_delimited_string (ss, &si, "$(", "(", ")", SX_NOALLOC|SX_COMMAND); /* ) */ + else + temp = extract_dollar_brace_string (ss, &si, 0, SX_NOALLOC); + i = si; + if (string[i] == '\0') /* don't increment i past EOS in loop */ + break; + i++; + continue; + } + else + ADVANCE_CHAR (string, slen, i); + } + + CQ_RETURN(i); +} + +#if defined (ARRAY_VARS) +int +skipsubscript (string, start, flags) + const char *string; + int start, flags; +{ + return (skip_matched_pair (string, start, '[', ']', flags)); +} +#endif + +/* Skip characters in STRING until we find a character in DELIMS, and return + the index of that character. START is the index into string at which we + begin. This is similar in spirit to strpbrk, but it returns an index into + STRING and takes a starting index. This little piece of code knows quite + a lot of shell syntax. It's very similar to skip_double_quoted and other + functions of that ilk. */ +int +skip_to_delim (string, start, delims, flags) + char *string; + int start; + char *delims; + int flags; +{ + int i, pass_next, backq, si, c, invert, skipquote, skipcmd; + size_t slen; + char *temp, open[3]; + DECLARE_MBSTATE; + + slen = strlen (string + start) + start; + if (flags & SD_NOJMP) + no_longjmp_on_fatal_error = 1; + invert = (flags & SD_INVERT); + skipcmd = (flags & SD_NOSKIPCMD) == 0; + + i = start; + pass_next = backq = 0; + while (c = string[i]) + { + /* If this is non-zero, we should not let quote characters be delimiters + and the current character is a single or double quote. We should not + test whether or not it's a delimiter until after we skip single- or + double-quoted strings. */ + skipquote = ((flags & SD_NOQUOTEDELIM) && (c == '\'' || c =='"')); + if (pass_next) + { + pass_next = 0; + if (c == 0) + CQ_RETURN(i); + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '\\') + { + pass_next = 1; + i++; + continue; + } + else if (backq) + { + if (c == '`') + backq = 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '`') + { + backq = 1; + i++; + continue; + } + else if (skipquote == 0 && invert == 0 && member (c, delims)) + break; + else if (c == '\'' || c == '"') + { + i = (c == '\'') ? skip_single_quoted (string, slen, ++i) + : skip_double_quoted (string, slen, ++i); + /* no increment, the skip functions increment past the closing quote. */ + } + else if (c == '$' && ((skipcmd && string[i+1] == LPAREN) || string[i+1] == LBRACE)) + { + si = i + 2; + if (string[si] == '\0') + CQ_RETURN(si); + + if (string[i+1] == LPAREN) + temp = extract_delimited_string (string, &si, "$(", "(", ")", SX_NOALLOC|SX_COMMAND); /* ) */ + else + temp = extract_dollar_brace_string (string, &si, 0, SX_NOALLOC); + i = si; + if (string[i] == '\0') /* don't increment i past EOS in loop */ + break; + i++; + continue; + } +#if defined (PROCESS_SUBSTITUTION) + else if (skipcmd && (c == '<' || c == '>') && string[i+1] == LPAREN) + { + si = i + 2; + if (string[si] == '\0') + CQ_RETURN(si); + temp = extract_process_subst (string, (c == '<') ? "<(" : ">(", &si); + free (temp); /* no SX_ALLOC here */ + i = si; + if (string[i] == '\0') + break; + i++; + continue; + } +#endif /* PROCESS_SUBSTITUTION */ +#if defined (EXTENDED_GLOB) + else if ((flags & SD_EXTGLOB) && extended_glob && string[i+1] == LPAREN && member (c, "?*+!@")) + { + si = i + 2; + if (string[si] == '\0') + CQ_RETURN(si); + + open[0] = c; + open[1] = LPAREN; + open[2] = '\0'; + temp = extract_delimited_string (string, &si, open, "(", ")", SX_NOALLOC); /* ) */ + + i = si; + if (string[i] == '\0') /* don't increment i past EOS in loop */ + break; + i++; + continue; + } +#endif + else if ((skipquote || invert) && (member (c, delims) == 0)) + break; + else + ADVANCE_CHAR (string, slen, i); + } + + CQ_RETURN(i); +} + +#if defined (READLINE) +/* Return 1 if the portion of STRING ending at EINDEX is quoted (there is + an unclosed quoted string), or if the character at EINDEX is quoted + by a backslash. NO_LONGJMP_ON_FATAL_ERROR is used to flag that the various + single and double-quoted string parsing functions should not return an + error if there are unclosed quotes or braces. The characters that this + recognizes need to be the same as the contents of + rl_completer_quote_characters. */ + +int +char_is_quoted (string, eindex) + char *string; + int eindex; +{ + int i, pass_next, c; + size_t slen; + DECLARE_MBSTATE; + + slen = strlen (string); + no_longjmp_on_fatal_error = 1; + i = pass_next = 0; + while (i <= eindex) + { + c = string[i]; + + if (pass_next) + { + pass_next = 0; + if (i >= eindex) /* XXX was if (i >= eindex - 1) */ + CQ_RETURN(1); + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (c == '\\') + { + pass_next = 1; + i++; + continue; + } + else if (c == '\'' || c == '"') + { + i = (c == '\'') ? skip_single_quoted (string, slen, ++i) + : skip_double_quoted (string, slen, ++i); + if (i > eindex) + CQ_RETURN(1); + /* no increment, the skip_xxx functions go one past end */ + } + else + ADVANCE_CHAR (string, slen, i); + } + + CQ_RETURN(0); +} + +int +unclosed_pair (string, eindex, openstr) + char *string; + int eindex; + char *openstr; +{ + int i, pass_next, openc, olen; + size_t slen; + DECLARE_MBSTATE; + + slen = strlen (string); + olen = strlen (openstr); + i = pass_next = openc = 0; + while (i <= eindex) + { + if (pass_next) + { + pass_next = 0; + if (i >= eindex) /* XXX was if (i >= eindex - 1) */ + return 0; + ADVANCE_CHAR (string, slen, i); + continue; + } + else if (string[i] == '\\') + { + pass_next = 1; + i++; + continue; + } + else if (STREQN (string + i, openstr, olen)) + { + openc = 1 - openc; + i += olen; + } + else if (string[i] == '\'' || string[i] == '"') + { + i = (string[i] == '\'') ? skip_single_quoted (string, slen, i) + : skip_double_quoted (string, slen, i); + if (i > eindex) + return 0; + } + else + ADVANCE_CHAR (string, slen, i); + } + return (openc); +} + +/* Split STRING (length SLEN) at DELIMS, and return a WORD_LIST with the + individual words. If DELIMS is NULL, the current value of $IFS is used + to split the string, and the function follows the shell field splitting + rules. SENTINEL is an index to look for. NWP, if non-NULL, + gets the number of words in the returned list. CWP, if non-NULL, gets + the index of the word containing SENTINEL. Non-whitespace chars in + DELIMS delimit separate fields. */ +WORD_LIST * +split_at_delims (string, slen, delims, sentinel, flags, nwp, cwp) + char *string; + int slen; + char *delims; + int sentinel, flags; + int *nwp, *cwp; +{ + int ts, te, i, nw, cw, ifs_split, dflags; + char *token, *d, *d2; + WORD_LIST *ret, *tl; + + if (string == 0 || *string == '\0') + { + if (nwp) + *nwp = 0; + if (cwp) + *cwp = 0; + return ((WORD_LIST *)NULL); + } + + d = (delims == 0) ? ifs_value : delims; + ifs_split = delims == 0; + + /* Make d2 the non-whitespace characters in delims */ + d2 = 0; + if (delims) + { + size_t slength; +#if defined (HANDLE_MULTIBYTE) + size_t mblength = 1; +#endif + DECLARE_MBSTATE; + + slength = strlen (delims); + d2 = (char *)xmalloc (slength + 1); + i = ts = 0; + while (delims[i]) + { +#if defined (HANDLE_MULTIBYTE) + mbstate_t state_bak; + state_bak = state; + mblength = MBRLEN (delims + i, slength, &state); + if (MB_INVALIDCH (mblength)) + state = state_bak; + else if (mblength > 1) + { + memcpy (d2 + ts, delims + i, mblength); + ts += mblength; + i += mblength; + slength -= mblength; + continue; + } +#endif + if (whitespace (delims[i]) == 0) + d2[ts++] = delims[i]; + + i++; + slength--; + } + d2[ts] = '\0'; + } + + ret = (WORD_LIST *)NULL; + + /* Remove sequences of whitespace characters at the start of the string, as + long as those characters are delimiters. */ + for (i = 0; member (string[i], d) && spctabnl (string[i]); i++) + ; + if (string[i] == '\0') + return (ret); + + ts = i; + nw = 0; + cw = -1; + dflags = flags|SD_NOJMP; + while (1) + { + te = skip_to_delim (string, ts, d, dflags); + + /* If we have a non-whitespace delimiter character, use it to make a + separate field. This is just about what $IFS splitting does and + is closer to the behavior of the shell parser. */ + if (ts == te && d2 && member (string[ts], d2)) + { + te = ts + 1; + /* If we're using IFS splitting, the non-whitespace delimiter char + and any additional IFS whitespace delimits a field. */ + if (ifs_split) + while (member (string[te], d) && spctabnl (string[te])) + te++; + else + while (member (string[te], d2)) + te++; + } + + token = substring (string, ts, te); + + ret = add_string_to_list (token, ret); + free (token); + nw++; + + if (sentinel >= ts && sentinel <= te) + cw = nw; + + /* If the cursor is at whitespace just before word start, set the + sentinel word to the current word. */ + if (cwp && cw == -1 && sentinel == ts-1) + cw = nw; + + /* If the cursor is at whitespace between two words, make a new, empty + word, add it before (well, after, since the list is in reverse order) + the word we just added, and set the current word to that one. */ + if (cwp && cw == -1 && sentinel < ts) + { + tl = make_word_list (make_word (""), ret->next); + ret->next = tl; + cw = nw; + nw++; + } + + if (string[te] == 0) + break; + + i = te; + while (member (string[i], d) && (ifs_split || spctabnl(string[i]))) + i++; + + if (string[i]) + ts = i; + else + break; + } + + /* Special case for SENTINEL at the end of STRING. If we haven't found + the word containing SENTINEL yet, and the index we're looking for is at + the end of STRING (or past the end of the previously-found token, + possible if the end of the line is composed solely of IFS whitespace) + add an additional null argument and set the current word pointer to that. */ + if (cwp && cw == -1 && (sentinel >= slen || sentinel >= te)) + { + if (whitespace (string[sentinel - 1])) + { + token = ""; + ret = add_string_to_list (token, ret); + nw++; + } + cw = nw; + } + + if (nwp) + *nwp = nw; + if (cwp) + *cwp = cw; + + FREE (d2); + + return (REVERSE_LIST (ret, WORD_LIST *)); +} +#endif /* READLINE */ + +#if 0 +/* UNUSED */ +/* Extract the name of the variable to bind to from the assignment string. */ +char * +assignment_name (string) + char *string; +{ + int offset; + char *temp; + + offset = assignment (string, 0); + if (offset == 0) + return (char *)NULL; + temp = substring (string, 0, offset); + return (temp); +} +#endif + +/* **************************************************************** */ +/* */ +/* Functions to convert strings to WORD_LISTs and vice versa */ +/* */ +/* **************************************************************** */ + +/* Return a single string of all the words in LIST. SEP is the separator + to put between individual elements of LIST in the output string. */ +char * +string_list_internal (list, sep) + WORD_LIST *list; + char *sep; +{ + register WORD_LIST *t; + char *result, *r; + int word_len, sep_len, result_size; + + if (list == 0) + return ((char *)NULL); + + /* Short-circuit quickly if we don't need to separate anything. */ + if (list->next == 0) + return (savestring (list->word->word)); + + /* This is nearly always called with either sep[0] == 0 or sep[1] == 0. */ + sep_len = STRLEN (sep); + result_size = 0; + + for (t = list; t; t = t->next) + { + if (t != list) + result_size += sep_len; + result_size += strlen (t->word->word); + } + + r = result = (char *)xmalloc (result_size + 1); + + for (t = list; t; t = t->next) + { + if (t != list && sep_len) + { + if (sep_len > 1) + { + FASTCOPY (sep, r, sep_len); + r += sep_len; + } + else + *r++ = sep[0]; + } + + word_len = strlen (t->word->word); + FASTCOPY (t->word->word, r, word_len); + r += word_len; + } + + *r = '\0'; + return (result); +} + +/* Return a single string of all the words present in LIST, separating + each word with a space. */ +char * +string_list (list) + WORD_LIST *list; +{ + return (string_list_internal (list, " ")); +} + +/* An external interface that can be used by the rest of the shell to + obtain a string containing the first character in $IFS. Handles all + the multibyte complications. If LENP is non-null, it is set to the + length of the returned string. */ +char * +ifs_firstchar (lenp) + int *lenp; +{ + char *ret; + int len; + + ret = xmalloc (MB_LEN_MAX + 1); +#if defined (HANDLE_MULTIBYTE) + if (ifs_firstc_len == 1) + { + ret[0] = ifs_firstc[0]; + ret[1] = '\0'; + len = ret[0] ? 1 : 0; + } + else + { + memcpy (ret, ifs_firstc, ifs_firstc_len); + ret[len = ifs_firstc_len] = '\0'; + } +#else + ret[0] = ifs_firstc; + ret[1] = '\0'; + len = ret[0] ? 0 : 1; +#endif + + if (lenp) + *lenp = len; + + return ret; +} + +/* Return a single string of all the words present in LIST, obeying the + quoting rules for "$*", to wit: (P1003.2, draft 11, 3.5.2) "If the + expansion [of $*] appears within a double quoted string, it expands + to a single field with the value of each parameter separated by the + first character of the IFS variable, or by a if IFS is unset." */ +char * +string_list_dollar_star (list) + WORD_LIST *list; +{ + char *ret; +#if defined (HANDLE_MULTIBYTE) +# if defined (__GNUC__) + char sep[MB_CUR_MAX + 1]; +# else + char *sep = 0; +# endif +#else + char sep[2]; +#endif + +#if defined (HANDLE_MULTIBYTE) +# if !defined (__GNUC__) + sep = (char *)xmalloc (MB_CUR_MAX + 1); +# endif /* !__GNUC__ */ + if (ifs_firstc_len == 1) + { + sep[0] = ifs_firstc[0]; + sep[1] = '\0'; + } + else + { + memcpy (sep, ifs_firstc, ifs_firstc_len); + sep[ifs_firstc_len] = '\0'; + } +#else + sep[0] = ifs_firstc; + sep[1] = '\0'; +#endif + + ret = string_list_internal (list, sep); +#if defined (HANDLE_MULTIBYTE) && !defined (__GNUC__) + free (sep); +#endif + return ret; +} + +/* Turn $@ into a string. If (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + is non-zero, the $@ appears within double quotes, and we should quote + the list before converting it into a string. If IFS is unset, and the + word is not quoted, we just need to quote CTLESC and CTLNUL characters + in the words in the list, because the default value of $IFS is + , IFS characters in the words in the list should + also be split. If IFS is null, and the word is not quoted, we need + to quote the words in the list to preserve the positional parameters + exactly. */ +char * +string_list_dollar_at (list, quoted) + WORD_LIST *list; + int quoted; +{ + char *ifs, *ret; +#if defined (HANDLE_MULTIBYTE) +# if defined (__GNUC__) + char sep[MB_CUR_MAX + 1]; +# else + char *sep = 0; +# endif /* !__GNUC__ */ +#else + char sep[2]; +#endif + WORD_LIST *tlist; + + /* XXX this could just be ifs = ifs_value; */ + ifs = ifs_var ? value_cell (ifs_var) : (char *)0; + +#if defined (HANDLE_MULTIBYTE) +# if !defined (__GNUC__) + sep = (char *)xmalloc (MB_CUR_MAX + 1); +# endif /* !__GNUC__ */ + if (ifs && *ifs) + { + if (ifs_firstc_len == 1) + { + sep[0] = ifs_firstc[0]; + sep[1] = '\0'; + } + else + { + memcpy (sep, ifs_firstc, ifs_firstc_len); + sep[ifs_firstc_len] = '\0'; + } + } + else + { + sep[0] = ' '; + sep[1] = '\0'; + } +#else + sep[0] = (ifs == 0 || *ifs == 0) ? ' ' : *ifs; + sep[1] = '\0'; +#endif + + /* XXX -- why call quote_list if ifs == 0? we can get away without doing + it now that quote_escapes quotes spaces */ + tlist = (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES|Q_PATQUOTE)) + ? quote_list (list) + : list_quote_escapes (list); + + ret = string_list_internal (tlist, sep); +#if defined (HANDLE_MULTIBYTE) && !defined (__GNUC__) + free (sep); +#endif + return ret; +} + +/* Turn the positional paramters into a string, understanding quoting and + the various subtleties of using the first character of $IFS as the + separator. Calls string_list_dollar_at, string_list_dollar_star, and + string_list as appropriate. */ +char * +string_list_pos_params (pchar, list, quoted) + int pchar; + WORD_LIST *list; + int quoted; +{ + char *ret; + WORD_LIST *tlist; + + if (pchar == '*' && (quoted & Q_DOUBLE_QUOTES)) + { + tlist = quote_list (list); + word_list_remove_quoted_nulls (tlist); + ret = string_list_dollar_star (tlist); + } + else if (pchar == '*' && (quoted & Q_HERE_DOCUMENT)) + { + tlist = quote_list (list); + word_list_remove_quoted_nulls (tlist); + ret = string_list (tlist); + } + else if (pchar == '*') + { + /* Even when unquoted, string_list_dollar_star does the right thing + making sure that the first character of $IFS is used as the + separator. */ + ret = string_list_dollar_star (list); + } + else if (pchar == '@' && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + /* We use string_list_dollar_at, but only if the string is quoted, since + that quotes the escapes if it's not, which we don't want. We could + use string_list (the old code did), but that doesn't do the right + thing if the first character of $IFS is not a space. We use + string_list_dollar_star if the string is unquoted so we make sure that + the elements of $@ are separated by the first character of $IFS for + later splitting. */ + ret = string_list_dollar_at (list, quoted); + else if (pchar == '@') + ret = string_list_dollar_star (list); + else + ret = string_list ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) ? quote_list (list) : list); + + return ret; +} + +/* Return the list of words present in STRING. Separate the string into + words at any of the characters found in SEPARATORS. If QUOTED is + non-zero then word in the list will have its quoted flag set, otherwise + the quoted flag is left as make_word () deemed fit. + + This obeys the P1003.2 word splitting semantics. If `separators' is + exactly , then the splitting algorithm is that of + the Bourne shell, which treats any sequence of characters from `separators' + as a delimiter. If IFS is unset, which results in `separators' being set + to "", no splitting occurs. If separators has some other value, the + following rules are applied (`IFS white space' means zero or more + occurrences of , , or , as long as those characters + are in `separators'): + + 1) IFS white space is ignored at the start and the end of the + string. + 2) Each occurrence of a character in `separators' that is not + IFS white space, along with any adjacent occurrences of + IFS white space delimits a field. + 3) Any nonzero-length sequence of IFS white space delimits a field. + */ + +/* BEWARE! list_string strips null arguments. Don't call it twice and + expect to have "" preserved! */ + +/* This performs word splitting and quoted null character removal on + STRING. */ +#define issep(c) \ + (((separators)[0]) ? ((separators)[1] ? isifs(c) \ + : (c) == (separators)[0]) \ + : 0) + +WORD_LIST * +list_string (string, separators, quoted) + register char *string, *separators; + int quoted; +{ + WORD_LIST *result; + WORD_DESC *t; + char *current_word, *s; + int sindex, sh_style_split, whitesep, xflags; + size_t slen; + + if (!string || !*string) + return ((WORD_LIST *)NULL); + + sh_style_split = separators && separators[0] == ' ' && + separators[1] == '\t' && + separators[2] == '\n' && + separators[3] == '\0'; + for (xflags = 0, s = ifs_value; s && *s; s++) + { + if (*s == CTLESC) xflags |= SX_NOCTLESC; + else if (*s == CTLNUL) xflags |= SX_NOESCCTLNUL; + } + + slen = 0; + /* Remove sequences of whitespace at the beginning of STRING, as + long as those characters appear in IFS. Do not do this if + STRING is quoted or if there are no separator characters. */ + if (!quoted || !separators || !*separators) + { + for (s = string; *s && spctabnl (*s) && issep (*s); s++); + + if (!*s) + return ((WORD_LIST *)NULL); + + string = s; + } + + /* OK, now STRING points to a word that does not begin with white space. + The splitting algorithm is: + extract a word, stopping at a separator + skip sequences of spc, tab, or nl as long as they are separators + This obeys the field splitting rules in Posix.2. */ + slen = (MB_CUR_MAX > 1) ? strlen (string) : 1; + for (result = (WORD_LIST *)NULL, sindex = 0; string[sindex]; ) + { + /* Don't need string length in ADVANCE_CHAR or string_extract_verbatim + unless multibyte chars are possible. */ + current_word = string_extract_verbatim (string, slen, &sindex, separators, xflags); + if (current_word == 0) + break; + + /* If we have a quoted empty string, add a quoted null argument. We + want to preserve the quoted null character iff this is a quoted + empty string; otherwise the quoted null characters are removed + below. */ + if (QUOTED_NULL (current_word)) + { + t = alloc_word_desc (); + t->word = make_quoted_char ('\0'); + t->flags |= W_QUOTED|W_HASQUOTEDNULL; + result = make_word_list (t, result); + } + else if (current_word[0] != '\0') + { + /* If we have something, then add it regardless. However, + perform quoted null character removal on the current word. */ + remove_quoted_nulls (current_word); + result = add_string_to_list (current_word, result); + result->word->flags &= ~W_HASQUOTEDNULL; /* just to be sure */ + if (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) + result->word->flags |= W_QUOTED; + } + + /* If we're not doing sequences of separators in the traditional + Bourne shell style, then add a quoted null argument. */ + else if (!sh_style_split && !spctabnl (string[sindex])) + { + t = alloc_word_desc (); + t->word = make_quoted_char ('\0'); + t->flags |= W_QUOTED|W_HASQUOTEDNULL; + result = make_word_list (t, result); + } + + free (current_word); + + /* Note whether or not the separator is IFS whitespace, used later. */ + whitesep = string[sindex] && spctabnl (string[sindex]); + + /* Move past the current separator character. */ + if (string[sindex]) + { + DECLARE_MBSTATE; + ADVANCE_CHAR (string, slen, sindex); + } + + /* Now skip sequences of space, tab, or newline characters if they are + in the list of separators. */ + while (string[sindex] && spctabnl (string[sindex]) && issep (string[sindex])) + sindex++; + + /* If the first separator was IFS whitespace and the current character + is a non-whitespace IFS character, it should be part of the current + field delimiter, not a separate delimiter that would result in an + empty field. Look at POSIX.2, 3.6.5, (3)(b). */ + if (string[sindex] && whitesep && issep (string[sindex]) && !spctabnl (string[sindex])) + { + sindex++; + /* An IFS character that is not IFS white space, along with any + adjacent IFS white space, shall delimit a field. (SUSv3) */ + while (string[sindex] && spctabnl (string[sindex]) && isifs (string[sindex])) + sindex++; + } + } + return (REVERSE_LIST (result, WORD_LIST *)); +} + +/* Parse a single word from STRING, using SEPARATORS to separate fields. + ENDPTR is set to the first character after the word. This is used by + the `read' builtin. This is never called with SEPARATORS != $IFS; + it should be simplified. + + XXX - this function is very similar to list_string; they should be + combined - XXX */ +char * +get_word_from_string (stringp, separators, endptr) + char **stringp, *separators, **endptr; +{ + register char *s; + char *current_word; + int sindex, sh_style_split, whitesep, xflags; + size_t slen; + + if (!stringp || !*stringp || !**stringp) + return ((char *)NULL); + + sh_style_split = separators && separators[0] == ' ' && + separators[1] == '\t' && + separators[2] == '\n' && + separators[3] == '\0'; + for (xflags = 0, s = ifs_value; s && *s; s++) + { + if (*s == CTLESC) xflags |= SX_NOCTLESC; + if (*s == CTLNUL) xflags |= SX_NOESCCTLNUL; + } + + s = *stringp; + slen = 0; + + /* Remove sequences of whitespace at the beginning of STRING, as + long as those characters appear in IFS. */ + if (sh_style_split || !separators || !*separators) + { + for (; *s && spctabnl (*s) && isifs (*s); s++); + + /* If the string is nothing but whitespace, update it and return. */ + if (!*s) + { + *stringp = s; + if (endptr) + *endptr = s; + return ((char *)NULL); + } + } + + /* OK, S points to a word that does not begin with white space. + Now extract a word, stopping at a separator, save a pointer to + the first character after the word, then skip sequences of spc, + tab, or nl as long as they are separators. + + This obeys the field splitting rules in Posix.2. */ + sindex = 0; + /* Don't need string length in ADVANCE_CHAR or string_extract_verbatim + unless multibyte chars are possible. */ + slen = (MB_CUR_MAX > 1) ? strlen (s) : 1; + current_word = string_extract_verbatim (s, slen, &sindex, separators, xflags); + + /* Set ENDPTR to the first character after the end of the word. */ + if (endptr) + *endptr = s + sindex; + + /* Note whether or not the separator is IFS whitespace, used later. */ + whitesep = s[sindex] && spctabnl (s[sindex]); + + /* Move past the current separator character. */ + if (s[sindex]) + { + DECLARE_MBSTATE; + ADVANCE_CHAR (s, slen, sindex); + } + + /* Now skip sequences of space, tab, or newline characters if they are + in the list of separators. */ + while (s[sindex] && spctabnl (s[sindex]) && isifs (s[sindex])) + sindex++; + + /* If the first separator was IFS whitespace and the current character is + a non-whitespace IFS character, it should be part of the current field + delimiter, not a separate delimiter that would result in an empty field. + Look at POSIX.2, 3.6.5, (3)(b). */ + if (s[sindex] && whitesep && isifs (s[sindex]) && !spctabnl (s[sindex])) + { + sindex++; + /* An IFS character that is not IFS white space, along with any adjacent + IFS white space, shall delimit a field. */ + while (s[sindex] && spctabnl (s[sindex]) && isifs (s[sindex])) + sindex++; + } + + /* Update STRING to point to the next field. */ + *stringp = s + sindex; + return (current_word); +} + +/* Remove IFS white space at the end of STRING. Start at the end + of the string and walk backwards until the beginning of the string + or we find a character that's not IFS white space and not CTLESC. + Only let CTLESC escape a white space character if SAW_ESCAPE is + non-zero. */ +char * +strip_trailing_ifs_whitespace (string, separators, saw_escape) + char *string, *separators; + int saw_escape; +{ + char *s; + + s = string + STRLEN (string) - 1; + while (s > string && ((spctabnl (*s) && isifs (*s)) || + (saw_escape && *s == CTLESC && spctabnl (s[1])))) + s--; + *++s = '\0'; + return string; +} + +#if 0 +/* UNUSED */ +/* Split STRING into words at whitespace. Obeys shell-style quoting with + backslashes, single and double quotes. */ +WORD_LIST * +list_string_with_quotes (string) + char *string; +{ + WORD_LIST *list; + char *token, *s; + size_t s_len; + int c, i, tokstart, len; + + for (s = string; s && *s && spctabnl (*s); s++) + ; + if (s == 0 || *s == 0) + return ((WORD_LIST *)NULL); + + s_len = strlen (s); + tokstart = i = 0; + list = (WORD_LIST *)NULL; + while (1) + { + c = s[i]; + if (c == '\\') + { + i++; + if (s[i]) + i++; + } + else if (c == '\'') + i = skip_single_quoted (s, s_len, ++i); + else if (c == '"') + i = skip_double_quoted (s, s_len, ++i); + else if (c == 0 || spctabnl (c)) + { + /* We have found the end of a token. Make a word out of it and + add it to the word list. */ + token = substring (s, tokstart, i); + list = add_string_to_list (token, list); + free (token); + while (spctabnl (s[i])) + i++; + if (s[i]) + tokstart = i; + else + break; + } + else + i++; /* normal character */ + } + return (REVERSE_LIST (list, WORD_LIST *)); +} +#endif + +/********************************************************/ +/* */ +/* Functions to perform assignment statements */ +/* */ +/********************************************************/ + +#if defined (ARRAY_VARS) +static SHELL_VAR * +do_compound_assignment (name, value, flags) + char *name, *value; + int flags; +{ + SHELL_VAR *v; + int mklocal, mkassoc, mkglobal; + WORD_LIST *list; + + mklocal = flags & ASS_MKLOCAL; + mkassoc = flags & ASS_MKASSOC; + mkglobal = flags & ASS_MKGLOBAL; + + if (mklocal && variable_context) + { + v = find_variable (name); + list = expand_compound_array_assignment (v, value, flags); + if (mkassoc) + v = make_local_assoc_variable (name); + else if (v == 0 || (array_p (v) == 0 && assoc_p (v) == 0) || v->context != variable_context) + v = make_local_array_variable (name, 0); + if (v) + assign_compound_array_list (v, list, flags); + } + /* In a function but forcing assignment in global context */ + else if (mkglobal && variable_context) + { + v = find_global_variable (name); + list = expand_compound_array_assignment (v, value, flags); + if (v == 0 && mkassoc) + v = make_new_assoc_variable (name); + else if (v && mkassoc && assoc_p (v) == 0) + v = convert_var_to_assoc (v); + else if (v == 0) + v = make_new_array_variable (name); + else if (v && mkassoc == 0 && array_p (v) == 0) + v = convert_var_to_array (v); + if (v) + assign_compound_array_list (v, list, flags); + } + else + v = assign_array_from_string (name, value, flags); + + return (v); +} +#endif + +/* Given STRING, an assignment string, get the value of the right side + of the `=', and bind it to the left side. If EXPAND is true, then + perform parameter expansion, command substitution, and arithmetic + expansion on the right-hand side. Perform tilde expansion in any + case. Do not perform word splitting on the result of expansion. */ +static int +do_assignment_internal (word, expand) + const WORD_DESC *word; + int expand; +{ + int offset, appendop, assign_list, aflags, retval; + char *name, *value, *temp; + SHELL_VAR *entry; +#if defined (ARRAY_VARS) + char *t; + int ni; +#endif + const char *string; + + if (word == 0 || word->word == 0) + return 0; + + appendop = assign_list = aflags = 0; + string = word->word; + offset = assignment (string, 0); + name = savestring (string); + value = (char *)NULL; + + if (name[offset] == '=') + { + if (name[offset - 1] == '+') + { + appendop = 1; + name[offset - 1] = '\0'; + } + + name[offset] = 0; /* might need this set later */ + temp = name + offset + 1; + +#if defined (ARRAY_VARS) + if (expand && (word->flags & W_COMPASSIGN)) + { + assign_list = ni = 1; + value = extract_array_assignment_list (temp, &ni); + } + else +#endif + if (expand && temp[0]) + value = expand_string_if_necessary (temp, 0, expand_string_assignment); + else + value = savestring (temp); + } + + if (value == 0) + { + value = (char *)xmalloc (1); + value[0] = '\0'; + } + + if (echo_command_at_execute) + { + if (appendop) + name[offset - 1] = '+'; + xtrace_print_assignment (name, value, assign_list, 1); + if (appendop) + name[offset - 1] = '\0'; + } + +#define ASSIGN_RETURN(r) do { FREE (value); free (name); return (r); } while (0) + + if (appendop) + aflags |= ASS_APPEND; + +#if defined (ARRAY_VARS) + if (t = mbschr (name, '[')) /*]*/ + { + if (assign_list) + { + report_error (_("%s: cannot assign list to array member"), name); + ASSIGN_RETURN (0); + } + entry = assign_array_element (name, value, aflags); + if (entry == 0) + ASSIGN_RETURN (0); + } + else if (assign_list) + { + if ((word->flags & W_ASSIGNARG) && (word->flags & W_ASSNGLOBAL) == 0) + aflags |= ASS_MKLOCAL; + if ((word->flags & W_ASSIGNARG) && (word->flags & W_ASSNGLOBAL)) + aflags |= ASS_MKGLOBAL; + if (word->flags & W_ASSIGNASSOC) + aflags |= ASS_MKASSOC; + entry = do_compound_assignment (name, value, aflags); + } + else +#endif /* ARRAY_VARS */ + entry = bind_variable (name, value, aflags); + + stupidly_hack_special_variables (name); + + /* Return 1 if the assignment seems to have been performed correctly. */ + if (entry == 0 || readonly_p (entry)) + retval = 0; /* assignment failure */ + else if (noassign_p (entry)) + { + last_command_exit_value = EXECUTION_FAILURE; + retval = 1; /* error status, but not assignment failure */ + } + else + retval = 1; + + if (entry && retval != 0 && noassign_p (entry) == 0) + VUNSETATTR (entry, att_invisible); + + ASSIGN_RETURN (retval); +} + +/* Perform the assignment statement in STRING, and expand the + right side by doing tilde, command and parameter expansion. */ +int +do_assignment (string) + char *string; +{ + WORD_DESC td; + + td.flags = W_ASSIGNMENT; + td.word = string; + + return do_assignment_internal (&td, 1); +} + +int +do_word_assignment (word, flags) + WORD_DESC *word; + int flags; +{ + return do_assignment_internal (word, 1); +} + +/* Given STRING, an assignment string, get the value of the right side + of the `=', and bind it to the left side. Do not perform any word + expansions on the right hand side. */ +int +do_assignment_no_expand (string) + char *string; +{ + WORD_DESC td; + + td.flags = W_ASSIGNMENT; + td.word = string; + + return (do_assignment_internal (&td, 0)); +} + +/*************************************************** + * * + * Functions to manage the positional parameters * + * * + ***************************************************/ + +/* Return the word list that corresponds to `$*'. */ +WORD_LIST * +list_rest_of_args () +{ + register WORD_LIST *list, *args; + int i; + + /* Break out of the loop as soon as one of the dollar variables is null. */ + for (i = 1, list = (WORD_LIST *)NULL; i < 10 && dollar_vars[i]; i++) + list = make_word_list (make_bare_word (dollar_vars[i]), list); + + for (args = rest_of_args; args; args = args->next) + list = make_word_list (make_bare_word (args->word->word), list); + + return (REVERSE_LIST (list, WORD_LIST *)); +} + +int +number_of_args () +{ + register WORD_LIST *list; + int n; + + for (n = 0; n < 9 && dollar_vars[n+1]; n++) + ; + for (list = rest_of_args; list; list = list->next) + n++; + return n; +} + +/* Return the value of a positional parameter. This handles values > 10. */ +char * +get_dollar_var_value (ind) + intmax_t ind; +{ + char *temp; + WORD_LIST *p; + + if (ind < 10) + temp = dollar_vars[ind] ? savestring (dollar_vars[ind]) : (char *)NULL; + else /* We want something like ${11} */ + { + ind -= 10; + for (p = rest_of_args; p && ind--; p = p->next) + ; + temp = p ? savestring (p->word->word) : (char *)NULL; + } + return (temp); +} + +/* Make a single large string out of the dollar digit variables, + and the rest_of_args. If DOLLAR_STAR is 1, then obey the special + case of "$*" with respect to IFS. */ +char * +string_rest_of_args (dollar_star) + int dollar_star; +{ + register WORD_LIST *list; + char *string; + + list = list_rest_of_args (); + string = dollar_star ? string_list_dollar_star (list) : string_list (list); + dispose_words (list); + return (string); +} + +/* Return a string containing the positional parameters from START to + END, inclusive. If STRING[0] == '*', we obey the rules for $*, + which only makes a difference if QUOTED is non-zero. If QUOTED includes + Q_HERE_DOCUMENT or Q_DOUBLE_QUOTES, this returns a quoted list, otherwise + no quoting chars are added. */ +static char * +pos_params (string, start, end, quoted) + char *string; + int start, end, quoted; +{ + WORD_LIST *save, *params, *h, *t; + char *ret; + int i; + + /* see if we can short-circuit. if start == end, we want 0 parameters. */ + if (start == end) + return ((char *)NULL); + + save = params = list_rest_of_args (); + if (save == 0) + return ((char *)NULL); + + if (start == 0) /* handle ${@:0[:x]} specially */ + { + t = make_word_list (make_word (dollar_vars[0]), params); + save = params = t; + } + + for (i = start ? 1 : 0; params && i < start; i++) + params = params->next; + if (params == 0) + return ((char *)NULL); + for (h = t = params; params && i < end; i++) + { + t = params; + params = params->next; + } + + t->next = (WORD_LIST *)NULL; + + ret = string_list_pos_params (string[0], h, quoted); + + if (t != params) + t->next = params; + + dispose_words (save); + return (ret); +} + +/******************************************************************/ +/* */ +/* Functions to expand strings to strings or WORD_LISTs */ +/* */ +/******************************************************************/ + +#if defined (PROCESS_SUBSTITUTION) +#define EXP_CHAR(s) (s == '$' || s == '`' || s == '<' || s == '>' || s == CTLESC || s == '~') +#else +#define EXP_CHAR(s) (s == '$' || s == '`' || s == CTLESC || s == '~') +#endif + +/* If there are any characters in STRING that require full expansion, + then call FUNC to expand STRING; otherwise just perform quote + removal if necessary. This returns a new string. */ +static char * +expand_string_if_necessary (string, quoted, func) + char *string; + int quoted; + EXPFUNC *func; +{ + WORD_LIST *list; + size_t slen; + int i, saw_quote; + char *ret; + DECLARE_MBSTATE; + + /* Don't need string length for ADVANCE_CHAR unless multibyte chars possible. */ + slen = (MB_CUR_MAX > 1) ? strlen (string) : 0; + i = saw_quote = 0; + while (string[i]) + { + if (EXP_CHAR (string[i])) + break; + else if (string[i] == '\'' || string[i] == '\\' || string[i] == '"') + saw_quote = 1; + ADVANCE_CHAR (string, slen, i); + } + + if (string[i]) + { + list = (*func) (string, quoted); + if (list) + { + ret = string_list (list); + dispose_words (list); + } + else + ret = (char *)NULL; + } + else if (saw_quote && ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) == 0)) + ret = string_quote_removal (string, quoted); + else + ret = savestring (string); + + return ret; +} + +static inline char * +expand_string_to_string_internal (string, quoted, func) + char *string; + int quoted; + EXPFUNC *func; +{ + WORD_LIST *list; + char *ret; + + if (string == 0 || *string == '\0') + return ((char *)NULL); + + list = (*func) (string, quoted); + if (list) + { + ret = string_list (list); + dispose_words (list); + } + else + ret = (char *)NULL; + + return (ret); +} + +char * +expand_string_to_string (string, quoted) + char *string; + int quoted; +{ + return (expand_string_to_string_internal (string, quoted, expand_string)); +} + +char * +expand_string_unsplit_to_string (string, quoted) + char *string; + int quoted; +{ + return (expand_string_to_string_internal (string, quoted, expand_string_unsplit)); +} + +char * +expand_assignment_string_to_string (string, quoted) + char *string; + int quoted; +{ + return (expand_string_to_string_internal (string, quoted, expand_string_assignment)); +} + +char * +expand_arith_string (string, quoted) + char *string; + int quoted; +{ + WORD_DESC td; + WORD_LIST *list, *tlist; + size_t slen; + int i, saw_quote; + char *ret; + DECLARE_MBSTATE; + + /* Don't need string length for ADVANCE_CHAR unless multibyte chars possible. */ + slen = (MB_CUR_MAX > 1) ? strlen (string) : 0; + i = saw_quote = 0; + while (string[i]) + { + if (EXP_CHAR (string[i])) + break; + else if (string[i] == '\'' || string[i] == '\\' || string[i] == '"') + saw_quote = 1; + ADVANCE_CHAR (string, slen, i); + } + + if (string[i]) + { + /* This is expanded version of expand_string_internal as it's called by + expand_string_leave_quoted */ + td.flags = W_NOPROCSUB; /* don't want process substitution */ + td.word = savestring (string); + list = call_expand_word_internal (&td, quoted, 0, (int *)NULL, (int *)NULL); + /* This takes care of the calls from expand_string_leave_quoted and + expand_string */ + if (list) + { + tlist = word_list_split (list); + dispose_words (list); + list = tlist; + if (list) + dequote_list (list); + } + /* This comes from expand_string_if_necessary */ + if (list) + { + ret = string_list (list); + dispose_words (list); + } + else + ret = (char *)NULL; + FREE (td.word); + } + else if (saw_quote && ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) == 0)) + ret = string_quote_removal (string, quoted); + else + ret = savestring (string); + + return ret; +} + +#if defined (COND_COMMAND) +/* Just remove backslashes in STRING. Returns a new string. */ +char * +remove_backslashes (string) + char *string; +{ + char *r, *ret, *s; + + r = ret = (char *)xmalloc (strlen (string) + 1); + for (s = string; s && *s; ) + { + if (*s == '\\') + s++; + if (*s == 0) + break; + *r++ = *s++; + } + *r = '\0'; + return ret; +} + +/* This needs better error handling. */ +/* Expand W for use as an argument to a unary or binary operator in a + [[...]] expression. If SPECIAL is 1, this is the rhs argument + to the != or == operator, and should be treated as a pattern. In + this case, we quote the string specially for the globbing code. If + SPECIAL is 2, this is an rhs argument for the =~ operator, and should + be quoted appropriately for regcomp/regexec. The caller is responsible + for removing the backslashes if the unquoted word is needed later. */ +char * +cond_expand_word (w, special) + WORD_DESC *w; + int special; +{ + char *r, *p; + WORD_LIST *l; + int qflags; + + if (w->word == 0 || w->word[0] == '\0') + return ((char *)NULL); + + w->flags |= W_NOSPLIT2; + l = call_expand_word_internal (w, 0, 0, (int *)0, (int *)0); + if (l) + { + if (special == 0) + { + dequote_list (l); + r = string_list (l); + } + else + { + qflags = QGLOB_CVTNULL; + if (special == 2) + qflags |= QGLOB_REGEXP; + p = string_list (l); + r = quote_string_for_globbing (p, qflags); + free (p); + } + dispose_words (l); + } + else + r = (char *)NULL; + + return r; +} +#endif + +/* Call expand_word_internal to expand W and handle error returns. + A convenience function for functions that don't want to handle + any errors or free any memory before aborting. */ +static WORD_LIST * +call_expand_word_internal (w, q, i, c, e) + WORD_DESC *w; + int q, i, *c, *e; +{ + WORD_LIST *result; + + result = expand_word_internal (w, q, i, c, e); + if (result == &expand_word_error || result == &expand_word_fatal) + { + /* By convention, each time this error is returned, w->word has + already been freed (it sometimes may not be in the fatal case, + but that doesn't result in a memory leak because we're going + to exit in most cases). */ + w->word = (char *)NULL; + last_command_exit_value = EXECUTION_FAILURE; + exp_jump_to_top_level ((result == &expand_word_error) ? DISCARD : FORCE_EOF); + /* NOTREACHED */ + return (NULL); + } + else + return (result); +} + +/* Perform parameter expansion, command substitution, and arithmetic + expansion on STRING, as if it were a word. Leave the result quoted. + Since this does not perform word splitting, it leaves quoted nulls + in the result. */ +static WORD_LIST * +expand_string_internal (string, quoted) + char *string; + int quoted; +{ + WORD_DESC td; + WORD_LIST *tresult; + + if (string == 0 || *string == 0) + return ((WORD_LIST *)NULL); + + td.flags = 0; + td.word = savestring (string); + + tresult = call_expand_word_internal (&td, quoted, 0, (int *)NULL, (int *)NULL); + + FREE (td.word); + return (tresult); +} + +/* Expand STRING by performing parameter expansion, command substitution, + and arithmetic expansion. Dequote the resulting WORD_LIST before + returning it, but do not perform word splitting. The call to + remove_quoted_nulls () is in here because word splitting normally + takes care of quote removal. */ +WORD_LIST * +expand_string_unsplit (string, quoted) + char *string; + int quoted; +{ + WORD_LIST *value; + + if (string == 0 || *string == '\0') + return ((WORD_LIST *)NULL); + + expand_no_split_dollar_star = 1; + value = expand_string_internal (string, quoted); + expand_no_split_dollar_star = 0; + + if (value) + { + if (value->word) + { + remove_quoted_nulls (value->word->word); + value->word->flags &= ~W_HASQUOTEDNULL; + } + dequote_list (value); + } + return (value); +} + +/* Expand the rhs of an assignment statement */ +WORD_LIST * +expand_string_assignment (string, quoted) + char *string; + int quoted; +{ + WORD_DESC td; + WORD_LIST *value; + + if (string == 0 || *string == '\0') + return ((WORD_LIST *)NULL); + + expand_no_split_dollar_star = 1; + + td.flags = W_ASSIGNRHS; + td.word = savestring (string); + value = call_expand_word_internal (&td, quoted, 0, (int *)NULL, (int *)NULL); + FREE (td.word); + + expand_no_split_dollar_star = 0; + + if (value) + { + if (value->word) + { + remove_quoted_nulls (value->word->word); + value->word->flags &= ~W_HASQUOTEDNULL; + } + dequote_list (value); + } + return (value); +} + + +/* Expand one of the PS? prompt strings. This is a sort of combination of + expand_string_unsplit and expand_string_internal, but returns the + passed string when an error occurs. Might want to trap other calls + to jump_to_top_level here so we don't endlessly loop. */ +WORD_LIST * +expand_prompt_string (string, quoted, wflags) + char *string; + int quoted; + int wflags; +{ + WORD_LIST *value; + WORD_DESC td; + + if (string == 0 || *string == 0) + return ((WORD_LIST *)NULL); + + td.flags = wflags; + td.word = savestring (string); + + no_longjmp_on_fatal_error = 1; + value = expand_word_internal (&td, quoted, 0, (int *)NULL, (int *)NULL); + no_longjmp_on_fatal_error = 0; + + if (value == &expand_word_error || value == &expand_word_fatal) + { + value = make_word_list (make_bare_word (string), (WORD_LIST *)NULL); + return value; + } + FREE (td.word); + if (value) + { + if (value->word) + { + remove_quoted_nulls (value->word->word); + value->word->flags &= ~W_HASQUOTEDNULL; + } + dequote_list (value); + } + return (value); +} + +/* Expand STRING just as if you were expanding a word, but do not dequote + the resultant WORD_LIST. This is called only from within this file, + and is used to correctly preserve quoted characters when expanding + things like ${1+"$@"}. This does parameter expansion, command + substitution, arithmetic expansion, and word splitting. */ +static WORD_LIST * +expand_string_leave_quoted (string, quoted) + char *string; + int quoted; +{ + WORD_LIST *tlist; + WORD_LIST *tresult; + + if (string == 0 || *string == '\0') + return ((WORD_LIST *)NULL); + + tlist = expand_string_internal (string, quoted); + + if (tlist) + { + tresult = word_list_split (tlist); + dispose_words (tlist); + return (tresult); + } + return ((WORD_LIST *)NULL); +} + +/* This does not perform word splitting or dequote the WORD_LIST + it returns. */ +static WORD_LIST * +expand_string_for_rhs (string, quoted, dollar_at_p, has_dollar_at) + char *string; + int quoted, *dollar_at_p, *has_dollar_at; +{ + WORD_DESC td; + WORD_LIST *tresult; + + if (string == 0 || *string == '\0') + return (WORD_LIST *)NULL; + + td.flags = W_NOSPLIT2; /* no splitting, remove "" and '' */ + td.word = string; + tresult = call_expand_word_internal (&td, quoted, 1, dollar_at_p, has_dollar_at); + return (tresult); +} + +/* Expand STRING just as if you were expanding a word. This also returns + a list of words. Note that filename globbing is *NOT* done for word + or string expansion, just when the shell is expanding a command. This + does parameter expansion, command substitution, arithmetic expansion, + and word splitting. Dequote the resultant WORD_LIST before returning. */ +WORD_LIST * +expand_string (string, quoted) + char *string; + int quoted; +{ + WORD_LIST *result; + + if (string == 0 || *string == '\0') + return ((WORD_LIST *)NULL); + + result = expand_string_leave_quoted (string, quoted); + return (result ? dequote_list (result) : result); +} + +/*************************************************** + * * + * Functions to handle quoting chars * + * * + ***************************************************/ + +/* Conventions: + + A string with s[0] == CTLNUL && s[1] == 0 is a quoted null string. + The parser passes CTLNUL as CTLESC CTLNUL. */ + +/* Quote escape characters in string s, but no other characters. This is + used to protect CTLESC and CTLNUL in variable values from the rest of + the word expansion process after the variable is expanded (word splitting + and filename generation). If IFS is null, we quote spaces as well, just + in case we split on spaces later (in the case of unquoted $@, we will + eventually attempt to split the entire word on spaces). Corresponding + code exists in dequote_escapes. Even if we don't end up splitting on + spaces, quoting spaces is not a problem. This should never be called on + a string that is quoted with single or double quotes or part of a here + document (effectively double-quoted). */ +char * +quote_escapes (string) + char *string; +{ + register char *s, *t; + size_t slen; + char *result, *send; + int quote_spaces, skip_ctlesc, skip_ctlnul; + DECLARE_MBSTATE; + + slen = strlen (string); + send = string + slen; + + quote_spaces = (ifs_value && *ifs_value == 0); + + for (skip_ctlesc = skip_ctlnul = 0, s = ifs_value; s && *s; s++) + skip_ctlesc |= *s == CTLESC, skip_ctlnul |= *s == CTLNUL; + + t = result = (char *)xmalloc ((slen * 2) + 1); + s = string; + + while (*s) + { + if ((skip_ctlesc == 0 && *s == CTLESC) || (skip_ctlnul == 0 && *s == CTLNUL) || (quote_spaces && *s == ' ')) + *t++ = CTLESC; + COPY_CHAR_P (t, s, send); + } + *t = '\0'; + return (result); +} + +static WORD_LIST * +list_quote_escapes (list) + WORD_LIST *list; +{ + register WORD_LIST *w; + char *t; + + for (w = list; w; w = w->next) + { + t = w->word->word; + w->word->word = quote_escapes (t); + free (t); + } + return list; +} + +/* Inverse of quote_escapes; remove CTLESC protecting CTLESC or CTLNUL. + + The parser passes us CTLESC as CTLESC CTLESC and CTLNUL as CTLESC CTLNUL. + This is necessary to make unquoted CTLESC and CTLNUL characters in the + data stream pass through properly. + + We need to remove doubled CTLESC characters inside quoted strings before + quoting the entire string, so we do not double the number of CTLESC + characters. + + Also used by parts of the pattern substitution code. */ +char * +dequote_escapes (string) + char *string; +{ + register char *s, *t, *s1; + size_t slen; + char *result, *send; + int quote_spaces; + DECLARE_MBSTATE; + + if (string == 0) + return string; + + slen = strlen (string); + send = string + slen; + + t = result = (char *)xmalloc (slen + 1); + + if (strchr (string, CTLESC) == 0) + return (strcpy (result, string)); + + quote_spaces = (ifs_value && *ifs_value == 0); + + s = string; + while (*s) + { + if (*s == CTLESC && (s[1] == CTLESC || s[1] == CTLNUL || (quote_spaces && s[1] == ' '))) + { + s++; + if (*s == '\0') + break; + } + COPY_CHAR_P (t, s, send); + } + *t = '\0'; + return result; +} + +/* Return a new string with the quoted representation of character C. + This turns "" into QUOTED_NULL, so the W_HASQUOTEDNULL flag needs to be + set in any resultant WORD_DESC where this value is the word. */ +static char * +make_quoted_char (c) + int c; +{ + char *temp; + + temp = (char *)xmalloc (3); + if (c == 0) + { + temp[0] = CTLNUL; + temp[1] = '\0'; + } + else + { + temp[0] = CTLESC; + temp[1] = c; + temp[2] = '\0'; + } + return (temp); +} + +/* Quote STRING, returning a new string. This turns "" into QUOTED_NULL, so + the W_HASQUOTEDNULL flag needs to be set in any resultant WORD_DESC where + this value is the word. */ +char * +quote_string (string) + char *string; +{ + register char *t; + size_t slen; + char *result, *send; + + if (*string == 0) + { + result = (char *)xmalloc (2); + result[0] = CTLNUL; + result[1] = '\0'; + } + else + { + DECLARE_MBSTATE; + + slen = strlen (string); + send = string + slen; + + result = (char *)xmalloc ((slen * 2) + 1); + + for (t = result; string < send; ) + { + *t++ = CTLESC; + COPY_CHAR_P (t, string, send); + } + *t = '\0'; + } + return (result); +} + +/* De-quote quoted characters in STRING. */ +char * +dequote_string (string) + char *string; +{ + register char *s, *t; + size_t slen; + char *result, *send; + DECLARE_MBSTATE; + + slen = strlen (string); + + t = result = (char *)xmalloc (slen + 1); + + if (QUOTED_NULL (string)) + { + result[0] = '\0'; + return (result); + } + + /* If no character in the string can be quoted, don't bother examining + each character. Just return a copy of the string passed to us. */ + if (strchr (string, CTLESC) == NULL) + return (strcpy (result, string)); + + send = string + slen; + s = string; + while (*s) + { + if (*s == CTLESC) + { + s++; + if (*s == '\0') + break; + } + COPY_CHAR_P (t, s, send); + } + + *t = '\0'; + return (result); +} + +/* Quote the entire WORD_LIST list. */ +static WORD_LIST * +quote_list (list) + WORD_LIST *list; +{ + register WORD_LIST *w; + char *t; + + for (w = list; w; w = w->next) + { + t = w->word->word; + w->word->word = quote_string (t); + if (*t == 0) + w->word->flags |= W_HASQUOTEDNULL; /* XXX - turn on W_HASQUOTEDNULL here? */ + w->word->flags |= W_QUOTED; + free (t); + } + return list; +} + +/* De-quote quoted characters in each word in LIST. */ +WORD_LIST * +dequote_list (list) + WORD_LIST *list; +{ + register char *s; + register WORD_LIST *tlist; + + for (tlist = list; tlist; tlist = tlist->next) + { + s = dequote_string (tlist->word->word); + if (QUOTED_NULL (tlist->word->word)) + tlist->word->flags &= ~W_HASQUOTEDNULL; + free (tlist->word->word); + tlist->word->word = s; + } + return list; +} + +/* Remove CTLESC protecting a CTLESC or CTLNUL in place. Return the passed + string. */ +char * +remove_quoted_escapes (string) + char *string; +{ + char *t; + + if (string) + { + t = dequote_escapes (string); + strcpy (string, t); + free (t); + } + + return (string); +} + +/* Perform quoted null character removal on STRING. We don't allow any + quoted null characters in the middle or at the ends of strings because + of how expand_word_internal works. remove_quoted_nulls () turns + STRING into an empty string iff it only consists of a quoted null, + and removes all unquoted CTLNUL characters. */ +char * +remove_quoted_nulls (string) + char *string; +{ + register size_t slen; + register int i, j, prev_i; + DECLARE_MBSTATE; + + if (strchr (string, CTLNUL) == 0) /* XXX */ + return string; /* XXX */ + + slen = strlen (string); + i = j = 0; + + while (i < slen) + { + if (string[i] == CTLESC) + { + /* Old code had j++, but we cannot assume that i == j at this + point -- what if a CTLNUL has already been removed from the + string? We don't want to drop the CTLESC or recopy characters + that we've already copied down. */ + i++; string[j++] = CTLESC; + if (i == slen) + break; + } + else if (string[i] == CTLNUL) + { + i++; + continue; + } + + prev_i = i; + ADVANCE_CHAR (string, slen, i); + if (j < prev_i) + { + do string[j++] = string[prev_i++]; while (prev_i < i); + } + else + j = i; + } + string[j] = '\0'; + + return (string); +} + +/* Perform quoted null character removal on each element of LIST. + This modifies LIST. */ +void +word_list_remove_quoted_nulls (list) + WORD_LIST *list; +{ + register WORD_LIST *t; + + for (t = list; t; t = t->next) + { + remove_quoted_nulls (t->word->word); + t->word->flags &= ~W_HASQUOTEDNULL; + } +} + +/* **************************************************************** */ +/* */ +/* Functions for Matching and Removing Patterns */ +/* */ +/* **************************************************************** */ + +#if defined (HANDLE_MULTIBYTE) +#if 0 /* Currently unused */ +static unsigned char * +mb_getcharlens (string, len) + char *string; + int len; +{ + int i, offset, last; + unsigned char *ret; + char *p; + DECLARE_MBSTATE; + + i = offset = 0; + last = 0; + ret = (unsigned char *)xmalloc (len); + memset (ret, 0, len); + while (string[last]) + { + ADVANCE_CHAR (string, len, offset); + ret[last] = offset - last; + last = offset; + } + return ret; +} +#endif +#endif + +/* Remove the portion of PARAM matched by PATTERN according to OP, where OP + can have one of 4 values: + RP_LONG_LEFT remove longest matching portion at start of PARAM + RP_SHORT_LEFT remove shortest matching portion at start of PARAM + RP_LONG_RIGHT remove longest matching portion at end of PARAM + RP_SHORT_RIGHT remove shortest matching portion at end of PARAM +*/ + +#define RP_LONG_LEFT 1 +#define RP_SHORT_LEFT 2 +#define RP_LONG_RIGHT 3 +#define RP_SHORT_RIGHT 4 + +/* Returns its first argument if nothing matched; new memory otherwise */ +static char * +remove_upattern (param, pattern, op) + char *param, *pattern; + int op; +{ + register int len; + register char *end; + register char *p, *ret, c; + + len = STRLEN (param); + end = param + len; + + switch (op) + { + case RP_LONG_LEFT: /* remove longest match at start */ + for (p = end; p >= param; p--) + { + c = *p; *p = '\0'; + if (strmatch (pattern, param, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + *p = c; + return (savestring (p)); + } + *p = c; + + } + break; + + case RP_SHORT_LEFT: /* remove shortest match at start */ + for (p = param; p <= end; p++) + { + c = *p; *p = '\0'; + if (strmatch (pattern, param, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + *p = c; + return (savestring (p)); + } + *p = c; + } + break; + + case RP_LONG_RIGHT: /* remove longest match at end */ + for (p = param; p <= end; p++) + { + if (strmatch (pattern, p, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + c = *p; *p = '\0'; + ret = savestring (param); + *p = c; + return (ret); + } + } + break; + + case RP_SHORT_RIGHT: /* remove shortest match at end */ + for (p = end; p >= param; p--) + { + if (strmatch (pattern, p, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + c = *p; *p = '\0'; + ret = savestring (param); + *p = c; + return (ret); + } + } + break; + } + + return (param); /* no match, return original string */ +} + +#if defined (HANDLE_MULTIBYTE) +/* Returns its first argument if nothing matched; new memory otherwise */ +static wchar_t * +remove_wpattern (wparam, wstrlen, wpattern, op) + wchar_t *wparam; + size_t wstrlen; + wchar_t *wpattern; + int op; +{ + wchar_t wc, *ret; + int n; + + switch (op) + { + case RP_LONG_LEFT: /* remove longest match at start */ + for (n = wstrlen; n >= 0; n--) + { + wc = wparam[n]; wparam[n] = L'\0'; + if (wcsmatch (wpattern, wparam, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + wparam[n] = wc; + return (wcsdup (wparam + n)); + } + wparam[n] = wc; + } + break; + + case RP_SHORT_LEFT: /* remove shortest match at start */ + for (n = 0; n <= wstrlen; n++) + { + wc = wparam[n]; wparam[n] = L'\0'; + if (wcsmatch (wpattern, wparam, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + wparam[n] = wc; + return (wcsdup (wparam + n)); + } + wparam[n] = wc; + } + break; + + case RP_LONG_RIGHT: /* remove longest match at end */ + for (n = 0; n <= wstrlen; n++) + { + if (wcsmatch (wpattern, wparam + n, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + wc = wparam[n]; wparam[n] = L'\0'; + ret = wcsdup (wparam); + wparam[n] = wc; + return (ret); + } + } + break; + + case RP_SHORT_RIGHT: /* remove shortest match at end */ + for (n = wstrlen; n >= 0; n--) + { + if (wcsmatch (wpattern, wparam + n, FNMATCH_EXTFLAG) != FNM_NOMATCH) + { + wc = wparam[n]; wparam[n] = L'\0'; + ret = wcsdup (wparam); + wparam[n] = wc; + return (ret); + } + } + break; + } + + return (wparam); /* no match, return original string */ +} +#endif /* HANDLE_MULTIBYTE */ + +static char * +remove_pattern (param, pattern, op) + char *param, *pattern; + int op; +{ + char *xret; + + if (param == NULL) + return (param); + if (*param == '\0' || pattern == NULL || *pattern == '\0') /* minor optimization */ + return (savestring (param)); + +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1) + { + wchar_t *ret, *oret; + size_t n; + wchar_t *wparam, *wpattern; + mbstate_t ps; + + n = xdupmbstowcs (&wpattern, NULL, pattern); + if (n == (size_t)-1) + { + xret = remove_upattern (param, pattern, op); + return ((xret == param) ? savestring (param) : xret); + } + n = xdupmbstowcs (&wparam, NULL, param); + + if (n == (size_t)-1) + { + free (wpattern); + xret = remove_upattern (param, pattern, op); + return ((xret == param) ? savestring (param) : xret); + } + oret = ret = remove_wpattern (wparam, n, wpattern, op); + /* Don't bother to convert wparam back to multibyte string if nothing + matched; just return copy of original string */ + if (ret == wparam) + { + free (wparam); + free (wpattern); + return (savestring (param)); + } + + free (wparam); + free (wpattern); + + n = strlen (param); + xret = (char *)xmalloc (n + 1); + memset (&ps, '\0', sizeof (mbstate_t)); + n = wcsrtombs (xret, (const wchar_t **)&ret, n, &ps); + xret[n] = '\0'; /* just to make sure */ + free (oret); + return xret; + } + else +#endif + { + xret = remove_upattern (param, pattern, op); + return ((xret == param) ? savestring (param) : xret); + } +} + +/* Match PAT anywhere in STRING and return the match boundaries. + This returns 1 in case of a successful match, 0 otherwise. SP + and EP are pointers into the string where the match begins and + ends, respectively. MTYPE controls what kind of match is attempted. + MATCH_BEG and MATCH_END anchor the match at the beginning and end + of the string, respectively. The longest match is returned. */ +static int +match_upattern (string, pat, mtype, sp, ep) + char *string, *pat; + int mtype; + char **sp, **ep; +{ + int c, len, mlen; + register char *p, *p1, *npat; + char *end; + int n1; + + /* If the pattern doesn't match anywhere in the string, go ahead and + short-circuit right away. A minor optimization, saves a bunch of + unnecessary calls to strmatch (up to N calls for a string of N + characters) if the match is unsuccessful. To preserve the semantics + of the substring matches below, we make sure that the pattern has + `*' as first and last character, making a new pattern if necessary. */ + /* XXX - check this later if I ever implement `**' with special meaning, + since this will potentially result in `**' at the beginning or end */ + len = STRLEN (pat); + if (pat[0] != '*' || (pat[0] == '*' && pat[1] == LPAREN && extended_glob) || pat[len - 1] != '*') + { + p = npat = (char *)xmalloc (len + 3); + p1 = pat; + if (*p1 != '*' || (*p1 == '*' && p1[1] == LPAREN && extended_glob)) + *p++ = '*'; + while (*p1) + *p++ = *p1++; + if (p1[-1] != '*' || p[-2] == '\\') + *p++ = '*'; + *p = '\0'; + } + else + npat = pat; + c = strmatch (npat, string, FNMATCH_EXTFLAG); + if (npat != pat) + free (npat); + if (c == FNM_NOMATCH) + return (0); + + len = STRLEN (string); + end = string + len; + + mlen = umatchlen (pat, len); + + switch (mtype) + { + case MATCH_ANY: + for (p = string; p <= end; p++) + { + if (match_pattern_char (pat, p)) + { + p1 = (mlen == -1) ? end : p + mlen; + /* p1 - p = length of portion of string to be considered + p = current position in string + mlen = number of characters consumed by match (-1 for entire string) + end = end of string + we want to break immediately if the potential match len + is greater than the number of characters remaining in the + string + */ + if (p1 > end) + break; + for ( ; p1 >= p; p1--) + { + c = *p1; *p1 = '\0'; + if (strmatch (pat, p, FNMATCH_EXTFLAG) == 0) + { + *p1 = c; + *sp = p; + *ep = p1; + return 1; + } + *p1 = c; +#if 1 + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; +#endif + } + } + } + + return (0); + + case MATCH_BEG: + if (match_pattern_char (pat, string) == 0) + return (0); + + for (p = (mlen == -1) ? end : string + mlen; p >= string; p--) + { + c = *p; *p = '\0'; + if (strmatch (pat, string, FNMATCH_EXTFLAG) == 0) + { + *p = c; + *sp = string; + *ep = p; + return 1; + } + *p = c; + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; + } + + return (0); + + case MATCH_END: + for (p = end - ((mlen == -1) ? len : mlen); p <= end; p++) + { + if (strmatch (pat, p, FNMATCH_EXTFLAG) == 0) + { + *sp = p; + *ep = end; + return 1; + } + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; + } + + return (0); + } + + return (0); +} + +#if defined (HANDLE_MULTIBYTE) +/* Match WPAT anywhere in WSTRING and return the match boundaries. + This returns 1 in case of a successful match, 0 otherwise. Wide + character version. */ +static int +match_wpattern (wstring, indices, wstrlen, wpat, mtype, sp, ep) + wchar_t *wstring; + char **indices; + size_t wstrlen; + wchar_t *wpat; + int mtype; + char **sp, **ep; +{ + wchar_t wc, *wp, *nwpat, *wp1; + size_t len; + int mlen; + int n, n1, n2, simple; + + simple = (wpat[0] != L'\\' && wpat[0] != L'*' && wpat[0] != L'?' && wpat[0] != L'['); +#if defined (EXTENDED_GLOB) + if (extended_glob) + simple &= (wpat[1] != L'(' || (wpat[0] != L'*' && wpat[0] != L'?' && wpat[0] != L'+' && wpat[0] != L'!' && wpat[0] != L'@')); /*)*/ +#endif + + /* If the pattern doesn't match anywhere in the string, go ahead and + short-circuit right away. A minor optimization, saves a bunch of + unnecessary calls to strmatch (up to N calls for a string of N + characters) if the match is unsuccessful. To preserve the semantics + of the substring matches below, we make sure that the pattern has + `*' as first and last character, making a new pattern if necessary. */ + len = wcslen (wpat); + if (wpat[0] != L'*' || (wpat[0] == L'*' && wpat[1] == WLPAREN && extended_glob) || wpat[len - 1] != L'*') + { + wp = nwpat = (wchar_t *)xmalloc ((len + 3) * sizeof (wchar_t)); + wp1 = wpat; + if (*wp1 != L'*' || (*wp1 == '*' && wp1[1] == WLPAREN && extended_glob)) + *wp++ = L'*'; + while (*wp1 != L'\0') + *wp++ = *wp1++; + if (wp1[-1] != L'*' || wp1[-2] == L'\\') + *wp++ = L'*'; + *wp = '\0'; + } + else + nwpat = wpat; + len = wcsmatch (nwpat, wstring, FNMATCH_EXTFLAG); + if (nwpat != wpat) + free (nwpat); + if (len == FNM_NOMATCH) + return (0); + + mlen = wmatchlen (wpat, wstrlen); + +/* itrace("wmatchlen (%ls) -> %d", wpat, mlen); */ + switch (mtype) + { + case MATCH_ANY: + for (n = 0; n <= wstrlen; n++) + { + n2 = simple ? (*wpat == wstring[n]) : match_pattern_wchar (wpat, wstring + n); + if (n2) + { + n1 = (mlen == -1) ? wstrlen : n + mlen; + if (n1 > wstrlen) + break; + + for ( ; n1 >= n; n1--) + { + wc = wstring[n1]; wstring[n1] = L'\0'; + if (wcsmatch (wpat, wstring + n, FNMATCH_EXTFLAG) == 0) + { + wstring[n1] = wc; + *sp = indices[n]; + *ep = indices[n1]; + return 1; + } + wstring[n1] = wc; + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; + } + } + } + + return (0); + + case MATCH_BEG: + if (match_pattern_wchar (wpat, wstring) == 0) + return (0); + + for (n = (mlen == -1) ? wstrlen : mlen; n >= 0; n--) + { + wc = wstring[n]; wstring[n] = L'\0'; + if (wcsmatch (wpat, wstring, FNMATCH_EXTFLAG) == 0) + { + wstring[n] = wc; + *sp = indices[0]; + *ep = indices[n]; + return 1; + } + wstring[n] = wc; + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; + } + + return (0); + + case MATCH_END: + for (n = wstrlen - ((mlen == -1) ? wstrlen : mlen); n <= wstrlen; n++) + { + if (wcsmatch (wpat, wstring + n, FNMATCH_EXTFLAG) == 0) + { + *sp = indices[n]; + *ep = indices[wstrlen]; + return 1; + } + /* If MLEN != -1, we have a fixed length pattern. */ + if (mlen != -1) + break; + } + + return (0); + } + + return (0); +} +#endif /* HANDLE_MULTIBYTE */ + +static int +match_pattern (string, pat, mtype, sp, ep) + char *string, *pat; + int mtype; + char **sp, **ep; +{ +#if defined (HANDLE_MULTIBYTE) + int ret; + size_t n; + wchar_t *wstring, *wpat; + char **indices; + size_t slen, plen, mslen, mplen; +#endif + + if (string == 0 || *string == 0 || pat == 0 || *pat == 0) + return (0); + +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1) + { + if (mbsmbchar (string) == 0 && mbsmbchar (pat) == 0) + return (match_upattern (string, pat, mtype, sp, ep)); + + n = xdupmbstowcs (&wpat, NULL, pat); + if (n == (size_t)-1) + return (match_upattern (string, pat, mtype, sp, ep)); + n = xdupmbstowcs (&wstring, &indices, string); + if (n == (size_t)-1) + { + free (wpat); + return (match_upattern (string, pat, mtype, sp, ep)); + } + ret = match_wpattern (wstring, indices, n, wpat, mtype, sp, ep); + + free (wpat); + free (wstring); + free (indices); + + return (ret); + } + else +#endif + return (match_upattern (string, pat, mtype, sp, ep)); +} + +static int +getpatspec (c, value) + int c; + char *value; +{ + if (c == '#') + return ((*value == '#') ? RP_LONG_LEFT : RP_SHORT_LEFT); + else /* c == '%' */ + return ((*value == '%') ? RP_LONG_RIGHT : RP_SHORT_RIGHT); +} + +/* Posix.2 says that the WORD should be run through tilde expansion, + parameter expansion, command substitution and arithmetic expansion. + This leaves the result quoted, so quote_string_for_globbing () has + to be called to fix it up for strmatch (). If QUOTED is non-zero, + it means that the entire expression was enclosed in double quotes. + This means that quoting characters in the pattern do not make any + special pattern characters quoted. For example, the `*' in the + following retains its special meaning: "${foo#'*'}". */ +static char * +getpattern (value, quoted, expandpat) + char *value; + int quoted, expandpat; +{ + char *pat, *tword; + WORD_LIST *l; +#if 0 + int i; +#endif + /* There is a problem here: how to handle single or double quotes in the + pattern string when the whole expression is between double quotes? + POSIX.2 says that enclosing double quotes do not cause the pattern to + be quoted, but does that leave us a problem with @ and array[@] and their + expansions inside a pattern? */ +#if 0 + if (expandpat && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && *tword) + { + i = 0; + pat = string_extract_double_quoted (tword, &i, 1); + free (tword); + tword = pat; + } +#endif + + /* expand_string_for_rhs () leaves WORD quoted and does not perform + word splitting. */ + l = *value ? expand_string_for_rhs (value, + (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) ? Q_PATQUOTE : quoted, + (int *)NULL, (int *)NULL) + : (WORD_LIST *)0; + pat = string_list (l); + dispose_words (l); + if (pat) + { + tword = quote_string_for_globbing (pat, QGLOB_CVTNULL); + free (pat); + pat = tword; + } + return (pat); +} + +#if 0 +/* Handle removing a pattern from a string as a result of ${name%[%]value} + or ${name#[#]value}. */ +static char * +variable_remove_pattern (value, pattern, patspec, quoted) + char *value, *pattern; + int patspec, quoted; +{ + char *tword; + + tword = remove_pattern (value, pattern, patspec); + + return (tword); +} +#endif + +static char * +list_remove_pattern (list, pattern, patspec, itype, quoted) + WORD_LIST *list; + char *pattern; + int patspec, itype, quoted; +{ + WORD_LIST *new, *l; + WORD_DESC *w; + char *tword; + + for (new = (WORD_LIST *)NULL, l = list; l; l = l->next) + { + tword = remove_pattern (l->word->word, pattern, patspec); + w = alloc_word_desc (); + w->word = tword ? tword : savestring (""); + new = make_word_list (w, new); + } + + l = REVERSE_LIST (new, WORD_LIST *); + tword = string_list_pos_params (itype, l, quoted); + dispose_words (l); + + return (tword); +} + +static char * +parameter_list_remove_pattern (itype, pattern, patspec, quoted) + int itype; + char *pattern; + int patspec, quoted; +{ + char *ret; + WORD_LIST *list; + + list = list_rest_of_args (); + if (list == 0) + return ((char *)NULL); + ret = list_remove_pattern (list, pattern, patspec, itype, quoted); + dispose_words (list); + return (ret); +} + +#if defined (ARRAY_VARS) +static char * +array_remove_pattern (var, pattern, patspec, varname, quoted) + SHELL_VAR *var; + char *pattern; + int patspec; + char *varname; /* so we can figure out how it's indexed */ + int quoted; +{ + ARRAY *a; + HASH_TABLE *h; + int itype; + char *ret; + WORD_LIST *list; + SHELL_VAR *v; + + /* compute itype from varname here */ + v = array_variable_part (varname, &ret, 0); + + /* XXX */ + if (v && invisible_p (var)) + return ((char *)NULL); + + itype = ret[0]; + + a = (v && array_p (v)) ? array_cell (v) : 0; + h = (v && assoc_p (v)) ? assoc_cell (v) : 0; + + list = a ? array_to_word_list (a) : (h ? assoc_to_word_list (h) : 0); + if (list == 0) + return ((char *)NULL); + ret = list_remove_pattern (list, pattern, patspec, itype, quoted); + dispose_words (list); + + return ret; +} +#endif /* ARRAY_VARS */ + +static char * +parameter_brace_remove_pattern (varname, value, ind, patstr, rtype, quoted, flags) + char *varname, *value; + int ind; + char *patstr; + int rtype, quoted, flags; +{ + int vtype, patspec, starsub; + char *temp1, *val, *pattern; + SHELL_VAR *v; + + if (value == 0) + return ((char *)NULL); + + this_command_name = varname; + + vtype = get_var_and_type (varname, value, ind, quoted, flags, &v, &val); + if (vtype == -1) + return ((char *)NULL); + + starsub = vtype & VT_STARSUB; + vtype &= ~VT_STARSUB; + + patspec = getpatspec (rtype, patstr); + if (patspec == RP_LONG_LEFT || patspec == RP_LONG_RIGHT) + patstr++; + + /* Need to pass getpattern newly-allocated memory in case of expansion -- + the expansion code will free the passed string on an error. */ + temp1 = savestring (patstr); + pattern = getpattern (temp1, quoted, 1); + free (temp1); + + temp1 = (char *)NULL; /* shut up gcc */ + switch (vtype) + { + case VT_VARIABLE: + case VT_ARRAYMEMBER: + temp1 = remove_pattern (val, pattern, patspec); + if (vtype == VT_VARIABLE) + FREE (val); + if (temp1) + { + val = (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + ? quote_string (temp1) + : quote_escapes (temp1); + free (temp1); + temp1 = val; + } + break; +#if defined (ARRAY_VARS) + case VT_ARRAYVAR: + temp1 = array_remove_pattern (v, pattern, patspec, varname, quoted); + if (temp1 && ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) == 0)) + { + val = quote_escapes (temp1); + free (temp1); + temp1 = val; + } + break; +#endif + case VT_POSPARMS: + temp1 = parameter_list_remove_pattern (varname[0], pattern, patspec, quoted); + if (temp1 && ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) == 0)) + { + val = quote_escapes (temp1); + free (temp1); + temp1 = val; + } + break; + } + + FREE (pattern); + return temp1; +} + +/******************************************* + * * + * Functions to expand WORD_DESCs * + * * + *******************************************/ + +/* Expand WORD, performing word splitting on the result. This does + parameter expansion, command substitution, arithmetic expansion, + word splitting, and quote removal. */ + +WORD_LIST * +expand_word (word, quoted) + WORD_DESC *word; + int quoted; +{ + WORD_LIST *result, *tresult; + + tresult = call_expand_word_internal (word, quoted, 0, (int *)NULL, (int *)NULL); + result = word_list_split (tresult); + dispose_words (tresult); + return (result ? dequote_list (result) : result); +} + +/* Expand WORD, but do not perform word splitting on the result. This + does parameter expansion, command substitution, arithmetic expansion, + and quote removal. */ +WORD_LIST * +expand_word_unsplit (word, quoted) + WORD_DESC *word; + int quoted; +{ + WORD_LIST *result; + + expand_no_split_dollar_star = 1; +#if defined (HANDLE_MULTIBYTE) + if (ifs_firstc[0] == 0) +#else + if (ifs_firstc == 0) +#endif + word->flags |= W_NOSPLIT; + word->flags |= W_NOSPLIT2; + result = call_expand_word_internal (word, quoted, 0, (int *)NULL, (int *)NULL); + expand_no_split_dollar_star = 0; + + return (result ? dequote_list (result) : result); +} + +/* Perform shell expansions on WORD, but do not perform word splitting or + quote removal on the result. Virtually identical to expand_word_unsplit; + could be combined if implementations don't diverge. */ +WORD_LIST * +expand_word_leave_quoted (word, quoted) + WORD_DESC *word; + int quoted; +{ + WORD_LIST *result; + + expand_no_split_dollar_star = 1; +#if defined (HANDLE_MULTIBYTE) + if (ifs_firstc[0] == 0) +#else + if (ifs_firstc == 0) +#endif + word->flags |= W_NOSPLIT; + word->flags |= W_NOSPLIT2; + result = call_expand_word_internal (word, quoted, 0, (int *)NULL, (int *)NULL); + expand_no_split_dollar_star = 0; + + return result; +} + +#if defined (PROCESS_SUBSTITUTION) + +/*****************************************************************/ +/* */ +/* Hacking Process Substitution */ +/* */ +/*****************************************************************/ + +#if !defined (HAVE_DEV_FD) +/* Named pipes must be removed explicitly with `unlink'. This keeps a list + of FIFOs the shell has open. unlink_fifo_list will walk the list and + unlink all of them. add_fifo_list adds the name of an open FIFO to the + list. NFIFO is a count of the number of FIFOs in the list. */ +#define FIFO_INCR 20 + +struct temp_fifo { + char *file; + pid_t proc; +}; + +static struct temp_fifo *fifo_list = (struct temp_fifo *)NULL; +static int nfifo; +static int fifo_list_size; + +char * +copy_fifo_list (sizep) + int *sizep; +{ + if (sizep) + *sizep = 0; + return (char *)NULL; +} + +static void +add_fifo_list (pathname) + char *pathname; +{ + if (nfifo >= fifo_list_size - 1) + { + fifo_list_size += FIFO_INCR; + fifo_list = (struct temp_fifo *)xrealloc (fifo_list, + fifo_list_size * sizeof (struct temp_fifo)); + } + + fifo_list[nfifo].file = savestring (pathname); + nfifo++; +} + +void +unlink_fifo (i) + int i; +{ + if ((fifo_list[i].proc == -1) || (kill(fifo_list[i].proc, 0) == -1)) + { + unlink (fifo_list[i].file); + free (fifo_list[i].file); + fifo_list[i].file = (char *)NULL; + fifo_list[i].proc = -1; + } +} + +void +unlink_fifo_list () +{ + int saved, i, j; + + if (nfifo == 0) + return; + + for (i = saved = 0; i < nfifo; i++) + { + if ((fifo_list[i].proc == -1) || (kill(fifo_list[i].proc, 0) == -1)) + { + unlink (fifo_list[i].file); + free (fifo_list[i].file); + fifo_list[i].file = (char *)NULL; + fifo_list[i].proc = -1; + } + else + saved++; + } + + /* If we didn't remove some of the FIFOs, compact the list. */ + if (saved) + { + for (i = j = 0; i < nfifo; i++) + if (fifo_list[i].file) + { + fifo_list[j].file = fifo_list[i].file; + fifo_list[j].proc = fifo_list[i].proc; + j++; + } + nfifo = j; + } + else + nfifo = 0; +} + +/* Take LIST, which is a bitmap denoting active FIFOs in fifo_list + from some point in the past, and close all open FIFOs in fifo_list + that are not marked as active in LIST. If LIST is NULL, close + everything in fifo_list. LSIZE is the number of elements in LIST, in + case it's larger than fifo_list_size (size of fifo_list). */ +void +close_new_fifos (list, lsize) + char *list; + int lsize; +{ + int i; + + if (list == 0) + { + unlink_fifo_list (); + return; + } + + for (i = 0; i < lsize; i++) + if (list[i] == 0 && i < fifo_list_size && fifo_list[i].proc != -1) + unlink_fifo (i); + + for (i = lsize; i < fifo_list_size; i++) + unlink_fifo (i); +} + +int +fifos_pending () +{ + return nfifo; +} + +int +num_fifos () +{ + return nfifo; +} + +static char * +make_named_pipe () +{ + char *tname; + + tname = sh_mktmpname ("sh-np", MT_USERANDOM|MT_USETMPDIR); + if (mkfifo (tname, 0600) < 0) + { + free (tname); + return ((char *)NULL); + } + + add_fifo_list (tname); + return (tname); +} + +#else /* HAVE_DEV_FD */ + +/* DEV_FD_LIST is a bitmap of file descriptors attached to pipes the shell + has open to children. NFDS is a count of the number of bits currently + set in DEV_FD_LIST. TOTFDS is a count of the highest possible number + of open files. */ +static char *dev_fd_list = (char *)NULL; +static int nfds; +static int totfds; /* The highest possible number of open files. */ + +char * +copy_fifo_list (sizep) + int *sizep; +{ + char *ret; + + if (nfds == 0 || totfds == 0) + { + if (sizep) + *sizep = 0; + return (char *)NULL; + } + + if (sizep) + *sizep = totfds; + ret = (char *)xmalloc (totfds); + return (memcpy (ret, dev_fd_list, totfds)); +} + +static void +add_fifo_list (fd) + int fd; +{ + if (dev_fd_list == 0 || fd >= totfds) + { + int ofds; + + ofds = totfds; + totfds = getdtablesize (); + if (totfds < 0 || totfds > 256) + totfds = 256; + if (fd >= totfds) + totfds = fd + 2; + + dev_fd_list = (char *)xrealloc (dev_fd_list, totfds); + memset (dev_fd_list + ofds, '\0', totfds - ofds); + } + + dev_fd_list[fd] = 1; + nfds++; +} + +int +fifos_pending () +{ + return 0; /* used for cleanup; not needed with /dev/fd */ +} + +int +num_fifos () +{ + return nfds; +} + +void +unlink_fifo (fd) + int fd; +{ + if (dev_fd_list[fd]) + { + close (fd); + dev_fd_list[fd] = 0; + nfds--; + } +} + +void +unlink_fifo_list () +{ + register int i; + + if (nfds == 0) + return; + + for (i = 0; nfds && i < totfds; i++) + unlink_fifo (i); + + nfds = 0; +} + +/* Take LIST, which is a snapshot copy of dev_fd_list from some point in + the past, and close all open fds in dev_fd_list that are not marked + as open in LIST. If LIST is NULL, close everything in dev_fd_list. + LSIZE is the number of elements in LIST, in case it's larger than + totfds (size of dev_fd_list). */ +void +close_new_fifos (list, lsize) + char *list; + int lsize; +{ + int i; + + if (list == 0) + { + unlink_fifo_list (); + return; + } + + for (i = 0; i < lsize; i++) + if (list[i] == 0 && i < totfds && dev_fd_list[i]) + unlink_fifo (i); + + for (i = lsize; i < totfds; i++) + unlink_fifo (i); +} + +#if defined (NOTDEF) +print_dev_fd_list () +{ + register int i; + + fprintf (stderr, "pid %ld: dev_fd_list:", (long)getpid ()); + fflush (stderr); + + for (i = 0; i < totfds; i++) + { + if (dev_fd_list[i]) + fprintf (stderr, " %d", i); + } + fprintf (stderr, "\n"); +} +#endif /* NOTDEF */ + +static char * +make_dev_fd_filename (fd) + int fd; +{ + char *ret, intbuf[INT_STRLEN_BOUND (int) + 1], *p; + + ret = (char *)xmalloc (sizeof (DEV_FD_PREFIX) + 8); + + strcpy (ret, DEV_FD_PREFIX); + p = inttostr (fd, intbuf, sizeof (intbuf)); + strcpy (ret + sizeof (DEV_FD_PREFIX) - 1, p); + + add_fifo_list (fd); + return (ret); +} + +#endif /* HAVE_DEV_FD */ + +/* Return a filename that will open a connection to the process defined by + executing STRING. HAVE_DEV_FD, if defined, means open a pipe and return + a filename in /dev/fd corresponding to a descriptor that is one of the + ends of the pipe. If not defined, we use named pipes on systems that have + them. Systems without /dev/fd and named pipes are out of luck. + + OPEN_FOR_READ_IN_CHILD, if 1, means open the named pipe for reading or + use the read end of the pipe and dup that file descriptor to fd 0 in + the child. If OPEN_FOR_READ_IN_CHILD is 0, we open the named pipe for + writing or use the write end of the pipe in the child, and dup that + file descriptor to fd 1 in the child. The parent does the opposite. */ + +static char * +process_substitute (string, open_for_read_in_child) + char *string; + int open_for_read_in_child; +{ + char *pathname; + int fd, result; + pid_t old_pid, pid; +#if defined (HAVE_DEV_FD) + int parent_pipe_fd, child_pipe_fd; + int fildes[2]; +#endif /* HAVE_DEV_FD */ +#if defined (JOB_CONTROL) + pid_t old_pipeline_pgrp; +#endif + + if (!string || !*string || wordexp_only) + return ((char *)NULL); + +#if !defined (HAVE_DEV_FD) + pathname = make_named_pipe (); +#else /* HAVE_DEV_FD */ + if (pipe (fildes) < 0) + { + sys_error (_("cannot make pipe for process substitution")); + return ((char *)NULL); + } + /* If OPEN_FOR_READ_IN_CHILD == 1, we want to use the write end of + the pipe in the parent, otherwise the read end. */ + parent_pipe_fd = fildes[open_for_read_in_child]; + child_pipe_fd = fildes[1 - open_for_read_in_child]; + /* Move the parent end of the pipe to some high file descriptor, to + avoid clashes with FDs used by the script. */ + parent_pipe_fd = move_to_high_fd (parent_pipe_fd, 1, 64); + + pathname = make_dev_fd_filename (parent_pipe_fd); +#endif /* HAVE_DEV_FD */ + + if (pathname == 0) + { + sys_error (_("cannot make pipe for process substitution")); + return ((char *)NULL); + } + + old_pid = last_made_pid; + +#if defined (JOB_CONTROL) + old_pipeline_pgrp = pipeline_pgrp; + pipeline_pgrp = shell_pgrp; + save_pipeline (1); +#endif /* JOB_CONTROL */ + + pid = make_child ((char *)NULL, 1); + if (pid == 0) + { + reset_terminating_signals (); /* XXX */ + free_pushed_string_input (); + /* Cancel traps, in trap.c. */ + restore_original_signals (); /* XXX - what about special builtins? bash-4.2 */ + setup_async_signals (); + subshell_environment |= SUBSHELL_COMSUB|SUBSHELL_PROCSUB; + } + +#if defined (JOB_CONTROL) + set_sigchld_handler (); + stop_making_children (); + /* XXX - should we only do this in the parent? (as in command subst) */ + pipeline_pgrp = old_pipeline_pgrp; +#endif /* JOB_CONTROL */ + + if (pid < 0) + { + sys_error (_("cannot make child for process substitution")); + free (pathname); +#if defined (HAVE_DEV_FD) + close (parent_pipe_fd); + close (child_pipe_fd); +#endif /* HAVE_DEV_FD */ + return ((char *)NULL); + } + + if (pid > 0) + { +#if defined (JOB_CONTROL) + restore_pipeline (1); +#endif + +#if !defined (HAVE_DEV_FD) + fifo_list[nfifo-1].proc = pid; +#endif + + last_made_pid = old_pid; + +#if defined (JOB_CONTROL) && defined (PGRP_PIPE) + close_pgrp_pipe (); +#endif /* JOB_CONTROL && PGRP_PIPE */ + +#if defined (HAVE_DEV_FD) + close (child_pipe_fd); +#endif /* HAVE_DEV_FD */ + + return (pathname); + } + + set_sigint_handler (); + +#if defined (JOB_CONTROL) + set_job_control (0); +#endif /* JOB_CONTROL */ + +#if !defined (HAVE_DEV_FD) + /* Open the named pipe in the child. */ + fd = open (pathname, open_for_read_in_child ? O_RDONLY|O_NONBLOCK : O_WRONLY); + if (fd < 0) + { + /* Two separate strings for ease of translation. */ + if (open_for_read_in_child) + sys_error (_("cannot open named pipe %s for reading"), pathname); + else + sys_error (_("cannot open named pipe %s for writing"), pathname); + + exit (127); + } + if (open_for_read_in_child) + { + if (sh_unset_nodelay_mode (fd) < 0) + { + sys_error (_("cannot reset nodelay mode for fd %d"), fd); + exit (127); + } + } +#else /* HAVE_DEV_FD */ + fd = child_pipe_fd; +#endif /* HAVE_DEV_FD */ + + if (dup2 (fd, open_for_read_in_child ? 0 : 1) < 0) + { + sys_error (_("cannot duplicate named pipe %s as fd %d"), pathname, + open_for_read_in_child ? 0 : 1); + exit (127); + } + + if (fd != (open_for_read_in_child ? 0 : 1)) + close (fd); + + /* Need to close any files that this process has open to pipes inherited + from its parent. */ + if (current_fds_to_close) + { + close_fd_bitmap (current_fds_to_close); + current_fds_to_close = (struct fd_bitmap *)NULL; + } + +#if defined (HAVE_DEV_FD) + /* Make sure we close the parent's end of the pipe and clear the slot + in the fd list so it is not closed later, if reallocated by, for + instance, pipe(2). */ + close (parent_pipe_fd); + dev_fd_list[parent_pipe_fd] = 0; +#endif /* HAVE_DEV_FD */ + + /* subshells shouldn't have this flag, which controls using the temporary + environment for variable lookups. */ + expanding_redir = 0; + + result = parse_and_execute (string, "process substitution", (SEVAL_NONINT|SEVAL_NOHIST)); + +#if !defined (HAVE_DEV_FD) + /* Make sure we close the named pipe in the child before we exit. */ + close (open_for_read_in_child ? 0 : 1); +#endif /* !HAVE_DEV_FD */ + + last_command_exit_value = result; + result = run_exit_trap (); + exit (result); + /*NOTREACHED*/ +} +#endif /* PROCESS_SUBSTITUTION */ + +/***********************************/ +/* */ +/* Command Substitution */ +/* */ +/***********************************/ + +static char * +read_comsub (fd, quoted, rflag) + int fd, quoted; + int *rflag; +{ + char *istring, buf[128], *bufp, *s; + int istring_index, istring_size, c, tflag, skip_ctlesc, skip_ctlnul; + ssize_t bufn; + + istring = (char *)NULL; + istring_index = istring_size = bufn = tflag = 0; + + for (skip_ctlesc = skip_ctlnul = 0, s = ifs_value; s && *s; s++) + skip_ctlesc |= *s == CTLESC, skip_ctlnul |= *s == CTLNUL; + + /* Read the output of the command through the pipe. This may need to be + changed to understand multibyte characters in the future. */ + while (1) + { + if (fd < 0) + break; + if (--bufn <= 0) + { + bufn = zread (fd, buf, sizeof (buf)); + if (bufn <= 0) + break; + bufp = buf; + } + c = *bufp++; + + if (c == 0) + { +#if 0 + internal_warning ("read_comsub: ignored null byte in input"); +#endif + continue; + } + + /* Add the character to ISTRING, possibly after resizing it. */ + RESIZE_MALLOCED_BUFFER (istring, istring_index, 2, istring_size, DEFAULT_ARRAY_SIZE); + + /* This is essentially quote_string inline */ + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) /* || c == CTLESC || c == CTLNUL */) + istring[istring_index++] = CTLESC; + /* Escape CTLESC and CTLNUL in the output to protect those characters + from the rest of the word expansions (word splitting and globbing.) + This is essentially quote_escapes inline. */ + else if (skip_ctlesc == 0 && c == CTLESC) + { + tflag |= W_HASCTLESC; + istring[istring_index++] = CTLESC; + } + else if ((skip_ctlnul == 0 && c == CTLNUL) || (c == ' ' && (ifs_value && *ifs_value == 0))) + istring[istring_index++] = CTLESC; + + istring[istring_index++] = c; + +#if 0 +#if defined (__CYGWIN__) + if (c == '\n' && istring_index > 1 && istring[istring_index - 2] == '\r') + { + istring_index--; + istring[istring_index - 1] = '\n'; + } +#endif +#endif + } + + if (istring) + istring[istring_index] = '\0'; + + /* If we read no output, just return now and save ourselves some + trouble. */ + if (istring_index == 0) + { + FREE (istring); + if (rflag) + *rflag = tflag; + return (char *)NULL; + } + + /* Strip trailing newlines from the output of the command. */ + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + { + while (istring_index > 0) + { + if (istring[istring_index - 1] == '\n') + { + --istring_index; + + /* If the newline was quoted, remove the quoting char. */ + if (istring[istring_index - 1] == CTLESC) + --istring_index; + } + else + break; + } + istring[istring_index] = '\0'; + } + else + strip_trailing (istring, istring_index - 1, 1); + + if (rflag) + *rflag = tflag; + return istring; +} + +/* Perform command substitution on STRING. This returns a WORD_DESC * with the + contained string possibly quoted. */ +WORD_DESC * +command_substitute (string, quoted) + char *string; + int quoted; +{ + pid_t pid, old_pid, old_pipeline_pgrp, old_async_pid; + char *istring; + int result, fildes[2], function_value, pflags, rc, tflag; + WORD_DESC *ret; + + istring = (char *)NULL; + + /* Don't fork () if there is no need to. In the case of no command to + run, just return NULL. */ + if (!string || !*string || (string[0] == '\n' && !string[1])) + return ((WORD_DESC *)NULL); + + if (wordexp_only && read_but_dont_execute) + { + last_command_exit_value = EX_WEXPCOMSUB; + jump_to_top_level (EXITPROG); + } + + /* We're making the assumption here that the command substitution will + eventually run a command from the file system. Since we'll run + maybe_make_export_env in this subshell before executing that command, + the parent shell and any other shells it starts will have to remake + the environment. If we make it before we fork, other shells won't + have to. Don't bother if we have any temporary variable assignments, + though, because the export environment will be remade after this + command completes anyway, but do it if all the words to be expanded + are variable assignments. */ + if (subst_assign_varlist == 0 || garglist == 0) + maybe_make_export_env (); /* XXX */ + + /* Flags to pass to parse_and_execute() */ + pflags = (interactive && sourcelevel == 0) ? SEVAL_RESETLINE : 0; + + /* Pipe the output of executing STRING into the current shell. */ + if (pipe (fildes) < 0) + { + sys_error (_("cannot make pipe for command substitution")); + goto error_exit; + } + + old_pid = last_made_pid; +#if defined (JOB_CONTROL) + old_pipeline_pgrp = pipeline_pgrp; + /* Don't reset the pipeline pgrp if we're already a subshell in a pipeline. */ + if ((subshell_environment & SUBSHELL_PIPE) == 0) + pipeline_pgrp = shell_pgrp; + cleanup_the_pipeline (); +#endif /* JOB_CONTROL */ + + old_async_pid = last_asynchronous_pid; + pid = make_child ((char *)NULL, subshell_environment&SUBSHELL_ASYNC); + last_asynchronous_pid = old_async_pid; + + if (pid == 0) + { + /* Reset the signal handlers in the child, but don't free the + trap strings. Set a flag noting that we have to free the + trap strings if we run trap to change a signal disposition. */ + reset_signal_handlers (); + subshell_environment |= SUBSHELL_RESETTRAP; + } + +#if defined (JOB_CONTROL) + /* XXX DO THIS ONLY IN PARENT ? XXX */ + set_sigchld_handler (); + stop_making_children (); + if (pid != 0) + pipeline_pgrp = old_pipeline_pgrp; +#else + stop_making_children (); +#endif /* JOB_CONTROL */ + + if (pid < 0) + { + sys_error (_("cannot make child for command substitution")); + error_exit: + + last_made_pid = old_pid; + + FREE (istring); + close (fildes[0]); + close (fildes[1]); + return ((WORD_DESC *)NULL); + } + + if (pid == 0) + { + set_sigint_handler (); /* XXX */ + + free_pushed_string_input (); + + if (dup2 (fildes[1], 1) < 0) + { + sys_error (_("command_substitute: cannot duplicate pipe as fd 1")); + exit (EXECUTION_FAILURE); + } + + /* If standard output is closed in the parent shell + (such as after `exec >&-'), file descriptor 1 will be + the lowest available file descriptor, and end up in + fildes[0]. This can happen for stdin and stderr as well, + but stdout is more important -- it will cause no output + to be generated from this command. */ + if ((fildes[1] != fileno (stdin)) && + (fildes[1] != fileno (stdout)) && + (fildes[1] != fileno (stderr))) + close (fildes[1]); + + if ((fildes[0] != fileno (stdin)) && + (fildes[0] != fileno (stdout)) && + (fildes[0] != fileno (stderr))) + close (fildes[0]); + +#ifdef __CYGWIN__ + /* Let stdio know the fd may have changed from text to binary mode, and + make sure to preserve stdout line buffering. */ + freopen (NULL, "w", stdout); + sh_setlinebuf (stdout); +#endif /* __CYGWIN__ */ + + /* The currently executing shell is not interactive. */ + interactive = 0; + + /* This is a subshell environment. */ + subshell_environment |= SUBSHELL_COMSUB; + + /* When not in POSIX mode, command substitution does not inherit + the -e flag. */ + if (posixly_correct == 0) + { + builtin_ignoring_errexit = 0; + change_flag ('e', FLAG_OFF); + set_shellopts (); + } + + remove_quoted_escapes (string); + + startup_state = 2; /* see if we can avoid a fork */ + /* Give command substitution a place to jump back to on failure, + so we don't go back up to main (). */ + result = setjmp_nosigs (top_level); + + /* If we're running a command substitution inside a shell function, + trap `return' so we don't return from the function in the subshell + and go off to never-never land. */ + if (result == 0 && return_catch_flag) + function_value = setjmp_nosigs (return_catch); + else + function_value = 0; + + if (result == ERREXIT) + rc = last_command_exit_value; + else if (result == EXITPROG) + rc = last_command_exit_value; + else if (result) + rc = EXECUTION_FAILURE; + else if (function_value) + rc = return_catch_value; + else + { + subshell_level++; + rc = parse_and_execute (string, "command substitution", pflags|SEVAL_NOHIST); + subshell_level--; + } + + last_command_exit_value = rc; + rc = run_exit_trap (); +#if defined (PROCESS_SUBSTITUTION) + unlink_fifo_list (); +#endif + exit (rc); + } + else + { +#if defined (JOB_CONTROL) && defined (PGRP_PIPE) + close_pgrp_pipe (); +#endif /* JOB_CONTROL && PGRP_PIPE */ + + close (fildes[1]); + + tflag = 0; + istring = read_comsub (fildes[0], quoted, &tflag); + + close (fildes[0]); + + current_command_subst_pid = pid; + last_command_exit_value = wait_for (pid); + last_command_subst_pid = pid; + last_made_pid = old_pid; + +#if defined (JOB_CONTROL) + /* If last_command_exit_value > 128, then the substituted command + was terminated by a signal. If that signal was SIGINT, then send + SIGINT to ourselves. This will break out of loops, for instance. */ + if (last_command_exit_value == (128 + SIGINT) && last_command_exit_signal == SIGINT) + kill (getpid (), SIGINT); + + /* wait_for gives the terminal back to shell_pgrp. If some other + process group should have it, give it away to that group here. + pipeline_pgrp is non-zero only while we are constructing a + pipline, so what we are concerned about is whether or not that + pipeline was started in the background. A pipeline started in + the background should never get the tty back here. */ + if (interactive && pipeline_pgrp != (pid_t)0 && (subshell_environment & SUBSHELL_ASYNC) == 0) + give_terminal_to (pipeline_pgrp, 0); +#endif /* JOB_CONTROL */ + + ret = alloc_word_desc (); + ret->word = istring; + ret->flags = tflag; + + return ret; + } +} + +/******************************************************** + * * + * Utility functions for parameter expansion * + * * + ********************************************************/ + +#if defined (ARRAY_VARS) + +static arrayind_t +array_length_reference (s) + char *s; +{ + int len; + arrayind_t ind; + char *akey; + char *t, c; + ARRAY *array; + HASH_TABLE *h; + SHELL_VAR *var; + + var = array_variable_part (s, &t, &len); + + /* If unbound variables should generate an error, report one and return + failure. */ + if ((var == 0 || invisible_p (var) || (assoc_p (var) == 0 && array_p (var) == 0)) && unbound_vars_is_error) + { + c = *--t; + *t = '\0'; + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (s); + *t = c; + return (-1); + } + else if (var == 0 || invisible_p (var)) + return 0; + + /* We support a couple of expansions for variables that are not arrays. + We'll return the length of the value for v[0], and 1 for v[@] or + v[*]. Return 0 for everything else. */ + + array = array_p (var) ? array_cell (var) : (ARRAY *)NULL; + h = assoc_p (var) ? assoc_cell (var) : (HASH_TABLE *)NULL; + + if (ALL_ELEMENT_SUB (t[0]) && t[1] == ']') + { + if (assoc_p (var)) + return (h ? assoc_num_elements (h) : 0); + else if (array_p (var)) + return (array ? array_num_elements (array) : 0); + else + return (var_isset (var) ? 1 : 0); + } + + if (assoc_p (var)) + { + t[len - 1] = '\0'; + akey = expand_assignment_string_to_string (t, 0); /* [ */ + t[len - 1] = ']'; + if (akey == 0 || *akey == 0) + { + err_badarraysub (t); + FREE (akey); + return (-1); + } + t = assoc_reference (assoc_cell (var), akey); + free (akey); + } + else + { + ind = array_expand_index (var, t, len); + /* negative subscripts to indexed arrays count back from end */ + if (var && array_p (var) && ind < 0) + ind = array_max_index (array_cell (var)) + 1 + ind; + if (ind < 0) + { + err_badarraysub (t); + return (-1); + } + if (array_p (var)) + t = array_reference (array, ind); + else + t = (ind == 0) ? value_cell (var) : (char *)NULL; + } + + len = MB_STRLEN (t); + return (len); +} +#endif /* ARRAY_VARS */ + +static int +valid_brace_expansion_word (name, var_is_special) + char *name; + int var_is_special; +{ + if (DIGIT (*name) && all_digits (name)) + return 1; + else if (var_is_special) + return 1; +#if defined (ARRAY_VARS) + else if (valid_array_reference (name)) + return 1; +#endif /* ARRAY_VARS */ + else if (legal_identifier (name)) + return 1; + else + return 0; +} + +static int +chk_atstar (name, quoted, quoted_dollar_atp, contains_dollar_at) + char *name; + int quoted; + int *quoted_dollar_atp, *contains_dollar_at; +{ + char *temp1; + + if (name == 0) + { + if (quoted_dollar_atp) + *quoted_dollar_atp = 0; + if (contains_dollar_at) + *contains_dollar_at = 0; + return 0; + } + + /* check for $@ and $* */ + if (name[0] == '@' && name[1] == 0) + { + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 1; + if (contains_dollar_at) + *contains_dollar_at = 1; + return 1; + } + else if (name[0] == '*' && name[1] == '\0' && quoted == 0) + { + if (contains_dollar_at) + *contains_dollar_at = 1; + return 1; + } + + /* Now check for ${array[@]} and ${array[*]} */ +#if defined (ARRAY_VARS) + else if (valid_array_reference (name)) + { + temp1 = mbschr (name, '['); + if (temp1 && temp1[1] == '@' && temp1[2] == ']') + { + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 1; + if (contains_dollar_at) + *contains_dollar_at = 1; + return 1; + } /* [ */ + /* ${array[*]}, when unquoted, should be treated like ${array[@]}, + which should result in separate words even when IFS is unset. */ + if (temp1 && temp1[1] == '*' && temp1[2] == ']' && quoted == 0) + { + if (contains_dollar_at) + *contains_dollar_at = 1; + return 1; + } + } +#endif + return 0; +} + +/* Parameter expand NAME, and return a new string which is the expansion, + or NULL if there was no expansion. + VAR_IS_SPECIAL is non-zero if NAME is one of the special variables in + the shell, e.g., "@", "$", "*", etc. QUOTED, if non-zero, means that + NAME was found inside of a double-quoted expression. */ +static WORD_DESC * +parameter_brace_expand_word (name, var_is_special, quoted, pflags, indp) + char *name; + int var_is_special, quoted, pflags; + arrayind_t *indp; +{ + WORD_DESC *ret; + char *temp, *tt; + intmax_t arg_index; + SHELL_VAR *var; + int atype, rflags; + arrayind_t ind; + + ret = 0; + temp = 0; + rflags = 0; + + if (indp) + *indp = INTMAX_MIN; + + /* Handle multiple digit arguments, as in ${11}. */ + if (legal_number (name, &arg_index)) + { + tt = get_dollar_var_value (arg_index); + if (tt) + temp = (*tt && (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + ? quote_string (tt) + : quote_escapes (tt); + else + temp = (char *)NULL; + FREE (tt); + } + else if (var_is_special) /* ${@} */ + { + int sindex; + tt = (char *)xmalloc (2 + strlen (name)); + tt[sindex = 0] = '$'; + strcpy (tt + 1, name); + + ret = param_expand (tt, &sindex, quoted, (int *)NULL, (int *)NULL, + (int *)NULL, (int *)NULL, pflags); + free (tt); + } +#if defined (ARRAY_VARS) + else if (valid_array_reference (name)) + { +expand_arrayref: + /* XXX - does this leak if name[@] or name[*]? */ + if (pflags & PF_ASSIGNRHS) + { + temp = array_variable_name (name, &tt, (int *)0); + if (ALL_ELEMENT_SUB (tt[0]) && tt[1] == ']') + temp = array_value (name, quoted|Q_DOUBLE_QUOTES, 0, &atype, &ind); + else + temp = array_value (name, quoted, 0, &atype, &ind); + } + else + temp = array_value (name, quoted, 0, &atype, &ind); + if (atype == 0 && temp) + { + temp = (*temp && (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + ? quote_string (temp) + : quote_escapes (temp); + rflags |= W_ARRAYIND; + if (indp) + *indp = ind; + } + else if (atype == 1 && temp && QUOTED_NULL (temp) && (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + rflags |= W_HASQUOTEDNULL; + } +#endif + else if (var = find_variable (name)) + { + if (var_isset (var) && invisible_p (var) == 0) + { +#if defined (ARRAY_VARS) + if (assoc_p (var)) + temp = assoc_reference (assoc_cell (var), "0"); + else if (array_p (var)) + temp = array_reference (array_cell (var), 0); + else + temp = value_cell (var); +#else + temp = value_cell (var); +#endif + + if (temp) + temp = (*temp && (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + ? quote_string (temp) + : quote_escapes (temp); + } + else + temp = (char *)NULL; + } + else if (var = find_variable_last_nameref (name)) + { + temp = nameref_cell (var); +#if defined (ARRAY_VARS) + /* Handle expanding nameref whose value is x[n] */ + if (temp && *temp && valid_array_reference (temp)) + { + name = temp; + goto expand_arrayref; + } + else +#endif + /* y=2 ; typeset -n x=y; echo ${x} is not the same as echo ${2} in ksh */ + if (temp && *temp && legal_identifier (temp) == 0) + { + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("%s: invalid variable name for name reference"), temp); + temp = &expand_param_error; + } + else + temp = (char *)NULL; + } + else + temp = (char *)NULL; + + if (ret == 0) + { + ret = alloc_word_desc (); + ret->word = temp; + ret->flags |= rflags; + } + return ret; +} + +static char * +parameter_brace_find_indir (name, var_is_special, quoted, find_nameref) + char *name; + int var_is_special, quoted, find_nameref; +{ + char *temp, *t; + WORD_DESC *w; + SHELL_VAR *v; + + if (find_nameref && var_is_special == 0 && (v = find_variable_last_nameref (name)) && + nameref_p (v) && (t = nameref_cell (v)) && *t) + return (savestring (t)); + + /* If var_is_special == 0, and name is not an array reference, this does + more expansion than necessary. It should really look up the variable's + value and not try to expand it. */ + w = parameter_brace_expand_word (name, var_is_special, quoted, PF_IGNUNBOUND, 0); + t = w->word; + /* Have to dequote here if necessary */ + if (t) + { + temp = (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) + ? dequote_string (t) + : dequote_escapes (t); + free (t); + t = temp; + } + dispose_word_desc (w); + + return t; +} + +/* Expand an indirect reference to a variable: ${!NAME} expands to the + value of the variable whose name is the value of NAME. */ +static WORD_DESC * +parameter_brace_expand_indir (name, var_is_special, quoted, quoted_dollar_atp, contains_dollar_at) + char *name; + int var_is_special, quoted; + int *quoted_dollar_atp, *contains_dollar_at; +{ + char *temp, *t; + WORD_DESC *w; + SHELL_VAR *v; + + /* See if it's a nameref first, behave in ksh93-compatible fashion. + There is at least one incompatibility: given ${!foo[0]} where foo=bar, + bash performs an indirect lookup on foo[0] and expands the result; + ksh93 expands bar[0]. We could do that here -- there are enough usable + primitives to do that -- but do not at this point. */ + if (var_is_special == 0 && (v = find_variable_last_nameref (name))) + { + if (nameref_p (v) && (t = nameref_cell (v)) && *t) + { + w = alloc_word_desc (); + w->word = savestring (t); + w->flags = 0; + return w; + } + } + + t = parameter_brace_find_indir (name, var_is_special, quoted, 0); + + chk_atstar (t, quoted, quoted_dollar_atp, contains_dollar_at); + if (t == 0) + return (WORD_DESC *)NULL; + + w = parameter_brace_expand_word (t, SPECIAL_VAR(t, 0), quoted, 0, 0); + free (t); + + return w; +} + +/* Expand the right side of a parameter expansion of the form ${NAMEcVALUE}, + depending on the value of C, the separating character. C can be one of + "-", "+", or "=". QUOTED is true if the entire brace expression occurs + between double quotes. */ +static WORD_DESC * +parameter_brace_expand_rhs (name, value, c, quoted, qdollaratp, hasdollarat) + char *name, *value; + int c, quoted, *qdollaratp, *hasdollarat; +{ + WORD_DESC *w; + WORD_LIST *l; + char *t, *t1, *temp; + int hasdol; + + /* If the entire expression is between double quotes, we want to treat + the value as a double-quoted string, with the exception that we strip + embedded unescaped double quotes (for sh backwards compatibility). */ + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && *value) + { + hasdol = 0; + temp = string_extract_double_quoted (value, &hasdol, 1); + } + else + temp = value; + + w = alloc_word_desc (); + hasdol = 0; + /* XXX was 0 not quoted */ + l = *temp ? expand_string_for_rhs (temp, quoted, &hasdol, (int *)NULL) + : (WORD_LIST *)0; + if (hasdollarat) + *hasdollarat = hasdol || (l && l->next); + if (temp != value) + free (temp); + if (l) + { + /* The expansion of TEMP returned something. We need to treat things + slightly differently if HASDOL is non-zero. If we have "$@", the + individual words have already been quoted. We need to turn them + into a string with the words separated by the first character of + $IFS without any additional quoting, so string_list_dollar_at won't + do the right thing. We use string_list_dollar_star instead. */ + temp = (hasdol || l->next) ? string_list_dollar_star (l) : string_list (l); + + /* If l->next is not null, we know that TEMP contained "$@", since that + is the only expansion that creates more than one word. */ + if (qdollaratp && ((hasdol && quoted) || l->next)) + *qdollaratp = 1; + /* If we have a quoted null result (QUOTED_NULL(temp)) and the word is + a quoted null (l->next == 0 && QUOTED_NULL(l->word->word)), the + flags indicate it (l->word->flags & W_HASQUOTEDNULL), and the + expansion is quoted (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + (which is more paranoia than anything else), we need to return the + quoted null string and set the flags to indicate it. */ + if (l->next == 0 && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && QUOTED_NULL (temp) && QUOTED_NULL (l->word->word) && (l->word->flags & W_HASQUOTEDNULL)) + { + w->flags |= W_HASQUOTEDNULL; + } + dispose_words (l); + } + else if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && hasdol) + { + /* The brace expansion occurred between double quotes and there was + a $@ in TEMP. It does not matter if the $@ is quoted, as long as + it does not expand to anything. In this case, we want to return + a quoted empty string. */ + temp = make_quoted_char ('\0'); + w->flags |= W_HASQUOTEDNULL; + } + else + temp = (char *)NULL; + + if (c == '-' || c == '+') + { + w->word = temp; + return w; + } + + /* c == '=' */ + t = temp ? savestring (temp) : savestring (""); + t1 = dequote_string (t); + free (t); +#if defined (ARRAY_VARS) + if (valid_array_reference (name)) + assign_array_element (name, t1, 0); + else +#endif /* ARRAY_VARS */ + bind_variable (name, t1, 0); +#if 0 + if (STREQ (name, "IFS") == 0) +#endif + stupidly_hack_special_variables (name); + + /* From Posix group discussion Feb-March 2010. Issue 7 0000221 */ + free (temp); + + w->word = t1; + return w; +} + +/* Deal with the right hand side of a ${name:?value} expansion in the case + that NAME is null or not set. If VALUE is non-null it is expanded and + used as the error message to print, otherwise a standard message is + printed. */ +static void +parameter_brace_expand_error (name, value) + char *name, *value; +{ + WORD_LIST *l; + char *temp; + + last_command_exit_value = EXECUTION_FAILURE; /* ensure it's non-zero */ + if (value && *value) + { + l = expand_string (value, 0); + temp = string_list (l); + report_error ("%s: %s", name, temp ? temp : ""); /* XXX was value not "" */ + FREE (temp); + dispose_words (l); + } + else + report_error (_("%s: parameter null or not set"), name); + + /* Free the data we have allocated during this expansion, since we + are about to longjmp out. */ + free (name); + FREE (value); +} + +/* Return 1 if NAME is something for which parameter_brace_expand_length is + OK to do. */ +static int +valid_length_expression (name) + char *name; +{ + return (name[1] == '\0' || /* ${#} */ + ((sh_syntaxtab[(unsigned char) name[1]] & CSPECVAR) && name[2] == '\0') || /* special param */ + (DIGIT (name[1]) && all_digits (name + 1)) || /* ${#11} */ +#if defined (ARRAY_VARS) + valid_array_reference (name + 1) || /* ${#a[7]} */ +#endif + legal_identifier (name + 1)); /* ${#PS1} */ +} + +/* Handle the parameter brace expansion that requires us to return the + length of a parameter. */ +static intmax_t +parameter_brace_expand_length (name) + char *name; +{ + char *t, *newname; + intmax_t number, arg_index; + WORD_LIST *list; +#if defined (ARRAY_VARS) + SHELL_VAR *var; +#endif + + if (name[1] == '\0') /* ${#} */ + number = number_of_args (); + else if ((name[1] == '@' || name[1] == '*') && name[2] == '\0') /* ${#@}, ${#*} */ + number = number_of_args (); + else if ((sh_syntaxtab[(unsigned char) name[1]] & CSPECVAR) && name[2] == '\0') + { + /* Take the lengths of some of the shell's special parameters. */ + switch (name[1]) + { + case '-': + t = which_set_flags (); + break; + case '?': + t = itos (last_command_exit_value); + break; + case '$': + t = itos (dollar_dollar_pid); + break; + case '!': + if (last_asynchronous_pid == NO_PID) + t = (char *)NULL; /* XXX - error if set -u set? */ + else + t = itos (last_asynchronous_pid); + break; + case '#': + t = itos (number_of_args ()); + break; + } + number = STRLEN (t); + FREE (t); + } +#if defined (ARRAY_VARS) + else if (valid_array_reference (name + 1)) + number = array_length_reference (name + 1); +#endif /* ARRAY_VARS */ + else + { + number = 0; + + if (legal_number (name + 1, &arg_index)) /* ${#1} */ + { + t = get_dollar_var_value (arg_index); + if (t == 0 && unbound_vars_is_error) + return INTMAX_MIN; + number = MB_STRLEN (t); + FREE (t); + } +#if defined (ARRAY_VARS) + else if ((var = find_variable (name + 1)) && (invisible_p (var) == 0) && (array_p (var) || assoc_p (var))) + { + if (assoc_p (var)) + t = assoc_reference (assoc_cell (var), "0"); + else + t = array_reference (array_cell (var), 0); + if (t == 0 && unbound_vars_is_error) + return INTMAX_MIN; + number = MB_STRLEN (t); + } +#endif + else /* ${#PS1} */ + { + newname = savestring (name); + newname[0] = '$'; + list = expand_string (newname, Q_DOUBLE_QUOTES); + t = list ? string_list (list) : (char *)NULL; + free (newname); + if (list) + dispose_words (list); + + number = t ? MB_STRLEN (t) : 0; + FREE (t); + } + } + + return (number); +} + +/* Skip characters in SUBSTR until DELIM. SUBSTR is an arithmetic expression, + so we do some ad-hoc parsing of an arithmetic expression to find + the first DELIM, instead of using strchr(3). Two rules: + 1. If the substring contains a `(', read until closing `)'. + 2. If the substring contains a `?', read past one `:' for each `?'. +*/ + +static char * +skiparith (substr, delim) + char *substr; + int delim; +{ + size_t sublen; + int skipcol, pcount, i; + DECLARE_MBSTATE; + + sublen = strlen (substr); + i = skipcol = pcount = 0; + while (substr[i]) + { + /* Balance parens */ + if (substr[i] == LPAREN) + { + pcount++; + i++; + continue; + } + if (substr[i] == RPAREN && pcount) + { + pcount--; + i++; + continue; + } + if (pcount) + { + ADVANCE_CHAR (substr, sublen, i); + continue; + } + + /* Skip one `:' for each `?' */ + if (substr[i] == ':' && skipcol) + { + skipcol--; + i++; + continue; + } + if (substr[i] == delim) + break; + if (substr[i] == '?') + { + skipcol++; + i++; + continue; + } + ADVANCE_CHAR (substr, sublen, i); + } + + return (substr + i); +} + +/* Verify and limit the start and end of the desired substring. If + VTYPE == 0, a regular shell variable is being used; if it is 1, + then the positional parameters are being used; if it is 2, then + VALUE is really a pointer to an array variable that should be used. + Return value is 1 if both values were OK, 0 if there was a problem + with an invalid expression, or -1 if the values were out of range. */ +static int +verify_substring_values (v, value, substr, vtype, e1p, e2p) + SHELL_VAR *v; + char *value, *substr; + int vtype; + intmax_t *e1p, *e2p; +{ + char *t, *temp1, *temp2; + arrayind_t len; + int expok; +#if defined (ARRAY_VARS) + ARRAY *a; + HASH_TABLE *h; +#endif + + /* duplicate behavior of strchr(3) */ + t = skiparith (substr, ':'); + if (*t && *t == ':') + *t = '\0'; + else + t = (char *)0; + + temp1 = expand_arith_string (substr, Q_DOUBLE_QUOTES); + *e1p = evalexp (temp1, &expok); + free (temp1); + if (expok == 0) + return (0); + + len = -1; /* paranoia */ + switch (vtype) + { + case VT_VARIABLE: + case VT_ARRAYMEMBER: + len = MB_STRLEN (value); + break; + case VT_POSPARMS: + len = number_of_args () + 1; + if (*e1p == 0) + len++; /* add one arg if counting from $0 */ + break; +#if defined (ARRAY_VARS) + case VT_ARRAYVAR: + /* For arrays, the first value deals with array indices. Negative + offsets count from one past the array's maximum index. Associative + arrays treat the number of elements as the maximum index. */ + if (assoc_p (v)) + { + h = assoc_cell (v); + len = assoc_num_elements (h) + (*e1p < 0); + } + else + { + a = (ARRAY *)value; + len = array_max_index (a) + (*e1p < 0); /* arrays index from 0 to n - 1 */ + } + break; +#endif + } + + if (len == -1) /* paranoia */ + return -1; + + if (*e1p < 0) /* negative offsets count from end */ + *e1p += len; + + if (*e1p > len || *e1p < 0) + return (-1); + +#if defined (ARRAY_VARS) + /* For arrays, the second offset deals with the number of elements. */ + if (vtype == VT_ARRAYVAR) + len = assoc_p (v) ? assoc_num_elements (h) : array_num_elements (a); +#endif + + if (t) + { + t++; + temp2 = savestring (t); + temp1 = expand_arith_string (temp2, Q_DOUBLE_QUOTES); + free (temp2); + t[-1] = ':'; + *e2p = evalexp (temp1, &expok); + free (temp1); + if (expok == 0) + return (0); +#if 1 + if ((vtype == VT_ARRAYVAR || vtype == VT_POSPARMS) && *e2p < 0) +#else + /* bash-4.3: allow positional parameter length < 0 to count backwards + from end of positional parameters */ + if (vtype == VT_ARRAYVAR && *e2p < 0) +#endif + { + internal_error (_("%s: substring expression < 0"), t); + return (0); + } +#if defined (ARRAY_VARS) + /* In order to deal with sparse arrays, push the intelligence about how + to deal with the number of elements desired down to the array- + specific functions. */ + if (vtype != VT_ARRAYVAR) +#endif + { + if (*e2p < 0) + { + *e2p += len; + if (*e2p < 0 || *e2p < *e1p) + { + internal_error (_("%s: substring expression < 0"), t); + return (0); + } + } + else + *e2p += *e1p; /* want E2 chars starting at E1 */ + if (*e2p > len) + *e2p = len; + } + } + else + *e2p = len; + + return (1); +} + +/* Return the type of variable specified by VARNAME (simple variable, + positional param, or array variable). Also return the value specified + by VARNAME (value of a variable or a reference to an array element). + QUOTED is the standard description of quoting state, using Q_* defines. + FLAGS is currently a set of flags to pass to array_value. If IND is + non-null and not INTMAX_MIN, and FLAGS includes AV_USEIND, IND is + passed to array_value so the array index is not computed again. + If this returns VT_VARIABLE, the caller assumes that CTLESC and CTLNUL + characters in the value are quoted with CTLESC and takes appropriate + steps. For convenience, *VALP is set to the dequoted VALUE. */ +static int +get_var_and_type (varname, value, ind, quoted, flags, varp, valp) + char *varname, *value; + arrayind_t ind; + int quoted, flags; + SHELL_VAR **varp; + char **valp; +{ + int vtype, want_indir; + char *temp, *vname; + WORD_DESC *wd; +#if defined (ARRAY_VARS) + SHELL_VAR *v; +#endif + arrayind_t lind; + + want_indir = *varname == '!' && + (legal_variable_starter ((unsigned char)varname[1]) || DIGIT (varname[1]) + || VALID_INDIR_PARAM (varname[1])); + if (want_indir) + vname = parameter_brace_find_indir (varname+1, SPECIAL_VAR (varname, 1), quoted, 1); + else + vname = varname; + + /* This sets vtype to VT_VARIABLE or VT_POSPARMS */ + vtype = (vname[0] == '@' || vname[0] == '*') && vname[1] == '\0'; + if (vtype == VT_POSPARMS && vname[0] == '*') + vtype |= VT_STARSUB; + *varp = (SHELL_VAR *)NULL; + +#if defined (ARRAY_VARS) + if (valid_array_reference (vname)) + { + v = array_variable_part (vname, &temp, (int *)0); + /* If we want to signal array_value to use an already-computed index, + set LIND to that index */ + lind = (ind != INTMAX_MIN && (flags & AV_USEIND)) ? ind : 0; + if (v && invisible_p (v)) + { + vtype = VT_ARRAYMEMBER; + *varp = (SHELL_VAR *)NULL; + *valp = (char *)NULL; + } + if (v && (array_p (v) || assoc_p (v))) + { /* [ */ + if (ALL_ELEMENT_SUB (temp[0]) && temp[1] == ']') + { + /* Callers have to differentiate betwen indexed and associative */ + vtype = VT_ARRAYVAR; + if (temp[0] == '*') + vtype |= VT_STARSUB; + *valp = array_p (v) ? (char *)array_cell (v) : (char *)assoc_cell (v); + } + else + { + vtype = VT_ARRAYMEMBER; + *valp = array_value (vname, Q_DOUBLE_QUOTES, flags, (int *)NULL, &lind); + } + *varp = v; + } + else if (v && (ALL_ELEMENT_SUB (temp[0]) && temp[1] == ']')) + { + vtype = VT_VARIABLE; + *varp = v; + if (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) + *valp = dequote_string (value); + else + *valp = dequote_escapes (value); + } + else + { + vtype = VT_ARRAYMEMBER; + *varp = v; + *valp = array_value (vname, Q_DOUBLE_QUOTES, flags, (int *)NULL, &lind); + } + } + else if ((v = find_variable (vname)) && (invisible_p (v) == 0) && (assoc_p (v) || array_p (v))) + { + vtype = VT_ARRAYMEMBER; + *varp = v; + *valp = assoc_p (v) ? assoc_reference (assoc_cell (v), "0") : array_reference (array_cell (v), 0); + } + else +#endif + { + if (value && vtype == VT_VARIABLE) + { + if (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) + *valp = dequote_string (value); + else + *valp = dequote_escapes (value); + } + else + *valp = value; + } + + if (want_indir) + free (vname); + + return vtype; +} + +/******************************************************/ +/* */ +/* Functions to extract substrings of variable values */ +/* */ +/******************************************************/ + +#if defined (HANDLE_MULTIBYTE) +/* Character-oriented rather than strictly byte-oriented substrings. S and + E, rather being strict indices into STRING, indicate character (possibly + multibyte character) positions that require calculation. + Used by the ${param:offset[:length]} expansion. */ +static char * +mb_substring (string, s, e) + char *string; + int s, e; +{ + char *tt; + int start, stop, i, slen; + DECLARE_MBSTATE; + + start = 0; + /* Don't need string length in ADVANCE_CHAR unless multibyte chars possible. */ + slen = (MB_CUR_MAX > 1) ? STRLEN (string) : 0; + + i = s; + while (string[start] && i--) + ADVANCE_CHAR (string, slen, start); + stop = start; + i = e - s; + while (string[stop] && i--) + ADVANCE_CHAR (string, slen, stop); + tt = substring (string, start, stop); + return tt; +} +#endif + +/* Process a variable substring expansion: ${name:e1[:e2]}. If VARNAME + is `@', use the positional parameters; otherwise, use the value of + VARNAME. If VARNAME is an array variable, use the array elements. */ + +static char * +parameter_brace_substring (varname, value, ind, substr, quoted, flags) + char *varname, *value; + int ind; + char *substr; + int quoted, flags; +{ + intmax_t e1, e2; + int vtype, r, starsub; + char *temp, *val, *tt, *oname; + SHELL_VAR *v; + + if (value == 0) + return ((char *)NULL); + + oname = this_command_name; + this_command_name = varname; + + vtype = get_var_and_type (varname, value, ind, quoted, flags, &v, &val); + if (vtype == -1) + { + this_command_name = oname; + return ((char *)NULL); + } + + starsub = vtype & VT_STARSUB; + vtype &= ~VT_STARSUB; + + r = verify_substring_values (v, val, substr, vtype, &e1, &e2); + this_command_name = oname; + if (r <= 0) + { + if (vtype == VT_VARIABLE) + FREE (val); + return ((r == 0) ? &expand_param_error : (char *)NULL); + } + + switch (vtype) + { + case VT_VARIABLE: + case VT_ARRAYMEMBER: +#if defined (HANDLE_MULTIBYTE) + if (MB_CUR_MAX > 1) + tt = mb_substring (val, e1, e2); + else +#endif + tt = substring (val, e1, e2); + + if (vtype == VT_VARIABLE) + FREE (val); + if (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) + temp = quote_string (tt); + else + temp = tt ? quote_escapes (tt) : (char *)NULL; + FREE (tt); + break; + case VT_POSPARMS: + tt = pos_params (varname, e1, e2, quoted); + if ((quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) == 0) + { + temp = tt ? quote_escapes (tt) : (char *)NULL; + FREE (tt); + } + else + temp = tt; + break; +#if defined (ARRAY_VARS) + case VT_ARRAYVAR: + if (assoc_p (v)) + /* we convert to list and take first e2 elements starting at e1th + element -- officially undefined for now */ + temp = assoc_subrange (assoc_cell (v), e1, e2, starsub, quoted); + else + /* We want E2 to be the number of elements desired (arrays can be sparse, + so verify_substring_values just returns the numbers specified and we + rely on array_subrange to understand how to deal with them). */ + temp = array_subrange (array_cell (v), e1, e2, starsub, quoted); + /* array_subrange now calls array_quote_escapes as appropriate, so the + caller no longer needs to. */ + break; +#endif + default: + temp = (char *)NULL; + } + + return temp; +} + +/****************************************************************/ +/* */ +/* Functions to perform pattern substitution on variable values */ +/* */ +/****************************************************************/ + +static int +shouldexp_replacement (s) + char *s; +{ + register char *p; + + for (p = s; p && *p; p++) + { + if (*p == '\\') + p++; + else if (*p == '&') + return 1; + } + return 0; +} + +char * +pat_subst (string, pat, rep, mflags) + char *string, *pat, *rep; + int mflags; +{ + char *ret, *s, *e, *str, *rstr, *mstr; + int rsize, rptr, l, replen, mtype, rxpand, rslen, mlen; + + if (string == 0) + return (savestring ("")); + + mtype = mflags & MATCH_TYPEMASK; + +#if 0 /* bash-4.2 ? */ + rxpand = (rep && *rep) ? shouldexp_replacement (rep) : 0; +#else + rxpand = 0; +#endif + + /* Special cases: + * 1. A null pattern with mtype == MATCH_BEG means to prefix STRING + * with REP and return the result. + * 2. A null pattern with mtype == MATCH_END means to append REP to + * STRING and return the result. + * These don't understand or process `&' in the replacement string. + */ + if ((pat == 0 || *pat == 0) && (mtype == MATCH_BEG || mtype == MATCH_END)) + { + replen = STRLEN (rep); + l = STRLEN (string); + ret = (char *)xmalloc (replen + l + 2); + if (replen == 0) + strcpy (ret, string); + else if (mtype == MATCH_BEG) + { + strcpy (ret, rep); + strcpy (ret + replen, string); + } + else + { + strcpy (ret, string); + strcpy (ret + l, rep); + } + return (ret); + } + + ret = (char *)xmalloc (rsize = 64); + ret[0] = '\0'; + + for (replen = STRLEN (rep), rptr = 0, str = string;;) + { + if (match_pattern (str, pat, mtype, &s, &e) == 0) + break; + l = s - str; + + if (rxpand) + { + int x; + mlen = e - s; + mstr = xmalloc (mlen + 1); + for (x = 0; x < mlen; x++) + mstr[x] = s[x]; + mstr[mlen] = '\0'; + rstr = strcreplace (rep, '&', mstr, 0); + rslen = strlen (rstr); + } + else + { + rstr = rep; + rslen = replen; + } + + RESIZE_MALLOCED_BUFFER (ret, rptr, (l + rslen), rsize, 64); + + /* OK, now copy the leading unmatched portion of the string (from + str to s) to ret starting at rptr (the current offset). Then copy + the replacement string at ret + rptr + (s - str). Increment + rptr (if necessary) and str and go on. */ + if (l) + { + strncpy (ret + rptr, str, l); + rptr += l; + } + if (replen) + { + strncpy (ret + rptr, rstr, rslen); + rptr += rslen; + } + str = e; /* e == end of match */ + + if (rstr != rep) + free (rstr); + + if (((mflags & MATCH_GLOBREP) == 0) || mtype != MATCH_ANY) + break; + + if (s == e) + { + /* On a zero-length match, make sure we copy one character, since + we increment one character to avoid infinite recursion. */ + RESIZE_MALLOCED_BUFFER (ret, rptr, 1, rsize, 64); + ret[rptr++] = *str++; + e++; /* avoid infinite recursion on zero-length match */ + } + } + + /* Now copy the unmatched portion of the input string */ + if (str && *str) + { + RESIZE_MALLOCED_BUFFER (ret, rptr, STRLEN(str) + 1, rsize, 64); + strcpy (ret + rptr, str); + } + else + ret[rptr] = '\0'; + + return ret; +} + +/* Do pattern match and replacement on the positional parameters. */ +static char * +pos_params_pat_subst (string, pat, rep, mflags) + char *string, *pat, *rep; + int mflags; +{ + WORD_LIST *save, *params; + WORD_DESC *w; + char *ret; + int pchar, qflags; + + save = params = list_rest_of_args (); + if (save == 0) + return ((char *)NULL); + + for ( ; params; params = params->next) + { + ret = pat_subst (params->word->word, pat, rep, mflags); + w = alloc_word_desc (); + w->word = ret ? ret : savestring (""); + dispose_word (params->word); + params->word = w; + } + + pchar = (mflags & MATCH_STARSUB) == MATCH_STARSUB ? '*' : '@'; + qflags = (mflags & MATCH_QUOTED) == MATCH_QUOTED ? Q_DOUBLE_QUOTES : 0; + + ret = string_list_pos_params (pchar, save, qflags); + + dispose_words (save); + + return (ret); +} + +/* Perform pattern substitution on VALUE, which is the expansion of + VARNAME. PATSUB is an expression supplying the pattern to match + and the string to substitute. QUOTED is a flags word containing + the type of quoting currently in effect. */ +static char * +parameter_brace_patsub (varname, value, ind, patsub, quoted, flags) + char *varname, *value; + int ind; + char *patsub; + int quoted, flags; +{ + int vtype, mflags, starsub, delim; + char *val, *temp, *pat, *rep, *p, *lpatsub, *tt; + SHELL_VAR *v; + + if (value == 0) + return ((char *)NULL); + + this_command_name = varname; + + vtype = get_var_and_type (varname, value, ind, quoted, flags, &v, &val); + if (vtype == -1) + return ((char *)NULL); + + starsub = vtype & VT_STARSUB; + vtype &= ~VT_STARSUB; + + mflags = 0; + /* PATSUB is never NULL when this is called. */ + if (*patsub == '/') + { + mflags |= MATCH_GLOBREP; + patsub++; + } + + /* Malloc this because expand_string_if_necessary or one of the expansion + functions in its call chain may free it on a substitution error. */ + lpatsub = savestring (patsub); + + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + mflags |= MATCH_QUOTED; + + if (starsub) + mflags |= MATCH_STARSUB; + + /* If the pattern starts with a `/', make sure we skip over it when looking + for the replacement delimiter. */ + delim = skip_to_delim (lpatsub, ((*patsub == '/') ? 1 : 0), "/", 0); + if (lpatsub[delim] == '/') + { + lpatsub[delim] = 0; + rep = lpatsub + delim + 1; + } + else + rep = (char *)NULL; + + if (rep && *rep == '\0') + rep = (char *)NULL; + + /* Perform the same expansions on the pattern as performed by the + pattern removal expansions. */ + pat = getpattern (lpatsub, quoted, 1); + + if (rep) + { + /* We want to perform quote removal on the expanded replacement even if + the entire expansion is double-quoted because the parser and string + extraction functions treated quotes in the replacement string as + special. THIS IS NOT BACKWARDS COMPATIBLE WITH BASH-4.2. */ + if (shell_compatibility_level > 42) + rep = expand_string_if_necessary (rep, quoted & ~(Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT), expand_string_unsplit); + /* This is the bash-4.2 code. */ + else if ((mflags & MATCH_QUOTED) == 0) + rep = expand_string_if_necessary (rep, quoted, expand_string_unsplit); + else + rep = expand_string_to_string_internal (rep, quoted, expand_string_unsplit); + } + + /* ksh93 doesn't allow the match specifier to be a part of the expanded + pattern. This is an extension. Make sure we don't anchor the pattern + at the beginning or end of the string if we're doing global replacement, + though. */ + p = pat; + if (mflags & MATCH_GLOBREP) + mflags |= MATCH_ANY; + else if (pat && pat[0] == '#') + { + mflags |= MATCH_BEG; + p++; + } + else if (pat && pat[0] == '%') + { + mflags |= MATCH_END; + p++; + } + else + mflags |= MATCH_ANY; + + /* OK, we now want to substitute REP for PAT in VAL. If + flags & MATCH_GLOBREP is non-zero, the substitution is done + everywhere, otherwise only the first occurrence of PAT is + replaced. The pattern matching code doesn't understand + CTLESC quoting CTLESC and CTLNUL so we use the dequoted variable + values passed in (VT_VARIABLE) so the pattern substitution + code works right. We need to requote special chars after + we're done for VT_VARIABLE and VT_ARRAYMEMBER, and for the + other cases if QUOTED == 0, since the posparams and arrays + indexed by * or @ do special things when QUOTED != 0. */ + + switch (vtype) + { + case VT_VARIABLE: + case VT_ARRAYMEMBER: + temp = pat_subst (val, p, rep, mflags); + if (vtype == VT_VARIABLE) + FREE (val); + if (temp) + { + tt = (mflags & MATCH_QUOTED) ? quote_string (temp) : quote_escapes (temp); + free (temp); + temp = tt; + } + break; + case VT_POSPARMS: + temp = pos_params_pat_subst (val, p, rep, mflags); + if (temp && (mflags & MATCH_QUOTED) == 0) + { + tt = quote_escapes (temp); + free (temp); + temp = tt; + } + break; +#if defined (ARRAY_VARS) + case VT_ARRAYVAR: + temp = assoc_p (v) ? assoc_patsub (assoc_cell (v), p, rep, mflags) + : array_patsub (array_cell (v), p, rep, mflags); + /* Don't call quote_escapes anymore; array_patsub calls + array_quote_escapes as appropriate before adding the + space separators; ditto for assoc_patsub. */ + break; +#endif + } + + FREE (pat); + FREE (rep); + free (lpatsub); + + return temp; +} + +/****************************************************************/ +/* */ +/* Functions to perform case modification on variable values */ +/* */ +/****************************************************************/ + +/* Do case modification on the positional parameters. */ + +static char * +pos_params_modcase (string, pat, modop, mflags) + char *string, *pat; + int modop; + int mflags; +{ + WORD_LIST *save, *params; + WORD_DESC *w; + char *ret; + int pchar, qflags; + + save = params = list_rest_of_args (); + if (save == 0) + return ((char *)NULL); + + for ( ; params; params = params->next) + { + ret = sh_modcase (params->word->word, pat, modop); + w = alloc_word_desc (); + w->word = ret ? ret : savestring (""); + dispose_word (params->word); + params->word = w; + } + + pchar = (mflags & MATCH_STARSUB) == MATCH_STARSUB ? '*' : '@'; + qflags = (mflags & MATCH_QUOTED) == MATCH_QUOTED ? Q_DOUBLE_QUOTES : 0; + + ret = string_list_pos_params (pchar, save, qflags); + dispose_words (save); + + return (ret); +} + +/* Perform case modification on VALUE, which is the expansion of + VARNAME. MODSPEC is an expression supplying the type of modification + to perform. QUOTED is a flags word containing the type of quoting + currently in effect. */ +static char * +parameter_brace_casemod (varname, value, ind, modspec, patspec, quoted, flags) + char *varname, *value; + int ind, modspec; + char *patspec; + int quoted, flags; +{ + int vtype, starsub, modop, mflags, x; + char *val, *temp, *pat, *p, *lpat, *tt; + SHELL_VAR *v; + + if (value == 0) + return ((char *)NULL); + + this_command_name = varname; + + vtype = get_var_and_type (varname, value, ind, quoted, flags, &v, &val); + if (vtype == -1) + return ((char *)NULL); + + starsub = vtype & VT_STARSUB; + vtype &= ~VT_STARSUB; + + modop = 0; + mflags = 0; + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + mflags |= MATCH_QUOTED; + if (starsub) + mflags |= MATCH_STARSUB; + + p = patspec; + if (modspec == '^') + { + x = p && p[0] == modspec; + modop = x ? CASE_UPPER : CASE_UPFIRST; + p += x; + } + else if (modspec == ',') + { + x = p && p[0] == modspec; + modop = x ? CASE_LOWER : CASE_LOWFIRST; + p += x; + } + else if (modspec == '~') + { + x = p && p[0] == modspec; + modop = x ? CASE_TOGGLEALL : CASE_TOGGLE; + p += x; + } + + lpat = p ? savestring (p) : 0; + /* Perform the same expansions on the pattern as performed by the + pattern removal expansions. FOR LATER */ + pat = lpat ? getpattern (lpat, quoted, 1) : 0; + + /* OK, now we do the case modification. */ + switch (vtype) + { + case VT_VARIABLE: + case VT_ARRAYMEMBER: + temp = sh_modcase (val, pat, modop); + if (vtype == VT_VARIABLE) + FREE (val); + if (temp) + { + tt = (mflags & MATCH_QUOTED) ? quote_string (temp) : quote_escapes (temp); + free (temp); + temp = tt; + } + break; + + case VT_POSPARMS: + temp = pos_params_modcase (val, pat, modop, mflags); + if (temp && (mflags & MATCH_QUOTED) == 0) + { + tt = quote_escapes (temp); + free (temp); + temp = tt; + } + break; + +#if defined (ARRAY_VARS) + case VT_ARRAYVAR: + temp = assoc_p (v) ? assoc_modcase (assoc_cell (v), pat, modop, mflags) + : array_modcase (array_cell (v), pat, modop, mflags); + /* Don't call quote_escapes; array_modcase calls array_quote_escapes + as appropriate before adding the space separators; ditto for + assoc_modcase. */ + break; +#endif + } + + FREE (pat); + free (lpat); + + return temp; +} + +/* Check for unbalanced parens in S, which is the contents of $(( ... )). If + any occur, this must be a nested command substitution, so return 0. + Otherwise, return 1. A valid arithmetic expression must always have a + ( before a matching ), so any cases where there are more right parens + means that this must not be an arithmetic expression, though the parser + will not accept it without a balanced total number of parens. */ +static int +chk_arithsub (s, len) + const char *s; + int len; +{ + int i, count; + DECLARE_MBSTATE; + + i = count = 0; + while (i < len) + { + if (s[i] == LPAREN) + count++; + else if (s[i] == RPAREN) + { + count--; + if (count < 0) + return 0; + } + + switch (s[i]) + { + default: + ADVANCE_CHAR (s, len, i); + break; + + case '\\': + i++; + if (s[i]) + ADVANCE_CHAR (s, len, i); + break; + + case '\'': + i = skip_single_quoted (s, len, ++i); + break; + + case '"': + i = skip_double_quoted ((char *)s, len, ++i); + break; + } + } + + return (count == 0); +} + +/****************************************************************/ +/* */ +/* Functions to perform parameter expansion on a string */ +/* */ +/****************************************************************/ + +/* ${[#][!]name[[:][^[^]][,[,]]#[#]%[%]-=?+[word][:e1[:e2]]]} */ +static WORD_DESC * +parameter_brace_expand (string, indexp, quoted, pflags, quoted_dollar_atp, contains_dollar_at) + char *string; + int *indexp, quoted, *quoted_dollar_atp, *contains_dollar_at, pflags; +{ + int check_nullness, var_is_set, var_is_null, var_is_special; + int want_substring, want_indir, want_patsub, want_casemod; + char *name, *value, *temp, *temp1; + WORD_DESC *tdesc, *ret; + int t_index, sindex, c, tflag, modspec; + intmax_t number; + arrayind_t ind; + + temp = temp1 = value = (char *)NULL; + var_is_set = var_is_null = var_is_special = check_nullness = 0; + want_substring = want_indir = want_patsub = want_casemod = 0; + + sindex = *indexp; + t_index = ++sindex; + /* ${#var} doesn't have any of the other parameter expansions on it. */ + if (string[t_index] == '#' && legal_variable_starter (string[t_index+1])) /* {{ */ + name = string_extract (string, &t_index, "}", SX_VARNAME); + else +#if defined (CASEMOD_EXPANSIONS) + /* To enable case-toggling expansions using the `~' operator character + change the 1 to 0. */ +# if defined (CASEMOD_CAPCASE) + name = string_extract (string, &t_index, "#%^,~:-=?+/}", SX_VARNAME); +# else + name = string_extract (string, &t_index, "#%^,:-=?+/}", SX_VARNAME); +# endif /* CASEMOD_CAPCASE */ +#else + name = string_extract (string, &t_index, "#%:-=?+/}", SX_VARNAME); +#endif /* CASEMOD_EXPANSIONS */ + + ret = 0; + tflag = 0; + + ind = INTMAX_MIN; + + /* If the name really consists of a special variable, then make sure + that we have the entire name. We don't allow indirect references + to special variables except `#', `?', `@' and `*'. */ + if ((sindex == t_index && VALID_SPECIAL_LENGTH_PARAM (string[t_index])) || + (sindex == t_index - 1 && string[sindex] == '!' && VALID_INDIR_PARAM (string[t_index]))) + { + t_index++; + temp1 = string_extract (string, &t_index, "#%:-=?+/}", 0); + name = (char *)xrealloc (name, 3 + (strlen (temp1))); + *name = string[sindex]; + if (string[sindex] == '!') + { + /* indirect reference of $#, $?, $@, or $* */ + name[1] = string[sindex + 1]; + strcpy (name + 2, temp1); + } + else + strcpy (name + 1, temp1); + free (temp1); + } + sindex = t_index; + + /* Find out what character ended the variable name. Then + do the appropriate thing. */ + if (c = string[sindex]) + sindex++; + + /* If c is followed by one of the valid parameter expansion + characters, move past it as normal. If not, assume that + a substring specification is being given, and do not move + past it. */ + if (c == ':' && VALID_PARAM_EXPAND_CHAR (string[sindex])) + { + check_nullness++; + if (c = string[sindex]) + sindex++; + } + else if (c == ':' && string[sindex] != RBRACE) + want_substring = 1; + else if (c == '/' /* && string[sindex] != RBRACE */) /* XXX */ + want_patsub = 1; +#if defined (CASEMOD_EXPANSIONS) + else if (c == '^' || c == ',' || c == '~') + { + modspec = c; + want_casemod = 1; + } +#endif + + /* Catch the valid and invalid brace expressions that made it through the + tests above. */ + /* ${#-} is a valid expansion and means to take the length of $-. + Similarly for ${#?} and ${##}... */ + if (name[0] == '#' && name[1] == '\0' && check_nullness == 0 && + VALID_SPECIAL_LENGTH_PARAM (c) && string[sindex] == RBRACE) + { + name = (char *)xrealloc (name, 3); + name[1] = c; + name[2] = '\0'; + c = string[sindex++]; + } + + /* ...but ${#%}, ${#:}, ${#=}, ${#+}, and ${#/} are errors. */ + if (name[0] == '#' && name[1] == '\0' && check_nullness == 0 && + member (c, "%:=+/") && string[sindex] == RBRACE) + { + temp = (char *)NULL; + goto bad_substitution; + } + + /* Indirect expansion begins with a `!'. A valid indirect expansion is + either a variable name, one of the positional parameters or a special + variable that expands to one of the positional parameters. */ + want_indir = *name == '!' && + (legal_variable_starter ((unsigned char)name[1]) || DIGIT (name[1]) + || VALID_INDIR_PARAM (name[1])); + + /* Determine the value of this variable. */ + + /* Check for special variables, directly referenced. */ + if (SPECIAL_VAR (name, want_indir)) + var_is_special++; + + /* Check for special expansion things, like the length of a parameter */ + if (*name == '#' && name[1]) + { + /* If we are not pointing at the character just after the + closing brace, then we haven't gotten all of the name. + Since it begins with a special character, this is a bad + substitution. Also check NAME for validity before trying + to go on. */ + if (string[sindex - 1] != RBRACE || (valid_length_expression (name) == 0)) + { + temp = (char *)NULL; + goto bad_substitution; + } + + number = parameter_brace_expand_length (name); + if (number == INTMAX_MIN && unbound_vars_is_error) + { + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (name+1); + free (name); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } + free (name); + + *indexp = sindex; + if (number < 0) + return (&expand_wdesc_error); + else + { + ret = alloc_word_desc (); + ret->word = itos (number); + return ret; + } + } + + /* ${@} is identical to $@. */ + if (name[0] == '@' && name[1] == '\0') + { + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 1; + + if (contains_dollar_at) + *contains_dollar_at = 1; + + tflag |= W_DOLLARAT; + } + + /* Process ${!PREFIX*} expansion. */ + if (want_indir && string[sindex - 1] == RBRACE && + (string[sindex - 2] == '*' || string[sindex - 2] == '@') && + legal_variable_starter ((unsigned char) name[1])) + { + char **x; + WORD_LIST *xlist; + + temp1 = savestring (name + 1); + number = strlen (temp1); + temp1[number - 1] = '\0'; + x = all_variables_matching_prefix (temp1); + xlist = strvec_to_word_list (x, 0, 0); + if (string[sindex - 2] == '*') + temp = string_list_dollar_star (xlist); + else + { + temp = string_list_dollar_at (xlist, quoted); + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 1; + if (contains_dollar_at) + *contains_dollar_at = 1; + + tflag |= W_DOLLARAT; + } + free (x); + dispose_words (xlist); + free (temp1); + *indexp = sindex; + + free (name); + + ret = alloc_word_desc (); + ret->word = temp; + ret->flags = tflag; /* XXX */ + return ret; + } + +#if defined (ARRAY_VARS) + /* Process ${!ARRAY[@]} and ${!ARRAY[*]} expansion. */ /* [ */ + if (want_indir && string[sindex - 1] == RBRACE && + string[sindex - 2] == ']' && valid_array_reference (name+1)) + { + char *x, *x1; + + temp1 = savestring (name + 1); + x = array_variable_name (temp1, &x1, (int *)0); /* [ */ + FREE (x); + if (ALL_ELEMENT_SUB (x1[0]) && x1[1] == ']') + { + temp = array_keys (temp1, quoted); /* handles assoc vars too */ + if (x1[0] == '@') + { + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 1; + if (contains_dollar_at) + *contains_dollar_at = 1; + + tflag |= W_DOLLARAT; + } + + free (temp1); + *indexp = sindex; + + ret = alloc_word_desc (); + ret->word = temp; + ret->flags = tflag; /* XXX */ + return ret; + } + + free (temp1); + } +#endif /* ARRAY_VARS */ + + /* Make sure that NAME is valid before trying to go on. */ + if (valid_brace_expansion_word (want_indir ? name + 1 : name, + var_is_special) == 0) + { + temp = (char *)NULL; + goto bad_substitution; + } + + if (want_indir) + tdesc = parameter_brace_expand_indir (name + 1, var_is_special, quoted, quoted_dollar_atp, contains_dollar_at); + else + tdesc = parameter_brace_expand_word (name, var_is_special, quoted, PF_IGNUNBOUND|(pflags&(PF_NOSPLIT2|PF_ASSIGNRHS)), &ind); + + if (tdesc) + { + temp = tdesc->word; + tflag = tdesc->flags; + dispose_word_desc (tdesc); + } + else + temp = (char *)0; + + if (temp == &expand_param_error || temp == &expand_param_fatal) + { + FREE (name); + FREE (value); + return (temp == &expand_param_error ? &expand_wdesc_error : &expand_wdesc_fatal); + } + +#if defined (ARRAY_VARS) + if (valid_array_reference (name)) + chk_atstar (name, quoted, quoted_dollar_atp, contains_dollar_at); +#endif + + var_is_set = temp != (char *)0; + var_is_null = check_nullness && (var_is_set == 0 || *temp == 0); + /* XXX - this may not need to be restricted to special variables */ + if (check_nullness) + var_is_null |= var_is_set && var_is_special && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && QUOTED_NULL (temp); + + /* Get the rest of the stuff inside the braces. */ + if (c && c != RBRACE) + { + /* Extract the contents of the ${ ... } expansion + according to the Posix.2 rules. */ + value = extract_dollar_brace_string (string, &sindex, quoted, (c == '%' || c == '#' || c =='/' || c == '^' || c == ',' || c ==':') ? SX_POSIXEXP|SX_WORD : SX_WORD); + if (string[sindex] == RBRACE) + sindex++; + else + goto bad_substitution; + } + else + value = (char *)NULL; + + *indexp = sindex; + + /* All the cases where an expansion can possibly generate an unbound + variable error. */ + if (want_substring || want_patsub || want_casemod || c == '#' || c == '%' || c == RBRACE) + { + if (var_is_set == 0 && unbound_vars_is_error && ((name[0] != '@' && name[0] != '*') || name[1])) + { + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (name); + FREE (value); + FREE (temp); + free (name); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } + } + + /* If this is a substring spec, process it and add the result. */ + if (want_substring) + { + temp1 = parameter_brace_substring (name, temp, ind, value, quoted, (tflag & W_ARRAYIND) ? AV_USEIND : 0); + FREE (name); + FREE (value); + FREE (temp); + + if (temp1 == &expand_param_error) + return (&expand_wdesc_error); + else if (temp1 == &expand_param_fatal) + return (&expand_wdesc_fatal); + + ret = alloc_word_desc (); + ret->word = temp1; + if (temp1 && QUOTED_NULL (temp1) && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ret->flags |= W_QUOTED|W_HASQUOTEDNULL; + return ret; + } + else if (want_patsub) + { + temp1 = parameter_brace_patsub (name, temp, ind, value, quoted, (tflag & W_ARRAYIND) ? AV_USEIND : 0); + FREE (name); + FREE (value); + FREE (temp); + + if (temp1 == &expand_param_error) + return (&expand_wdesc_error); + else if (temp1 == &expand_param_fatal) + return (&expand_wdesc_fatal); + + ret = alloc_word_desc (); + ret->word = temp1; + if (temp1 && QUOTED_NULL (temp1) && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ret->flags |= W_QUOTED|W_HASQUOTEDNULL; + return ret; + } +#if defined (CASEMOD_EXPANSIONS) + else if (want_casemod) + { + temp1 = parameter_brace_casemod (name, temp, ind, modspec, value, quoted, (tflag & W_ARRAYIND) ? AV_USEIND : 0); + FREE (name); + FREE (value); + FREE (temp); + + if (temp1 == &expand_param_error) + return (&expand_wdesc_error); + else if (temp1 == &expand_param_fatal) + return (&expand_wdesc_fatal); + + ret = alloc_word_desc (); + ret->word = temp1; + if (temp1 && QUOTED_NULL (temp1) && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ret->flags |= W_QUOTED|W_HASQUOTEDNULL; + return ret; + } +#endif + + /* Do the right thing based on which character ended the variable name. */ + switch (c) + { + default: + case '\0': + bad_substitution: + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("%s: bad substitution"), string ? string : "??"); + FREE (value); + FREE (temp); + free (name); + return &expand_wdesc_error; + + case RBRACE: + break; + + case '#': /* ${param#[#]pattern} */ + case '%': /* ${param%[%]pattern} */ + if (value == 0 || *value == '\0' || temp == 0 || *temp == '\0') + { + FREE (value); + break; + } + temp1 = parameter_brace_remove_pattern (name, temp, ind, value, c, quoted, (tflag & W_ARRAYIND) ? AV_USEIND : 0); + free (temp); + free (value); + free (name); + + ret = alloc_word_desc (); + ret->word = temp1; + if (temp1 && QUOTED_NULL (temp1) && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ret->flags |= W_QUOTED|W_HASQUOTEDNULL; + return ret; + + case '-': + case '=': + case '?': + case '+': + if (var_is_set && var_is_null == 0) + { + /* If the operator is `+', we don't want the value of the named + variable for anything, just the value of the right hand side. */ + if (c == '+') + { + /* XXX -- if we're double-quoted and the named variable is "$@", + we want to turn off any special handling of "$@" -- + we're not using it, so whatever is on the rhs applies. */ + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 0; + if (contains_dollar_at) + *contains_dollar_at = 0; + + FREE (temp); + if (value) + { + /* From Posix discussion on austin-group list. Issue 221 + requires that backslashes escaping `}' inside + double-quoted ${...} be removed. */ + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + quoted |= Q_DOLBRACE; + ret = parameter_brace_expand_rhs (name, value, c, + quoted, + quoted_dollar_atp, + contains_dollar_at); + /* XXX - fix up later, esp. noting presence of + W_HASQUOTEDNULL in ret->flags */ + free (value); + } + else + temp = (char *)NULL; + } + else + { + FREE (value); + } + /* Otherwise do nothing; just use the value in TEMP. */ + } + else /* VAR not set or VAR is NULL. */ + { + FREE (temp); + temp = (char *)NULL; + if (c == '=' && var_is_special) + { + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("$%s: cannot assign in this way"), name); + free (name); + free (value); + return &expand_wdesc_error; + } + else if (c == '?') + { + parameter_brace_expand_error (name, value); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } + else if (c != '+') + { + /* XXX -- if we're double-quoted and the named variable is "$@", + we want to turn off any special handling of "$@" -- + we're not using it, so whatever is on the rhs applies. */ + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && quoted_dollar_atp) + *quoted_dollar_atp = 0; + if (contains_dollar_at) + *contains_dollar_at = 0; + + /* From Posix discussion on austin-group list. Issue 221 requires + that backslashes escaping `}' inside double-quoted ${...} be + removed. */ + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + quoted |= Q_DOLBRACE; + ret = parameter_brace_expand_rhs (name, value, c, quoted, + quoted_dollar_atp, + contains_dollar_at); + /* XXX - fix up later, esp. noting presence of + W_HASQUOTEDNULL in tdesc->flags */ + } + free (value); + } + + break; + } + free (name); + + if (ret == 0) + { + ret = alloc_word_desc (); + ret->flags = tflag; + ret->word = temp; + } + return (ret); +} + +/* Expand a single ${xxx} expansion. The braces are optional. When + the braces are used, parameter_brace_expand() does the work, + possibly calling param_expand recursively. */ +static WORD_DESC * +param_expand (string, sindex, quoted, expanded_something, + contains_dollar_at, quoted_dollar_at_p, had_quoted_null_p, + pflags) + char *string; + int *sindex, quoted, *expanded_something, *contains_dollar_at; + int *quoted_dollar_at_p, *had_quoted_null_p, pflags; +{ + char *temp, *temp1, uerror[3]; + int zindex, t_index, expok; + unsigned char c; + intmax_t number; + SHELL_VAR *var; + WORD_LIST *list; + WORD_DESC *tdesc, *ret; + int tflag; + + zindex = *sindex; + c = string[++zindex]; + + temp = (char *)NULL; + ret = tdesc = (WORD_DESC *)NULL; + tflag = 0; + + /* Do simple cases first. Switch on what follows '$'. */ + switch (c) + { + /* $0 .. $9? */ + case '0': + case '1': + case '2': + case '3': + case '4': + case '5': + case '6': + case '7': + case '8': + case '9': + temp1 = dollar_vars[TODIGIT (c)]; + if (unbound_vars_is_error && temp1 == (char *)NULL) + { + uerror[0] = '$'; + uerror[1] = c; + uerror[2] = '\0'; + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (uerror); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } + if (temp1) + temp = (*temp1 && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ? quote_string (temp1) + : quote_escapes (temp1); + else + temp = (char *)NULL; + + break; + + /* $$ -- pid of the invoking shell. */ + case '$': + temp = itos (dollar_dollar_pid); + break; + + /* $# -- number of positional parameters. */ + case '#': + temp = itos (number_of_args ()); + break; + + /* $? -- return value of the last synchronous command. */ + case '?': + temp = itos (last_command_exit_value); + break; + + /* $- -- flags supplied to the shell on invocation or by `set'. */ + case '-': + temp = which_set_flags (); + break; + + /* $! -- Pid of the last asynchronous command. */ + case '!': + /* If no asynchronous pids have been created, expand to nothing. + If `set -u' has been executed, and no async processes have + been created, this is an expansion error. */ + if (last_asynchronous_pid == NO_PID) + { + if (expanded_something) + *expanded_something = 0; + temp = (char *)NULL; + if (unbound_vars_is_error) + { + uerror[0] = '$'; + uerror[1] = c; + uerror[2] = '\0'; + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (uerror); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } + } + else + temp = itos (last_asynchronous_pid); + break; + + /* The only difference between this and $@ is when the arg is quoted. */ + case '*': /* `$*' */ + list = list_rest_of_args (); + +#if 0 + /* According to austin-group posix proposal by Geoff Clare in + <20090505091501.GA10097@squonk.masqnet> of 5 May 2009: + + "The shell shall write a message to standard error and + immediately exit when it tries to expand an unset parameter + other than the '@' and '*' special parameters." + */ + + if (list == 0 && unbound_vars_is_error && (pflags & PF_IGNUNBOUND) == 0) + { + uerror[0] = '$'; + uerror[1] = '*'; + uerror[2] = '\0'; + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (uerror); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } +#endif + + /* If there are no command-line arguments, this should just + disappear if there are other characters in the expansion, + even if it's quoted. */ + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && list == 0) + temp = (char *)NULL; + else if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES|Q_PATQUOTE)) + { + /* If we have "$*" we want to make a string of the positional + parameters, separated by the first character of $IFS, and + quote the whole string, including the separators. If IFS + is unset, the parameters are separated by ' '; if $IFS is + null, the parameters are concatenated. */ + temp = (quoted & (Q_DOUBLE_QUOTES|Q_PATQUOTE)) ? string_list_dollar_star (list) : string_list (list); + if (temp) + { + temp1 = quote_string (temp); + if (*temp == 0) + tflag |= W_HASQUOTEDNULL; + free (temp); + temp = temp1; + } + } + else + { + /* We check whether or not we're eventually going to split $* here, + for example when IFS is empty and we are processing the rhs of + an assignment statement. In that case, we don't separate the + arguments at all. Otherwise, if the $* is not quoted it is + identical to $@ */ +# if defined (HANDLE_MULTIBYTE) + if (expand_no_split_dollar_star && ifs_firstc[0] == 0) +# else + if (expand_no_split_dollar_star && ifs_firstc == 0) +# endif + temp = string_list_dollar_star (list); + else + { + temp = string_list_dollar_at (list, quoted); + if (quoted == 0 && (ifs_is_set == 0 || ifs_is_null)) + tflag |= W_SPLITSPACE; + } + + if (expand_no_split_dollar_star == 0 && contains_dollar_at) + *contains_dollar_at = 1; + } + + dispose_words (list); + break; + + /* When we have "$@" what we want is "$1" "$2" "$3" ... This + means that we have to turn quoting off after we split into + the individually quoted arguments so that the final split + on the first character of $IFS is still done. */ + case '@': /* `$@' */ + list = list_rest_of_args (); + +#if 0 + /* According to austin-group posix proposal by Geoff Clare in + <20090505091501.GA10097@squonk.masqnet> of 5 May 2009: + + "The shell shall write a message to standard error and + immediately exit when it tries to expand an unset parameter + other than the '@' and '*' special parameters." + */ + + if (list == 0 && unbound_vars_is_error && (pflags & PF_IGNUNBOUND) == 0) + { + uerror[0] = '$'; + uerror[1] = '@'; + uerror[2] = '\0'; + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (uerror); + return (interactive_shell ? &expand_wdesc_error : &expand_wdesc_fatal); + } +#endif + + /* We want to flag the fact that we saw this. We can't turn + off quoting entirely, because other characters in the + string might need it (consider "\"$@\""), but we need some + way to signal that the final split on the first character + of $IFS should be done, even though QUOTED is 1. */ + /* XXX - should this test include Q_PATQUOTE? */ + if (quoted_dollar_at_p && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + *quoted_dollar_at_p = 1; + if (contains_dollar_at) + *contains_dollar_at = 1; + + /* We want to separate the positional parameters with the first + character of $IFS in case $IFS is something other than a space. + We also want to make sure that splitting is done no matter what -- + according to POSIX.2, this expands to a list of the positional + parameters no matter what IFS is set to. */ + temp = string_list_dollar_at (list, (pflags & PF_ASSIGNRHS) ? (quoted|Q_DOUBLE_QUOTES) : quoted); + + tflag |= W_DOLLARAT; + dispose_words (list); + break; + + case LBRACE: + tdesc = parameter_brace_expand (string, &zindex, quoted, pflags, + quoted_dollar_at_p, + contains_dollar_at); + + if (tdesc == &expand_wdesc_error || tdesc == &expand_wdesc_fatal) + return (tdesc); + temp = tdesc ? tdesc->word : (char *)0; + + /* XXX */ + /* Quoted nulls should be removed if there is anything else + in the string. */ + /* Note that we saw the quoted null so we can add one back at + the end of this function if there are no other characters + in the string, discard TEMP, and go on. The exception to + this is when we have "${@}" and $1 is '', since $@ needs + special handling. */ + if (tdesc && tdesc->word && (tdesc->flags & W_HASQUOTEDNULL) && QUOTED_NULL (temp)) + { + if (had_quoted_null_p) + *had_quoted_null_p = 1; + if (*quoted_dollar_at_p == 0) + { + free (temp); + tdesc->word = temp = (char *)NULL; + } + + } + + ret = tdesc; + goto return0; + + /* Do command or arithmetic substitution. */ + case LPAREN: + /* We have to extract the contents of this paren substitution. */ + t_index = zindex + 1; + temp = extract_command_subst (string, &t_index, 0); + zindex = t_index; + + /* For Posix.2-style `$(( ))' arithmetic substitution, + extract the expression and pass it to the evaluator. */ + if (temp && *temp == LPAREN) + { + char *temp2; + temp1 = temp + 1; + temp2 = savestring (temp1); + t_index = strlen (temp2) - 1; + + if (temp2[t_index] != RPAREN) + { + free (temp2); + goto comsub; + } + + /* Cut off ending `)' */ + temp2[t_index] = '\0'; + + if (chk_arithsub (temp2, t_index) == 0) + { + free (temp2); +#if 0 + internal_warning (_("future versions of the shell will force evaluation as an arithmetic substitution")); +#endif + goto comsub; + } + + /* Expand variables found inside the expression. */ + temp1 = expand_arith_string (temp2, Q_DOUBLE_QUOTES); + free (temp2); + +arithsub: + /* No error messages. */ + this_command_name = (char *)NULL; + number = evalexp (temp1, &expok); + free (temp); + free (temp1); + if (expok == 0) + { + if (interactive_shell == 0 && posixly_correct) + { + last_command_exit_value = EXECUTION_FAILURE; + return (&expand_wdesc_fatal); + } + else + return (&expand_wdesc_error); + } + temp = itos (number); + break; + } + +comsub: + if (pflags & PF_NOCOMSUB) + /* we need zindex+1 because string[zindex] == RPAREN */ + temp1 = substring (string, *sindex, zindex+1); + else + { + tdesc = command_substitute (temp, quoted); + temp1 = tdesc ? tdesc->word : (char *)NULL; + if (tdesc) + dispose_word_desc (tdesc); + } + FREE (temp); + temp = temp1; + break; + + /* Do POSIX.2d9-style arithmetic substitution. This will probably go + away in a future bash release. */ + case '[': + /* Extract the contents of this arithmetic substitution. */ + t_index = zindex + 1; + temp = extract_arithmetic_subst (string, &t_index); + zindex = t_index; + if (temp == 0) + { + temp = savestring (string); + if (expanded_something) + *expanded_something = 0; + goto return0; + } + + /* Do initial variable expansion. */ + temp1 = expand_arith_string (temp, Q_DOUBLE_QUOTES); + + goto arithsub; + + default: + /* Find the variable in VARIABLE_LIST. */ + temp = (char *)NULL; + + for (t_index = zindex; (c = string[zindex]) && legal_variable_char (c); zindex++) + ; + temp1 = (zindex > t_index) ? substring (string, t_index, zindex) : (char *)NULL; + + /* If this isn't a variable name, then just output the `$'. */ + if (temp1 == 0 || *temp1 == '\0') + { + FREE (temp1); + temp = (char *)xmalloc (2); + temp[0] = '$'; + temp[1] = '\0'; + if (expanded_something) + *expanded_something = 0; + goto return0; + } + + /* If the variable exists, return its value cell. */ + var = find_variable (temp1); + + if (var && invisible_p (var) == 0 && var_isset (var)) + { +#if defined (ARRAY_VARS) + if (assoc_p (var) || array_p (var)) + { + temp = array_p (var) ? array_reference (array_cell (var), 0) + : assoc_reference (assoc_cell (var), "0"); + if (temp) + temp = (*temp && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ? quote_string (temp) + : quote_escapes (temp); + else if (unbound_vars_is_error) + goto unbound_variable; + } + else +#endif + { + temp = value_cell (var); + + temp = (*temp && (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES))) + ? quote_string (temp) + : quote_escapes (temp); + } + + free (temp1); + + goto return0; + } + else if (var = find_variable_last_nameref (temp1)) + { + temp = nameref_cell (var); +#if defined (ARRAY_VARS) + if (temp && *temp && valid_array_reference (temp)) + { + tdesc = parameter_brace_expand_word (temp, SPECIAL_VAR (temp, 0), quoted, pflags, (arrayind_t *)NULL); + if (tdesc == &expand_wdesc_error || tdesc == &expand_wdesc_fatal) + return (tdesc); + ret = tdesc; + goto return0; + } + else +#endif + /* y=2 ; typeset -n x=y; echo $x is not the same as echo $2 in ksh */ + if (temp && *temp && legal_identifier (temp) == 0) + { + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("%s: invalid variable name for name reference"), temp); + return (&expand_wdesc_error); /* XXX */ + } + else + temp = (char *)NULL; + } + + temp = (char *)NULL; + +unbound_variable: + if (unbound_vars_is_error) + { + last_command_exit_value = EXECUTION_FAILURE; + err_unboundvar (temp1); + } + else + { + free (temp1); + goto return0; + } + + free (temp1); + last_command_exit_value = EXECUTION_FAILURE; + return ((unbound_vars_is_error && interactive_shell == 0) + ? &expand_wdesc_fatal + : &expand_wdesc_error); + } + + if (string[zindex]) + zindex++; + +return0: + *sindex = zindex; + + if (ret == 0) + { + ret = alloc_word_desc (); + ret->flags = tflag; /* XXX */ + ret->word = temp; + } + return ret; +} + +/* Make a word list which is the result of parameter and variable + expansion, command substitution, arithmetic substitution, and + quote removal of WORD. Return a pointer to a WORD_LIST which is + the result of the expansion. If WORD contains a null word, the + word list returned is also null. + + QUOTED contains flag values defined in shell.h. + + ISEXP is used to tell expand_word_internal that the word should be + treated as the result of an expansion. This has implications for + how IFS characters in the word are treated. + + CONTAINS_DOLLAR_AT and EXPANDED_SOMETHING are return values; when non-null + they point to an integer value which receives information about expansion. + CONTAINS_DOLLAR_AT gets non-zero if WORD contained "$@", else zero. + EXPANDED_SOMETHING get non-zero if WORD contained any parameter expansions, + else zero. + + This only does word splitting in the case of $@ expansion. In that + case, we split on ' '. */ + +/* Values for the local variable quoted_state. */ +#define UNQUOTED 0 +#define PARTIALLY_QUOTED 1 +#define WHOLLY_QUOTED 2 + +static WORD_LIST * +expand_word_internal (word, quoted, isexp, contains_dollar_at, expanded_something) + WORD_DESC *word; + int quoted, isexp; + int *contains_dollar_at; + int *expanded_something; +{ + WORD_LIST *list; + WORD_DESC *tword; + + /* The intermediate string that we build while expanding. */ + char *istring; + + /* The current size of the above object. */ + int istring_size; + + /* Index into ISTRING. */ + int istring_index; + + /* Temporary string storage. */ + char *temp, *temp1; + + /* The text of WORD. */ + register char *string; + + /* The size of STRING. */ + size_t string_size; + + /* The index into STRING. */ + int sindex; + + /* This gets 1 if we see a $@ while quoted. */ + int quoted_dollar_at; + + /* One of UNQUOTED, PARTIALLY_QUOTED, or WHOLLY_QUOTED, depending on + whether WORD contains no quoting characters, a partially quoted + string (e.g., "xx"ab), or is fully quoted (e.g., "xxab"). */ + int quoted_state; + + /* State flags */ + int had_quoted_null; + int has_dollar_at, temp_has_dollar_at; + int split_on_spaces; + int tflag; + int pflags; /* flags passed to param_expand */ + + int assignoff; /* If assignment, offset of `=' */ + + register unsigned char c; /* Current character. */ + int t_index; /* For calls to string_extract_xxx. */ + + char twochars[2]; + + DECLARE_MBSTATE; + + istring = (char *)xmalloc (istring_size = DEFAULT_INITIAL_ARRAY_SIZE); + istring[istring_index = 0] = '\0'; + quoted_dollar_at = had_quoted_null = has_dollar_at = 0; + split_on_spaces = 0; + quoted_state = UNQUOTED; + + string = word->word; + if (string == 0) + goto finished_with_string; + /* Don't need the string length for the SADD... and COPY_ macros unless + multibyte characters are possible. */ + string_size = (MB_CUR_MAX > 1) ? strlen (string) : 1; + + if (contains_dollar_at) + *contains_dollar_at = 0; + + assignoff = -1; + + /* Begin the expansion. */ + + for (sindex = 0; ;) + { + c = string[sindex]; + + /* Case on toplevel character. */ + switch (c) + { + case '\0': + goto finished_with_string; + + case CTLESC: + sindex++; +#if HANDLE_MULTIBYTE + if (MB_CUR_MAX > 1 && string[sindex]) + { + SADD_MBQCHAR_BODY(temp, string, sindex, string_size); + } + else +#endif + { + temp = (char *)xmalloc (3); + temp[0] = CTLESC; + temp[1] = c = string[sindex]; + temp[2] = '\0'; + } + +dollar_add_string: + if (string[sindex]) + sindex++; + +add_string: + if (temp) + { + istring = sub_append_string (temp, istring, &istring_index, &istring_size); + temp = (char *)0; + } + + break; + +#if defined (PROCESS_SUBSTITUTION) + /* Process substitution. */ + case '<': + case '>': + { + if (string[++sindex] != LPAREN || (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) || (word->flags & (W_DQUOTE|W_NOPROCSUB)) || posixly_correct) + { + sindex--; /* add_character: label increments sindex */ + goto add_character; + } + else + t_index = sindex + 1; /* skip past both '<' and LPAREN */ + + temp1 = extract_process_subst (string, (c == '<') ? "<(" : ">(", &t_index); /*))*/ + sindex = t_index; + + /* If the process substitution specification is `<()', we want to + open the pipe for writing in the child and produce output; if + it is `>()', we want to open the pipe for reading in the child + and consume input. */ + temp = temp1 ? process_substitute (temp1, (c == '>')) : (char *)0; + + FREE (temp1); + + goto dollar_add_string; + } +#endif /* PROCESS_SUBSTITUTION */ + + case '=': + /* Posix.2 section 3.6.1 says that tildes following `=' in words + which are not assignment statements are not expanded. If the + shell isn't in posix mode, though, we perform tilde expansion + on `likely candidate' unquoted assignment statements (flags + include W_ASSIGNMENT but not W_QUOTED). A likely candidate + contains an unquoted :~ or =~. Something to think about: we + now have a flag that says to perform tilde expansion on arguments + to `assignment builtins' like declare and export that look like + assignment statements. We now do tilde expansion on such words + even in POSIX mode. */ + if (word->flags & (W_ASSIGNRHS|W_NOTILDE)) + { + if (isexp == 0 && (word->flags & (W_NOSPLIT|W_NOSPLIT2)) == 0 && isifs (c)) + goto add_ifs_character; + else + goto add_character; + } + /* If we're not in posix mode or forcing assignment-statement tilde + expansion, note where the `=' appears in the word and prepare to + do tilde expansion following the first `='. */ + if ((word->flags & W_ASSIGNMENT) && + (posixly_correct == 0 || (word->flags & W_TILDEEXP)) && + assignoff == -1 && sindex > 0) + assignoff = sindex; + if (sindex == assignoff && string[sindex+1] == '~') /* XXX */ + word->flags |= W_ITILDE; +#if 0 + else if ((word->flags & W_ASSIGNMENT) && + (posixly_correct == 0 || (word->flags & W_TILDEEXP)) && + string[sindex+1] == '~') + word->flags |= W_ITILDE; +#endif + if (isexp == 0 && (word->flags & (W_NOSPLIT|W_NOSPLIT2)) == 0 && isifs (c)) + goto add_ifs_character; + else + goto add_character; + + case ':': + if (word->flags & W_NOTILDE) + { + if (isexp == 0 && (word->flags & (W_NOSPLIT|W_NOSPLIT2)) == 0 && isifs (c)) + goto add_ifs_character; + else + goto add_character; + } + + if ((word->flags & (W_ASSIGNMENT|W_ASSIGNRHS|W_TILDEEXP)) && + string[sindex+1] == '~') + word->flags |= W_ITILDE; + + if (isexp == 0 && (word->flags & (W_NOSPLIT|W_NOSPLIT2)) == 0 && isifs (c)) + goto add_ifs_character; + else + goto add_character; + + case '~': + /* If the word isn't supposed to be tilde expanded, or we're not + at the start of a word or after an unquoted : or = in an + assignment statement, we don't do tilde expansion. */ + if ((word->flags & (W_NOTILDE|W_DQUOTE)) || + (sindex > 0 && ((word->flags & W_ITILDE) == 0)) || + (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + { + word->flags &= ~W_ITILDE; + if (isexp == 0 && (word->flags & (W_NOSPLIT|W_NOSPLIT2)) == 0 && isifs (c) && (quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) == 0) + goto add_ifs_character; + else + goto add_character; + } + + if (word->flags & W_ASSIGNRHS) + tflag = 2; + else if (word->flags & (W_ASSIGNMENT|W_TILDEEXP)) + tflag = 1; + else + tflag = 0; + + temp = bash_tilde_find_word (string + sindex, tflag, &t_index); + + word->flags &= ~W_ITILDE; + + if (temp && *temp && t_index > 0) + { + temp1 = bash_tilde_expand (temp, tflag); + if (temp1 && *temp1 == '~' && STREQ (temp, temp1)) + { + FREE (temp); + FREE (temp1); + goto add_character; /* tilde expansion failed */ + } + free (temp); + temp = temp1; + sindex += t_index; + goto add_quoted_string; /* XXX was add_string */ + } + else + { + FREE (temp); + goto add_character; + } + + case '$': + if (expanded_something) + *expanded_something = 1; + + temp_has_dollar_at = 0; + pflags = (word->flags & W_NOCOMSUB) ? PF_NOCOMSUB : 0; + if (word->flags & W_NOSPLIT2) + pflags |= PF_NOSPLIT2; + if (word->flags & W_ASSIGNRHS) + pflags |= PF_ASSIGNRHS; + tword = param_expand (string, &sindex, quoted, expanded_something, + &temp_has_dollar_at, "ed_dollar_at, + &had_quoted_null, pflags); + has_dollar_at += temp_has_dollar_at; + split_on_spaces += (tword->flags & W_SPLITSPACE); + + if (tword == &expand_wdesc_error || tword == &expand_wdesc_fatal) + { + free (string); + free (istring); + return ((tword == &expand_wdesc_error) ? &expand_word_error + : &expand_word_fatal); + } + if (contains_dollar_at && has_dollar_at) + *contains_dollar_at = 1; + + if (tword && (tword->flags & W_HASQUOTEDNULL)) + had_quoted_null = 1; + + temp = tword ? tword->word : (char *)NULL; + dispose_word_desc (tword); + + /* Kill quoted nulls; we will add them back at the end of + expand_word_internal if nothing else in the string */ + if (had_quoted_null && temp && QUOTED_NULL (temp)) + { + FREE (temp); + temp = (char *)NULL; + } + + goto add_string; + break; + + case '`': /* Backquoted command substitution. */ + { + t_index = sindex++; + + temp = string_extract (string, &sindex, "`", SX_REQMATCH); + /* The test of sindex against t_index is to allow bare instances of + ` to pass through, for backwards compatibility. */ + if (temp == &extract_string_error || temp == &extract_string_fatal) + { + if (sindex - 1 == t_index) + { + sindex = t_index; + goto add_character; + } + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("bad substitution: no closing \"`\" in %s") , string+t_index); + free (string); + free (istring); + return ((temp == &extract_string_error) ? &expand_word_error + : &expand_word_fatal); + } + + if (expanded_something) + *expanded_something = 1; + + if (word->flags & W_NOCOMSUB) + /* sindex + 1 because string[sindex] == '`' */ + temp1 = substring (string, t_index, sindex + 1); + else + { + de_backslash (temp); + tword = command_substitute (temp, quoted); + temp1 = tword ? tword->word : (char *)NULL; + if (tword) + dispose_word_desc (tword); + } + FREE (temp); + temp = temp1; + goto dollar_add_string; + } + + case '\\': + if (string[sindex + 1] == '\n') + { + sindex += 2; + continue; + } + + c = string[++sindex]; + + if (quoted & Q_HERE_DOCUMENT) + tflag = CBSHDOC; + else if (quoted & Q_DOUBLE_QUOTES) + tflag = CBSDQUOTE; + else + tflag = 0; + + /* From Posix discussion on austin-group list: Backslash escaping + a } in ${...} is removed. Issue 0000221 */ + if ((quoted & Q_DOLBRACE) && c == RBRACE) + { + SCOPY_CHAR_I (twochars, CTLESC, c, string, sindex, string_size); + } + /* This is the fix for " $@\ " */ + else if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && ((sh_syntaxtab[c] & tflag) == 0) & isexp == 0 && isifs (c)) + { + RESIZE_MALLOCED_BUFFER (istring, istring_index, 2, istring_size, + DEFAULT_ARRAY_SIZE); + istring[istring_index++] = CTLESC; + istring[istring_index++] = '\\'; + istring[istring_index] = '\0'; + + SCOPY_CHAR_I (twochars, CTLESC, c, string, sindex, string_size); + } + else if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) && ((sh_syntaxtab[c] & tflag) == 0)) + { + SCOPY_CHAR_I (twochars, '\\', c, string, sindex, string_size); + } + else if (c == 0) + { + c = CTLNUL; + sindex--; /* add_character: label increments sindex */ + goto add_character; + } + else + { + SCOPY_CHAR_I (twochars, CTLESC, c, string, sindex, string_size); + } + + sindex++; +add_twochars: + /* BEFORE jumping here, we need to increment sindex if appropriate */ + RESIZE_MALLOCED_BUFFER (istring, istring_index, 2, istring_size, + DEFAULT_ARRAY_SIZE); + istring[istring_index++] = twochars[0]; + istring[istring_index++] = twochars[1]; + istring[istring_index] = '\0'; + + break; + + case '"': + if ((quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + goto add_character; + + t_index = ++sindex; + temp = string_extract_double_quoted (string, &sindex, 0); + + /* If the quotes surrounded the entire string, then the + whole word was quoted. */ + quoted_state = (t_index == 1 && string[sindex] == '\0') + ? WHOLLY_QUOTED + : PARTIALLY_QUOTED; + + if (temp && *temp) + { + tword = alloc_word_desc (); + tword->word = temp; + + temp = (char *)NULL; + + temp_has_dollar_at = 0; /* XXX */ + /* Need to get W_HASQUOTEDNULL flag through this function. */ + list = expand_word_internal (tword, Q_DOUBLE_QUOTES, 0, &temp_has_dollar_at, (int *)NULL); + has_dollar_at += temp_has_dollar_at; + + if (list == &expand_word_error || list == &expand_word_fatal) + { + free (istring); + free (string); + /* expand_word_internal has already freed temp_word->word + for us because of the way it prints error messages. */ + tword->word = (char *)NULL; + dispose_word (tword); + return list; + } + + dispose_word (tword); + + /* "$@" (a double-quoted dollar-at) expands into nothing, + not even a NULL word, when there are no positional + parameters. */ + if (list == 0 && has_dollar_at) + { + quoted_dollar_at++; + break; + } + + /* If we get "$@", we know we have expanded something, so we + need to remember it for the final split on $IFS. This is + a special case; it's the only case where a quoted string + can expand into more than one word. It's going to come back + from the above call to expand_word_internal as a list with + a single word, in which all characters are quoted and + separated by blanks. What we want to do is to turn it back + into a list for the next piece of code. */ + if (list) + dequote_list (list); + + if (list && list->word && (list->word->flags & W_HASQUOTEDNULL)) + had_quoted_null = 1; /* XXX */ + + if (has_dollar_at) + { + quoted_dollar_at++; + if (contains_dollar_at) + *contains_dollar_at = 1; + if (expanded_something) + *expanded_something = 1; + } + } + else + { + /* What we have is "". This is a minor optimization. */ + FREE (temp); + list = (WORD_LIST *)NULL; + } + + /* The code above *might* return a list (consider the case of "$@", + where it returns "$1", "$2", etc.). We can't throw away the + rest of the list, and we have to make sure each word gets added + as quoted. We test on tresult->next: if it is non-NULL, we + quote the whole list, save it to a string with string_list, and + add that string. We don't need to quote the results of this + (and it would be wrong, since that would quote the separators + as well), so we go directly to add_string. */ + if (list) + { + if (list->next) + { + /* Testing quoted_dollar_at makes sure that "$@" is + split correctly when $IFS does not contain a space. */ + temp = quoted_dollar_at + ? string_list_dollar_at (list, Q_DOUBLE_QUOTES) + : string_list (quote_list (list)); + dispose_words (list); + goto add_string; + } + else + { + temp = savestring (list->word->word); + tflag = list->word->flags; + dispose_words (list); + + /* If the string is not a quoted null string, we want + to remove any embedded unquoted CTLNUL characters. + We do not want to turn quoted null strings back into + the empty string, though. We do this because we + want to remove any quoted nulls from expansions that + contain other characters. For example, if we have + x"$*"y or "x$*y" and there are no positional parameters, + the $* should expand into nothing. */ + /* We use the W_HASQUOTEDNULL flag to differentiate the + cases: a quoted null character as above and when + CTLNUL is contained in the (non-null) expansion + of some variable. We use the had_quoted_null flag to + pass the value through this function to its caller. */ + if ((tflag & W_HASQUOTEDNULL) && QUOTED_NULL (temp) == 0) + remove_quoted_nulls (temp); /* XXX */ + } + } + else + temp = (char *)NULL; + + /* We do not want to add quoted nulls to strings that are only + partially quoted; we can throw them away. The exception to + this is when we are going to be performing word splitting, + since we have to preserve a null argument if the next character + will cause word splitting. */ + if (temp == 0 && quoted_state == PARTIALLY_QUOTED && (word->flags & (W_NOSPLIT|W_NOSPLIT2))) + continue; + + add_quoted_string: + + if (temp) + { + temp1 = temp; + temp = quote_string (temp); + free (temp1); + goto add_string; + } + else + { + /* Add NULL arg. */ + c = CTLNUL; + sindex--; /* add_character: label increments sindex */ + goto add_character; + } + + /* break; */ + + case '\'': + if ((quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT))) + goto add_character; + + t_index = ++sindex; + temp = string_extract_single_quoted (string, &sindex); + + /* If the entire STRING was surrounded by single quotes, + then the string is wholly quoted. */ + quoted_state = (t_index == 1 && string[sindex] == '\0') + ? WHOLLY_QUOTED + : PARTIALLY_QUOTED; + + /* If all we had was '', it is a null expansion. */ + if (*temp == '\0') + { + free (temp); + temp = (char *)NULL; + } + else + remove_quoted_escapes (temp); /* ??? */ + + /* We do not want to add quoted nulls to strings that are only + partially quoted; such nulls are discarded. */ + if (temp == 0 && (quoted_state == PARTIALLY_QUOTED)) + continue; + + /* If we have a quoted null expansion, add a quoted NULL to istring. */ + if (temp == 0) + { + c = CTLNUL; + sindex--; /* add_character: label increments sindex */ + goto add_character; + } + else + goto add_quoted_string; + + /* break; */ + + default: + /* This is the fix for " $@ " */ + add_ifs_character: + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) || (isexp == 0 && isifs (c))) + { + if (string[sindex]) /* from old goto dollar_add_string */ + sindex++; + if (c == 0) + { + c = CTLNUL; + goto add_character; + } + else + { +#if HANDLE_MULTIBYTE + if (MB_CUR_MAX > 1) + sindex--; + + if (MB_CUR_MAX > 1) + { + SADD_MBQCHAR_BODY(temp, string, sindex, string_size); + } + else +#endif + { + twochars[0] = CTLESC; + twochars[1] = c; + goto add_twochars; + } + } + } + + SADD_MBCHAR (temp, string, sindex, string_size); + + add_character: + RESIZE_MALLOCED_BUFFER (istring, istring_index, 1, istring_size, + DEFAULT_ARRAY_SIZE); + istring[istring_index++] = c; + istring[istring_index] = '\0'; + + /* Next character. */ + sindex++; + } + } + +finished_with_string: + /* OK, we're ready to return. If we have a quoted string, and + quoted_dollar_at is not set, we do no splitting at all; otherwise + we split on ' '. The routines that call this will handle what to + do if nothing has been expanded. */ + + /* Partially and wholly quoted strings which expand to the empty + string are retained as an empty arguments. Unquoted strings + which expand to the empty string are discarded. The single + exception is the case of expanding "$@" when there are no + positional parameters. In that case, we discard the expansion. */ + + /* Because of how the code that handles "" and '' in partially + quoted strings works, we need to make ISTRING into a QUOTED_NULL + if we saw quoting characters, but the expansion was empty. + "" and '' are tossed away before we get to this point when + processing partially quoted strings. This makes "" and $xxx"" + equivalent when xxx is unset. We also look to see whether we + saw a quoted null from a ${} expansion and add one back if we + need to. */ + + /* If we expand to nothing and there were no single or double quotes + in the word, we throw it away. Otherwise, we return a NULL word. + The single exception is for $@ surrounded by double quotes when + there are no positional parameters. In that case, we also throw + the word away. */ + + if (*istring == '\0') + { + if (quoted_dollar_at == 0 && (had_quoted_null || quoted_state == PARTIALLY_QUOTED)) + { + istring[0] = CTLNUL; + istring[1] = '\0'; + tword = make_bare_word (istring); + tword->flags |= W_HASQUOTEDNULL; /* XXX */ + list = make_word_list (tword, (WORD_LIST *)NULL); + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + tword->flags |= W_QUOTED; + } + /* According to sh, ksh, and Posix.2, if a word expands into nothing + and a double-quoted "$@" appears anywhere in it, then the entire + word is removed. */ + else if (quoted_state == UNQUOTED || quoted_dollar_at) + list = (WORD_LIST *)NULL; +#if 0 + else + { + tword = make_bare_word (istring); + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + tword->flags |= W_QUOTED; + list = make_word_list (tword, (WORD_LIST *)NULL); + } +#else + else + list = (WORD_LIST *)NULL; +#endif + } + else if (word->flags & W_NOSPLIT) + { + tword = make_bare_word (istring); + if (word->flags & W_ASSIGNMENT) + tword->flags |= W_ASSIGNMENT; /* XXX */ + if (word->flags & W_COMPASSIGN) + tword->flags |= W_COMPASSIGN; /* XXX */ + if (word->flags & W_NOGLOB) + tword->flags |= W_NOGLOB; /* XXX */ + if (word->flags & W_NOBRACE) + tword->flags |= W_NOBRACE; /* XXX */ + if (word->flags & W_NOEXPAND) + tword->flags |= W_NOEXPAND; /* XXX */ + if (quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) + tword->flags |= W_QUOTED; + if (had_quoted_null && QUOTED_NULL (istring)) + tword->flags |= W_HASQUOTEDNULL; + list = make_word_list (tword, (WORD_LIST *)NULL); + } + else + { + char *ifs_chars; + + ifs_chars = (quoted_dollar_at || has_dollar_at) ? ifs_value : (char *)NULL; + + /* If we have $@, we need to split the results no matter what. If + IFS is unset or NULL, string_list_dollar_at has separated the + positional parameters with a space, so we split on space (we have + set ifs_chars to " \t\n" above if ifs is unset). If IFS is set, + string_list_dollar_at has separated the positional parameters + with the first character of $IFS, so we split on $IFS. If + SPLIT_ON_SPACES is set, we expanded $* (unquoted) with IFS either + unset or null, and we want to make sure that we split on spaces + regardless of what else has happened to IFS since the expansion. */ + if (split_on_spaces) + list = list_string (istring, " ", 1); /* XXX quoted == 1? */ + else if (has_dollar_at && ifs_chars) + list = list_string (istring, *ifs_chars ? ifs_chars : " ", 1); + else + { + tword = make_bare_word (istring); + if ((quoted & (Q_DOUBLE_QUOTES|Q_HERE_DOCUMENT)) || (quoted_state == WHOLLY_QUOTED)) + tword->flags |= W_QUOTED; + if (word->flags & W_ASSIGNMENT) + tword->flags |= W_ASSIGNMENT; + if (word->flags & W_COMPASSIGN) + tword->flags |= W_COMPASSIGN; + if (word->flags & W_NOGLOB) + tword->flags |= W_NOGLOB; + if (word->flags & W_NOBRACE) + tword->flags |= W_NOBRACE; + if (word->flags & W_NOEXPAND) + tword->flags |= W_NOEXPAND; + if (had_quoted_null && QUOTED_NULL (istring)) + tword->flags |= W_HASQUOTEDNULL; /* XXX */ + list = make_word_list (tword, (WORD_LIST *)NULL); + } + } + + free (istring); + return (list); +} + +/* **************************************************************** */ +/* */ +/* Functions for Quote Removal */ +/* */ +/* **************************************************************** */ + +/* Perform quote removal on STRING. If QUOTED > 0, assume we are obeying the + backslash quoting rules for within double quotes or a here document. */ +char * +string_quote_removal (string, quoted) + char *string; + int quoted; +{ + size_t slen; + char *r, *result_string, *temp, *send; + int sindex, tindex, dquote; + unsigned char c; + DECLARE_MBSTATE; + + /* The result can be no longer than the original string. */ + slen = strlen (string); + send = string + slen; + + r = result_string = (char *)xmalloc (slen + 1); + + for (dquote = sindex = 0; c = string[sindex];) + { + switch (c) + { + case '\\': + c = string[++sindex]; + if (c == 0) + { + *r++ = '\\'; + break; + } + if (((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) || dquote) && (sh_syntaxtab[c] & CBSDQUOTE) == 0) + *r++ = '\\'; + /* FALLTHROUGH */ + + default: + SCOPY_CHAR_M (r, string, send, sindex); + break; + + case '\'': + if ((quoted & (Q_HERE_DOCUMENT|Q_DOUBLE_QUOTES)) || dquote) + { + *r++ = c; + sindex++; + break; + } + tindex = sindex + 1; + temp = string_extract_single_quoted (string, &tindex); + if (temp) + { + strcpy (r, temp); + r += strlen (r); + free (temp); + } + sindex = tindex; + break; + + case '"': + dquote = 1 - dquote; + sindex++; + break; + } + } + *r = '\0'; + return (result_string); +} + +#if 0 +/* UNUSED */ +/* Perform quote removal on word WORD. This allocates and returns a new + WORD_DESC *. */ +WORD_DESC * +word_quote_removal (word, quoted) + WORD_DESC *word; + int quoted; +{ + WORD_DESC *w; + char *t; + + t = string_quote_removal (word->word, quoted); + w = alloc_word_desc (); + w->word = t ? t : savestring (""); + return (w); +} + +/* Perform quote removal on all words in LIST. If QUOTED is non-zero, + the members of the list are treated as if they are surrounded by + double quotes. Return a new list, or NULL if LIST is NULL. */ +WORD_LIST * +word_list_quote_removal (list, quoted) + WORD_LIST *list; + int quoted; +{ + WORD_LIST *result, *t, *tresult, *e; + + for (t = list, result = (WORD_LIST *)NULL; t; t = t->next) + { + tresult = make_word_list (word_quote_removal (t->word, quoted), (WORD_LIST *)NULL); +#if 0 + result = (WORD_LIST *) list_append (result, tresult); +#else + if (result == 0) + result = e = tresult; + else + { + e->next = tresult; + while (e->next) + e = e->next; + } +#endif + } + return (result); +} +#endif + +/******************************************* + * * + * Functions to perform word splitting * + * * + *******************************************/ + +void +setifs (v) + SHELL_VAR *v; +{ + char *t; + unsigned char uc; + + ifs_var = v; + ifs_value = (v && value_cell (v)) ? value_cell (v) : " \t\n"; + + ifs_is_set = ifs_var != 0; + ifs_is_null = ifs_is_set && (*ifs_value == 0); + + /* Should really merge ifs_cmap with sh_syntaxtab. XXX - doesn't yet + handle multibyte chars in IFS */ + memset (ifs_cmap, '\0', sizeof (ifs_cmap)); + for (t = ifs_value ; t && *t; t++) + { + uc = *t; + ifs_cmap[uc] = 1; + } + +#if defined (HANDLE_MULTIBYTE) + if (ifs_value == 0) + { + ifs_firstc[0] = '\0'; + ifs_firstc_len = 1; + } + else + { + size_t ifs_len; + ifs_len = strnlen (ifs_value, MB_CUR_MAX); + ifs_firstc_len = MBLEN (ifs_value, ifs_len); + if (ifs_firstc_len == 1 || ifs_firstc_len == 0 || MB_INVALIDCH (ifs_firstc_len)) + { + ifs_firstc[0] = ifs_value[0]; + ifs_firstc[1] = '\0'; + ifs_firstc_len = 1; + } + else + memcpy (ifs_firstc, ifs_value, ifs_firstc_len); + } +#else + ifs_firstc = ifs_value ? *ifs_value : 0; +#endif +} + +char * +getifs () +{ + return ifs_value; +} + +/* This splits a single word into a WORD LIST on $IFS, but only if the word + is not quoted. list_string () performs quote removal for us, even if we + don't do any splitting. */ +WORD_LIST * +word_split (w, ifs_chars) + WORD_DESC *w; + char *ifs_chars; +{ + WORD_LIST *result; + + if (w) + { + char *xifs; + + xifs = ((w->flags & W_QUOTED) || ifs_chars == 0) ? "" : ifs_chars; + result = list_string (w->word, xifs, w->flags & W_QUOTED); + } + else + result = (WORD_LIST *)NULL; + + return (result); +} + +/* Perform word splitting on LIST and return the RESULT. It is possible + to return (WORD_LIST *)NULL. */ +static WORD_LIST * +word_list_split (list) + WORD_LIST *list; +{ + WORD_LIST *result, *t, *tresult, *e; + + for (t = list, result = (WORD_LIST *)NULL; t; t = t->next) + { + tresult = word_split (t->word, ifs_value); + if (result == 0) + result = e = tresult; + else + { + e->next = tresult; + while (e->next) + e = e->next; + } + } + return (result); +} + +/************************************************** + * * + * Functions to expand an entire WORD_LIST * + * * + **************************************************/ + +/* Do any word-expansion-specific cleanup and jump to top_level */ +static void +exp_jump_to_top_level (v) + int v; +{ + set_pipestatus_from_exit (last_command_exit_value); + + /* Cleanup code goes here. */ + expand_no_split_dollar_star = 0; /* XXX */ + expanding_redir = 0; + assigning_in_environment = 0; + + if (parse_and_execute_level == 0) + top_level_cleanup (); /* from sig.c */ + + jump_to_top_level (v); +} + +/* Put NLIST (which is a WORD_LIST * of only one element) at the front of + ELIST, and set ELIST to the new list. */ +#define PREPEND_LIST(nlist, elist) \ + do { nlist->next = elist; elist = nlist; } while (0) + +/* Separate out any initial variable assignments from TLIST. If set -k has + been executed, remove all assignment statements from TLIST. Initial + variable assignments and other environment assignments are placed + on SUBST_ASSIGN_VARLIST. */ +static WORD_LIST * +separate_out_assignments (tlist) + WORD_LIST *tlist; +{ + register WORD_LIST *vp, *lp; + + if (tlist == 0) + return ((WORD_LIST *)NULL); + + if (subst_assign_varlist) + dispose_words (subst_assign_varlist); /* Clean up after previous error */ + + subst_assign_varlist = (WORD_LIST *)NULL; + vp = lp = tlist; + + /* Separate out variable assignments at the start of the command. + Loop invariant: vp->next == lp + Loop postcondition: + lp = list of words left after assignment statements skipped + tlist = original list of words + */ + while (lp && (lp->word->flags & W_ASSIGNMENT)) + { + vp = lp; + lp = lp->next; + } + + /* If lp != tlist, we have some initial assignment statements. + We make SUBST_ASSIGN_VARLIST point to the list of assignment + words and TLIST point to the remaining words. */ + if (lp != tlist) + { + subst_assign_varlist = tlist; + /* ASSERT(vp->next == lp); */ + vp->next = (WORD_LIST *)NULL; /* terminate variable list */ + tlist = lp; /* remainder of word list */ + } + + /* vp == end of variable list */ + /* tlist == remainder of original word list without variable assignments */ + if (!tlist) + /* All the words in tlist were assignment statements */ + return ((WORD_LIST *)NULL); + + /* ASSERT(tlist != NULL); */ + /* ASSERT((tlist->word->flags & W_ASSIGNMENT) == 0); */ + + /* If the -k option is in effect, we need to go through the remaining + words, separate out the assignment words, and place them on + SUBST_ASSIGN_VARLIST. */ + if (place_keywords_in_env) + { + WORD_LIST *tp; /* tp == running pointer into tlist */ + + tp = tlist; + lp = tlist->next; + + /* Loop Invariant: tp->next == lp */ + /* Loop postcondition: tlist == word list without assignment statements */ + while (lp) + { + if (lp->word->flags & W_ASSIGNMENT) + { + /* Found an assignment statement, add this word to end of + subst_assign_varlist (vp). */ + if (!subst_assign_varlist) + subst_assign_varlist = vp = lp; + else + { + vp->next = lp; + vp = lp; + } + + /* Remove the word pointed to by LP from TLIST. */ + tp->next = lp->next; + /* ASSERT(vp == lp); */ + lp->next = (WORD_LIST *)NULL; + lp = tp->next; + } + else + { + tp = lp; + lp = lp->next; + } + } + } + return (tlist); +} + +#define WEXP_VARASSIGN 0x001 +#define WEXP_BRACEEXP 0x002 +#define WEXP_TILDEEXP 0x004 +#define WEXP_PARAMEXP 0x008 +#define WEXP_PATHEXP 0x010 + +/* All of the expansions, including variable assignments at the start of + the list. */ +#define WEXP_ALL (WEXP_VARASSIGN|WEXP_BRACEEXP|WEXP_TILDEEXP|WEXP_PARAMEXP|WEXP_PATHEXP) + +/* All of the expansions except variable assignments at the start of + the list. */ +#define WEXP_NOVARS (WEXP_BRACEEXP|WEXP_TILDEEXP|WEXP_PARAMEXP|WEXP_PATHEXP) + +/* All of the `shell expansions': brace expansion, tilde expansion, parameter + expansion, command substitution, arithmetic expansion, word splitting, and + quote removal. */ +#define WEXP_SHELLEXP (WEXP_BRACEEXP|WEXP_TILDEEXP|WEXP_PARAMEXP) + +/* Take the list of words in LIST and do the various substitutions. Return + a new list of words which is the expanded list, and without things like + variable assignments. */ + +WORD_LIST * +expand_words (list) + WORD_LIST *list; +{ + return (expand_word_list_internal (list, WEXP_ALL)); +} + +/* Same as expand_words (), but doesn't hack variable or environment + variables. */ +WORD_LIST * +expand_words_no_vars (list) + WORD_LIST *list; +{ + return (expand_word_list_internal (list, WEXP_NOVARS)); +} + +WORD_LIST * +expand_words_shellexp (list) + WORD_LIST *list; +{ + return (expand_word_list_internal (list, WEXP_SHELLEXP)); +} + +static WORD_LIST * +glob_expand_word_list (tlist, eflags) + WORD_LIST *tlist; + int eflags; +{ + char **glob_array, *temp_string; + register int glob_index; + WORD_LIST *glob_list, *output_list, *disposables, *next; + WORD_DESC *tword; + + output_list = disposables = (WORD_LIST *)NULL; + glob_array = (char **)NULL; + while (tlist) + { + /* For each word, either globbing is attempted or the word is + added to orig_list. If globbing succeeds, the results are + added to orig_list and the word (tlist) is added to the list + of disposable words. If globbing fails and failed glob + expansions are left unchanged (the shell default), the + original word is added to orig_list. If globbing fails and + failed glob expansions are removed, the original word is + added to the list of disposable words. orig_list ends up + in reverse order and requires a call to REVERSE_LIST to + be set right. After all words are examined, the disposable + words are freed. */ + next = tlist->next; + + /* If the word isn't an assignment and contains an unquoted + pattern matching character, then glob it. */ + if ((tlist->word->flags & W_NOGLOB) == 0 && + unquoted_glob_pattern_p (tlist->word->word)) + { + glob_array = shell_glob_filename (tlist->word->word); + + /* Handle error cases. + I don't think we should report errors like "No such file + or directory". However, I would like to report errors + like "Read failed". */ + + if (glob_array == 0 || GLOB_FAILED (glob_array)) + { + glob_array = (char **)xmalloc (sizeof (char *)); + glob_array[0] = (char *)NULL; + } + + /* Dequote the current word in case we have to use it. */ + if (glob_array[0] == NULL) + { + temp_string = dequote_string (tlist->word->word); + free (tlist->word->word); + tlist->word->word = temp_string; + } + + /* Make the array into a word list. */ + glob_list = (WORD_LIST *)NULL; + for (glob_index = 0; glob_array[glob_index]; glob_index++) + { + tword = make_bare_word (glob_array[glob_index]); + glob_list = make_word_list (tword, glob_list); + } + + if (glob_list) + { + output_list = (WORD_LIST *)list_append (glob_list, output_list); + PREPEND_LIST (tlist, disposables); + } + else if (fail_glob_expansion != 0) + { + last_command_exit_value = EXECUTION_FAILURE; + report_error (_("no match: %s"), tlist->word->word); + exp_jump_to_top_level (DISCARD); + } + else if (allow_null_glob_expansion == 0) + { + /* Failed glob expressions are left unchanged. */ + PREPEND_LIST (tlist, output_list); + } + else + { + /* Failed glob expressions are removed. */ + PREPEND_LIST (tlist, disposables); + } + } + else + { + /* Dequote the string. */ + temp_string = dequote_string (tlist->word->word); + free (tlist->word->word); + tlist->word->word = temp_string; + PREPEND_LIST (tlist, output_list); + } + + strvec_dispose (glob_array); + glob_array = (char **)NULL; + + tlist = next; + } + + if (disposables) + dispose_words (disposables); + + if (output_list) + output_list = REVERSE_LIST (output_list, WORD_LIST *); + + return (output_list); +} + +#if defined (BRACE_EXPANSION) +static WORD_LIST * +brace_expand_word_list (tlist, eflags) + WORD_LIST *tlist; + int eflags; +{ + register char **expansions; + char *temp_string; + WORD_LIST *disposables, *output_list, *next; + WORD_DESC *w; + int eindex; + + for (disposables = output_list = (WORD_LIST *)NULL; tlist; tlist = next) + { + next = tlist->next; + + if (tlist->word->flags & W_NOBRACE) + { +/*itrace("brace_expand_word_list: %s: W_NOBRACE", tlist->word->word);*/ + PREPEND_LIST (tlist, output_list); + continue; + } + + if ((tlist->word->flags & (W_COMPASSIGN|W_ASSIGNARG)) == (W_COMPASSIGN|W_ASSIGNARG)) + { +/*itrace("brace_expand_word_list: %s: W_COMPASSIGN|W_ASSIGNARG", tlist->word->word);*/ + PREPEND_LIST (tlist, output_list); + continue; + } + + /* Only do brace expansion if the word has a brace character. If + not, just add the word list element to BRACES and continue. In + the common case, at least when running shell scripts, this will + degenerate to a bunch of calls to `mbschr', and then what is + basically a reversal of TLIST into BRACES, which is corrected + by a call to REVERSE_LIST () on BRACES when the end of TLIST + is reached. */ + if (mbschr (tlist->word->word, LBRACE)) + { + expansions = brace_expand (tlist->word->word); + + for (eindex = 0; temp_string = expansions[eindex]; eindex++) + { + w = alloc_word_desc (); + w->word = temp_string; + + /* If brace expansion didn't change the word, preserve + the flags. We may want to preserve the flags + unconditionally someday -- XXX */ + if (STREQ (temp_string, tlist->word->word)) + w->flags = tlist->word->flags; + else + w = make_word_flags (w, temp_string); + + output_list = make_word_list (w, output_list); + } + free (expansions); + + /* Add TLIST to the list of words to be freed after brace + expansion has been performed. */ + PREPEND_LIST (tlist, disposables); + } + else + PREPEND_LIST (tlist, output_list); + } + + if (disposables) + dispose_words (disposables); + + if (output_list) + output_list = REVERSE_LIST (output_list, WORD_LIST *); + + return (output_list); +} +#endif + +#if defined (ARRAY_VARS) +/* Take WORD, a compound associative array assignment, and internally run + 'declare -A w', where W is the variable name portion of WORD. */ +static int +make_internal_declare (word, option) + char *word; + char *option; +{ + int t; + WORD_LIST *wl; + WORD_DESC *w; + + w = make_word (word); + + t = assignment (w->word, 0); + w->word[t] = '\0'; + + wl = make_word_list (w, (WORD_LIST *)NULL); + wl = make_word_list (make_word (option), wl); + + return (declare_builtin (wl)); +} +#endif + +static WORD_LIST * +shell_expand_word_list (tlist, eflags) + WORD_LIST *tlist; + int eflags; +{ + WORD_LIST *expanded, *orig_list, *new_list, *next, *temp_list; + int expanded_something, has_dollar_at; + char *temp_string; + + /* We do tilde expansion all the time. This is what 1003.2 says. */ + new_list = (WORD_LIST *)NULL; + for (orig_list = tlist; tlist; tlist = next) + { + temp_string = tlist->word->word; + + next = tlist->next; + +#if defined (ARRAY_VARS) + /* If this is a compound array assignment to a builtin that accepts + such assignments (e.g., `declare'), take the assignment and perform + it separately, handling the semantics of declarations inside shell + functions. This avoids the double-evaluation of such arguments, + because `declare' does some evaluation of compound assignments on + its own. */ + if ((tlist->word->flags & (W_COMPASSIGN|W_ASSIGNARG)) == (W_COMPASSIGN|W_ASSIGNARG)) + { + int t; + char opts[8], opti; + + opti = 0; + if (tlist->word->flags & (W_ASSIGNASSOC|W_ASSNGLOBAL|W_ASSIGNARRAY)) + opts[opti++] = '-'; + + if ((tlist->word->flags & (W_ASSIGNASSOC|W_ASSNGLOBAL)) == (W_ASSIGNASSOC|W_ASSNGLOBAL)) + { + opts[opti++] = 'g'; + opts[opti++] = 'A'; + } + else if (tlist->word->flags & W_ASSIGNASSOC) + opts[opti++] = 'A'; + else if ((tlist->word->flags & (W_ASSIGNARRAY|W_ASSNGLOBAL)) == (W_ASSIGNARRAY|W_ASSNGLOBAL)) + { + opts[opti++] = 'g'; + opts[opti++] = 'a'; + } + else if (tlist->word->flags & W_ASSIGNARRAY) + opts[opti++] = 'a'; + else if (tlist->word->flags & W_ASSNGLOBAL) + opts[opti++] = 'g'; + + /* If we have special handling note the integer attribute */ + if (opti > 0 && (tlist->word->flags & W_ASSIGNINT)) + opts[opti++] = 'i'; + + opts[opti] = '\0'; + if (opti > 0) + make_internal_declare (tlist->word->word, opts); + + t = do_word_assignment (tlist->word, 0); + if (t == 0) + { + last_command_exit_value = EXECUTION_FAILURE; + exp_jump_to_top_level (DISCARD); + } + + /* Now transform the word as ksh93 appears to do and go on */ + t = assignment (tlist->word->word, 0); + tlist->word->word[t] = '\0'; + tlist->word->flags &= ~(W_ASSIGNMENT|W_NOSPLIT|W_COMPASSIGN|W_ASSIGNARG|W_ASSIGNASSOC|W_ASSIGNARRAY); + } +#endif + + expanded_something = 0; + expanded = expand_word_internal + (tlist->word, 0, 0, &has_dollar_at, &expanded_something); + + if (expanded == &expand_word_error || expanded == &expand_word_fatal) + { + /* By convention, each time this error is returned, + tlist->word->word has already been freed. */ + tlist->word->word = (char *)NULL; + + /* Dispose our copy of the original list. */ + dispose_words (orig_list); + /* Dispose the new list we're building. */ + dispose_words (new_list); + + last_command_exit_value = EXECUTION_FAILURE; + if (expanded == &expand_word_error) + exp_jump_to_top_level (DISCARD); + else + exp_jump_to_top_level (FORCE_EOF); + } + + /* Don't split words marked W_NOSPLIT. */ + if (expanded_something && (tlist->word->flags & W_NOSPLIT) == 0) + { + temp_list = word_list_split (expanded); + dispose_words (expanded); + } + else + { + /* If no parameter expansion, command substitution, process + substitution, or arithmetic substitution took place, then + do not do word splitting. We still have to remove quoted + null characters from the result. */ + word_list_remove_quoted_nulls (expanded); + temp_list = expanded; + } + + expanded = REVERSE_LIST (temp_list, WORD_LIST *); + new_list = (WORD_LIST *)list_append (expanded, new_list); + } + + if (orig_list) + dispose_words (orig_list); + + if (new_list) + new_list = REVERSE_LIST (new_list, WORD_LIST *); + + return (new_list); +} + +/* The workhorse for expand_words () and expand_words_no_vars (). + First arg is LIST, a WORD_LIST of words. + Second arg EFLAGS is a flags word controlling which expansions are + performed. + + This does all of the substitutions: brace expansion, tilde expansion, + parameter expansion, command substitution, arithmetic expansion, + process substitution, word splitting, and pathname expansion, according + to the bits set in EFLAGS. Words with the W_QUOTED or W_NOSPLIT bits + set, or for which no expansion is done, do not undergo word splitting. + Words with the W_NOGLOB bit set do not undergo pathname expansion; words + with W_NOBRACE set do not undergo brace expansion (see + brace_expand_word_list above). */ +static WORD_LIST * +expand_word_list_internal (list, eflags) + WORD_LIST *list; + int eflags; +{ + WORD_LIST *new_list, *temp_list; + int tint; + + tempenv_assign_error = 0; + if (list == 0) + return ((WORD_LIST *)NULL); + + garglist = new_list = copy_word_list (list); + if (eflags & WEXP_VARASSIGN) + { + garglist = new_list = separate_out_assignments (new_list); + if (new_list == 0) + { + if (subst_assign_varlist) + { + /* All the words were variable assignments, so they are placed + into the shell's environment. */ + for (temp_list = subst_assign_varlist; temp_list; temp_list = temp_list->next) + { + this_command_name = (char *)NULL; /* no arithmetic errors */ + tint = do_word_assignment (temp_list->word, 0); + /* Variable assignment errors in non-interactive shells + running in Posix.2 mode cause the shell to exit. */ + if (tint == 0) + { + last_command_exit_value = EXECUTION_FAILURE; + if (interactive_shell == 0 && posixly_correct) + exp_jump_to_top_level (FORCE_EOF); + else + exp_jump_to_top_level (DISCARD); + } + } + dispose_words (subst_assign_varlist); + subst_assign_varlist = (WORD_LIST *)NULL; + } + return ((WORD_LIST *)NULL); + } + } + + /* Begin expanding the words that remain. The expansions take place on + things that aren't really variable assignments. */ + +#if defined (BRACE_EXPANSION) + /* Do brace expansion on this word if there are any brace characters + in the string. */ + if ((eflags & WEXP_BRACEEXP) && brace_expansion && new_list) + new_list = brace_expand_word_list (new_list, eflags); +#endif /* BRACE_EXPANSION */ + + /* Perform the `normal' shell expansions: tilde expansion, parameter and + variable substitution, command substitution, arithmetic expansion, + and word splitting. */ + new_list = shell_expand_word_list (new_list, eflags); + + /* Okay, we're almost done. Now let's just do some filename + globbing. */ + if (new_list) + { + if ((eflags & WEXP_PATHEXP) && disallow_filename_globbing == 0) + /* Glob expand the word list unless globbing has been disabled. */ + new_list = glob_expand_word_list (new_list, eflags); + else + /* Dequote the words, because we're not performing globbing. */ + new_list = dequote_list (new_list); + } + + if ((eflags & WEXP_VARASSIGN) && subst_assign_varlist) + { + sh_wassign_func_t *assign_func; + int is_special_builtin, is_builtin_or_func; + + /* If the remainder of the words expand to nothing, Posix.2 requires + that the variable and environment assignments affect the shell's + environment. */ + assign_func = new_list ? assign_in_env : do_word_assignment; + tempenv_assign_error = 0; + + is_builtin_or_func = (new_list && new_list->word && (find_shell_builtin (new_list->word->word) || find_function (new_list->word->word))); + /* Posix says that special builtins exit if a variable assignment error + occurs in an assignment preceding it. */ + is_special_builtin = (posixly_correct && new_list && new_list->word && find_special_builtin (new_list->word->word)); + + for (temp_list = subst_assign_varlist; temp_list; temp_list = temp_list->next) + { + this_command_name = (char *)NULL; + assigning_in_environment = (assign_func == assign_in_env); + tint = (*assign_func) (temp_list->word, is_builtin_or_func); + assigning_in_environment = 0; + /* Variable assignment errors in non-interactive shells running + in Posix.2 mode cause the shell to exit. */ + if (tint == 0) + { + if (assign_func == do_word_assignment) + { + last_command_exit_value = EXECUTION_FAILURE; + if (interactive_shell == 0 && posixly_correct && is_special_builtin) + exp_jump_to_top_level (FORCE_EOF); + else + exp_jump_to_top_level (DISCARD); + } + else + tempenv_assign_error++; + } + } + + dispose_words (subst_assign_varlist); + subst_assign_varlist = (WORD_LIST *)NULL; + } + + return (new_list); +} diff --git a/tests/RUN-ONE-TEST b/tests/RUN-ONE-TEST index 3efcf32d6..72ec06a2c 100755 --- a/tests/RUN-ONE-TEST +++ b/tests/RUN-ONE-TEST @@ -1,4 +1,4 @@ -BUILD_DIR=/usr/local/build/chet/bash/bash-current +BUILD_DIR=/usr/local/build/bash/bash-current THIS_SH=$BUILD_DIR/bash PATH=$PATH:$BUILD_DIR diff --git a/tests/RUN-ONE-TEST~ b/tests/RUN-ONE-TEST~ new file mode 100755 index 000000000..3efcf32d6 --- /dev/null +++ b/tests/RUN-ONE-TEST~ @@ -0,0 +1,9 @@ +BUILD_DIR=/usr/local/build/chet/bash/bash-current +THIS_SH=$BUILD_DIR/bash +PATH=$PATH:$BUILD_DIR + +export THIS_SH PATH + +rm -f /tmp/xx + +/bin/sh "$@" diff --git a/tests/array.right b/tests/array.right index 27edb5075..4bcd29af0 100644 --- a/tests/array.right +++ b/tests/array.right @@ -375,3 +375,6 @@ declare -a x='([0]="0" [1]="1" [2]="2" [3]="3" [4]="4" [5]="5foo")' declare -a x='([0]="0" [1]="1" [2]="2" [3]="3" [4]="4" [5]="5")' declare -a x='([0]="0" [1]="1" [2]="2" [3]="3" [4]="4four" [5]="5")' strlen(4four) = 5 +1 2 0 3 +1 2 0 3 +1 2 0 3 diff --git a/tests/array.tests b/tests/array.tests index c9f25854c..53c7d8c04 100644 --- a/tests/array.tests +++ b/tests/array.tests @@ -396,3 +396,5 @@ ${THIS_SH} ./array12.sub ${THIS_SH} ./array13.sub ${THIS_SH} ./array14.sub + +${THIS_SH} ./array15.sub diff --git a/tests/array.tests~ b/tests/array.tests~ new file mode 100644 index 000000000..c9f25854c --- /dev/null +++ b/tests/array.tests~ @@ -0,0 +1,398 @@ +# this is needed so that the bad assignments (b[]=bcde, for example) do not +# cause fatal shell errors when in posix mode +set +o posix + +set +a +# The calls to egrep -v are to filter out builtin array variables that are +# automatically set and possibly contain values that vary. + +# first make sure we handle the basics +x=() +echo ${x[@]} +unset x + +# this should be an error +test=(first & second) +echo $? +unset test + +# make sure declare -a converts an existing variable to an array +unset a +a=abcde +declare -a a +echo ${a[0]} + +unset a +a=abcde +a[2]=bdef + +unset b +declare -a b[256] + +unset c[2] +unset c[*] + +a[1]= + +_ENV=/bin/true +x=${_ENV[(_$-=0)+(_=1)-_${-%%*i*}]} + +declare -r c[100] + +echo ${a[0]} ${a[4]} +echo ${a[@]} + +echo ${a[*]} + +# this should print out values, too +declare -a | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' + +unset a[7] +echo ${a[*]} + +unset a[4] +echo ${a[*]} + +echo ${a} +echo "${a}" +echo $a + +unset a[0] +echo ${a} + +echo ${a[@]} + +a[5]="hello world" +echo ${a[5]} +echo ${#a[5]} + +echo ${#a[@]} + +a[4+5/2]="test expression" +declare a["7 + 8"]="test 2" +a[7 + 8]="test 2" +echo ${a[@]} + +readonly a[5] +readonly a +# these two lines should output `declare' commands +readonly -a | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' +declare -ar | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' +# this line should output `readonly' commands, even for arrays +set -o posix +readonly -a | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' +set +o posix + +declare -a d='([1]="" [2]="bdef" [5]="hello world" "test")' +d[9]="ninth element" + +declare -a e[10]=test # this works in post-bash-2.05 versions +declare -a e[10]='(test)' + +pass=/etc/passwd +declare -a f='("${d[@]}")' +b=([0]=this [1]=is [2]=a [3]=test [4]="$PS1" [5]=$pass) + +echo ${b[@]:2:3} + +declare -pa | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' + +a[3]="this is a test" + +b[]=bcde +b[*]=aaa +echo ${b[ ]} + +c[-2]=4 +echo ${c[-4]} + +d[7]=(abdedfegeee) + +d=([]=abcde [1]="test test" [*]=last [-65]=negative ) + +unset d[12] +unset e[*] + +declare -a | egrep -v '(BASH_VERSINFO|PIPESTATUS|GROUPS)' + +ps1='hello' +unset ps1[2] +unset ${ps1[2]} + +declare +a ps1 +declare +a c + +# the prompt should not print when using a here doc +read -p "array test: " -a rv <' [2]='<' [3]='>' [4]='!' ) +echo ${foo[@]} + +# numbers are just words when not in a redirection context +foo=( 12 14 16 18 20 ) +echo ${foo[@]} + +foo=( 4414758999202 ) +echo ${foo[@]} + +# this was a bug in all versions of bash 2.x up to and including bash-2.04 +declare -a ddd=(aaa +bbb) +echo ${ddd[@]} + +# errors until post-bash-2.05a; now reserved words are OK +foo=(a b c for case if then else) + +foo=(for case if then else) + +# errors +metas=( <> < > ! ) +metas=( [1]=<> [2]=< [3]=> [4]=! ) + +# various expansions that didn't really work right until post-bash-2.04 +foo='abc' +echo ${foo[0]} ${#foo[0]} +echo ${foo[1]} ${#foo[1]} +echo ${foo[@]} ${#foo[@]} +echo ${foo[*]} ${#foo[*]} + +foo='' +echo ${foo[0]} ${#foo[0]} +echo ${foo[1]} ${#foo[1]} +echo ${foo[@]} ${#foo[@]} +echo ${foo[*]} ${#foo[*]} + +# new expansions added after bash-2.05b +x[0]=zero +x[1]=one +x[4]=four +x[10]=ten + +recho ${!x[@]} +recho "${!x[@]}" +recho ${!x[*]} +recho "${!x[*]}" + +# sparse array tests for code fixed in bash-3.0 +unset av +av[1]='one' +av[2]='' + +av[3]=three +av[5]=five +av[7]=seven + +echo include null element -- expect one +echo ${av[@]:1:2} # what happens when we include a null element? +echo include unset element -- expect three five +echo ${av[@]:3:2} # what happens when we include an unset element? +echo start at unset element -- expect five seven +echo ${av[@]:4:2} # what happens when we start at an unset element? + +echo too many elements -- expect three five seven +echo ${av[@]:3:5} # how about too many elements? + +echo positive offset - expect five seven +echo ${av[@]:5:2} +echo negative offset to unset element - expect seven +echo ${av[@]: -2:2} + +echo positive offset 2 - expect seven +echo ${av[@]: 6:2} +echo negative offset 2 - expect seven +echo ${av[@]: -1:2} + +echo out-of-range offset +echo ${av[@]:12} + +# parsing problems and other inconsistencies not fixed until post bash-3.0 +unset x +declare -a x=(')' $$) +[ ${x[1]} -eq $$ ] || echo bad + +unset x +declare -a x=(a b c d e) +echo ${x[4]} + +z=([1]=one [4]=four [7]=seven [10]=ten) + +echo ${#z[@]} + +echo ${!z[@]} + +unset x +declare -a x=(a \'b c\') + +echo "${x[1]}" + +unset x +declare -a x=(a 'b c') + +echo "${x[1]}" + +unset x +declare -a x=($0) +[ "${x[@]}" = $0 ] || echo double expansion of \$0 +declare -a x=(\$0) +echo "${x[@]}" + +# tests for bash-3.1 problems +${THIS_SH} ./array5.sub + +# tests for post-bash-3.2 problems, most fixed in bash-3.2 patches +${THIS_SH} ./array6.sub +${THIS_SH} ./array7.sub + +${THIS_SH} ./array8.sub + +${THIS_SH} ./array9.sub + +${THIS_SH} ./array10.sub + +${THIS_SH} ./array11.sub + +${THIS_SH} ./array12.sub + +${THIS_SH} ./array13.sub + +${THIS_SH} ./array14.sub diff --git a/tests/array15.sub b/tests/array15.sub new file mode 100644 index 000000000..b056ccbb7 --- /dev/null +++ b/tests/array15.sub @@ -0,0 +1,24 @@ +# fixes for make_internal_declare not handling integer attribute for arrays +declare -ai -g foo=(1 2 xx 3) +echo "${foo[@]}" + +unset foo +declare -ai -g foo='(1 2 xx 3)' +echo "${foo[@]}" + +unset foo +declare -ia -g foo=(1 2 xx 3) +echo "${foo[@]}" + +unset foo +declare -ia -g foo='(1 2 xx 3)' +echo "${foo[@]}" + +unset foo +func() +{ + declare -ai -g foo=(1 2 xx 3) +} + +func +echo "${foo[@]}" diff --git a/tests/array15.sub~ b/tests/array15.sub~ new file mode 100644 index 000000000..0f04d62d1 --- /dev/null +++ b/tests/array15.sub~ @@ -0,0 +1,22 @@ +# fixes for make_internal_declare not handling integer attribute for arrays +declare -ai -g foo=(1 2 xx 3) +echo "${foo[@]}" + +declare -ai -g foo='(1 2 xx 3)' +echo "${foo[@]}" + +unset foo +declare -ia -g foo=(1 2 xx 3) +echo "${foo[@]}" + +declare -ia -g foo='(1 2 xx 3)' +echo "${foo[@]}" + +unset foo +func() +{ + declare -ai -g foo=(1 2 xx 3) +} + +func +echo "${foo[@]}" diff --git a/tests/trap.right b/tests/trap.right index 1da72a52f..b36156462 100644 --- a/tests/trap.right +++ b/tests/trap.right @@ -93,16 +93,6 @@ sleep 2 wait $! exit in trap EXIT -works -bar -bar -foo -trap -- '' SIGINT -trap -- '' SIGUSR2 -foo -bar -foo -bar caught a child death caught a child death caught a child death diff --git a/tests/trap.tests b/tests/trap.tests index 0af03ad7c..5d8b06c0a 100644 --- a/tests/trap.tests +++ b/tests/trap.tests @@ -70,7 +70,8 @@ ${THIS_SH} ./trap3.sub ${THIS_SH} ./trap4.sub -${THIS_SH} ./trap5.sub +# This doesn't work right on all Unix versions +#${THIS_SH} ./trap5.sub # # show that setting a trap on SIGCHLD is not disastrous. diff --git a/tests/trap.tests~ b/tests/trap.tests~ new file mode 100644 index 000000000..0af03ad7c --- /dev/null +++ b/tests/trap.tests~ @@ -0,0 +1,96 @@ +# test the trap code + +trap 'echo exiting' 0 +trap 'echo aborting' 1 2 3 6 15 + +# make sure a user-specified subshell runs the exit trap, but does not +# inherit the exit trap from a parent shell +( trap 'echo subshell exit' 0; exit 0 ) +( exit 0 ) + +trap + +func() +{ + trap 'echo ${FUNCNAME:-$0}[$LINENO] funcdebug' DEBUG + echo funcdebug line +} + +trap 'echo [$LINENO] debug' DEBUG +echo debug line + +trap + +func + +trap + +trap 'echo ${FUNCNAME:-$0}[$LINENO] debug' DEBUG +func2() +{ + echo func2debug line +} +declare -ft func2 +func2 + +unset -f func2 + +trap '' DEBUG + +trap + +trap - debug + +trap + +trap - HUP +trap hup +trap '' INT +trap '' int + +trap + +# exit 0 in exit trap should set exit status +( +set -e +trap 'exit 0' EXIT +false +echo bad +) +echo $? + +# hmmm...should this set the handling to SIG_IGN for children, too? +trap '' USR2 +./trap1.sub + +# test ERR trap +./trap2.sub + +${THIS_SH} ./trap3.sub + +${THIS_SH} ./trap4.sub + +${THIS_SH} ./trap5.sub + +# +# show that setting a trap on SIGCHLD is not disastrous. +# +set -o monitor + +trap 'echo caught a child death' SIGCHLD + +sleep 7 & sleep 6 & sleep 5 & + +# this will only catch the first, since there's a trap on SIGCHLD +wait + +trap -p SIGCHLD + +# Now reset some of the signals the shell handles specially back to +# their default values (with or without the SIG prefix) +trap - SIGINT QUIT TERM + +trap + +trap - SIGCHLD +wait diff --git a/tests/trap5.sub b/tests/trap5.sub index 91947d54e..7f3380b41 100644 --- a/tests/trap5.sub +++ b/tests/trap5.sub @@ -1,5 +1,5 @@ # make sure process substitution runs the exit trap -[[ -n $(< <(trap "tee /dev/fd/3" EXIT)) ]] 3>&1 <<