[thirdparty/binutils-gdb.git] / gdb / testsuite / gdb.base / dump.exp

# Copyright 2002-2018 Free Software Foundation, Inc.

# This program 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.
#
# This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.

# This file was written by Michael Snyder (msnyder@redhat.com)
# This is a test for the gdb command "dump".


standard_testfile

set options  {debug}

set is64bitonly "no"
set endian "auto"

if [istarget "alpha*-*-*"] then {
    # SREC etc cannot handle 64-bit addresses.  Force the test
    # program into the low 31 bits of the address space.
    lappend options "additional_flags=-Wl,-taso"
}

if {[istarget "spu*-*-*"]} then {
    # The internal address format used for the combined Cell/B.E.
    # debugger requires 64-bit.
    set is64bitonly "yes"
}

if  { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable ${options}] != "" } {
     untested "failed to compile"
     return -1
}

# Start with a fresh gdb.

gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir

gdb_test "dump mem /dev/null 0x10 0x20" "Cannot access memory at address 0x10" \
	 "inaccessible memory is reported"

gdb_load ${binfile}

# Check the address of a variable.  If it is bigger than 32-bit,
# assume our target has 64-bit addresses that are not supported by SREC,
# IHEX and TEKHEX.  We skip those tests then.
set max_32bit_address "0xffffffff"
set data_address [get_hexadecimal_valueof "&intarray" 0x100000000]
if {${data_address} > ${max_32bit_address}} then {
    set is64bitonly "yes"
}

# Clean up any stale output files from previous test runs

set filenames {}
set all_files {
    intarr1.bin intarr1b.bin intarr1.ihex
    intarr1.srec intarr1.tekhex intarr1.verilog
    intarr2.bin intarr2b.bin intarr2.ihex
    intarr2.srec intarr2.tekhex intarr2.verilog
    intstr1.bin intstr1b.bin intstr1.ihex
    intstr1.srec intstr1.tekhex intstr1.verilog
    intstr2.bin intstr2b.bin intstr2.ihex
    intstr2.srec intstr2.tekhex intstr2.verilog
    intarr3.srec
}

# This loop sets variables dynamically -- each name listed in
# $ALL_FILES is both a file name and a variable name.
foreach file $all_files {
    if {[is_remote host]} {
	set this_name $file
    } else {
	set this_name [standard_output_file $file]
    }

    lappend filenames [set ${file} $this_name]
}

remote_exec host "rm -f $filenames"

# Test help (FIXME:)

# Run target program until data structs are initialized.

if { ! [ runto checkpoint1 ] } then {
    untested "couldn't run to checkpoint"
    return -1
}

# Get the endianness for the later use with endianless formats.

set endian [get_endianness]

# Now generate some dump files.

proc make_dump_file { command msg } {
  global gdb_prompt

    gdb_test_multiple "${command}" "$msg" {
	-re ".*\[Ee\]rror.*$gdb_prompt $"      { fail $msg }
	-re ".*\[Ww\]arning.*$gdb_prompt $"    { fail $msg }
	-re ".*\[Uu\]ndefined .*$gdb_prompt $" { fail $msg }
	-re ".*$gdb_prompt $"                  { pass $msg }
    }
}

make_dump_file "dump val [set intarr1.bin] intarray" \
	"dump array as value, default"

make_dump_file "dump val [set intstr1.bin] intstruct" \
	"dump struct as value, default"

make_dump_file "dump bin val [set intarr1b.bin] intarray" \
	"dump array as value, binary"

make_dump_file "dump bin val [set intstr1b.bin] intstruct" \
	"dump struct as value, binary"

make_dump_file "dump srec val [set intarr1.srec] intarray" \
	"dump array as value, srec"

make_dump_file "dump srec val [set intstr1.srec] intstruct" \
	"dump struct as value, srec"

make_dump_file "dump ihex val [set intarr1.ihex] intarray" \
	"dump array as value, intel hex"

make_dump_file "dump ihex val [set intstr1.ihex] intstruct" \
	"dump struct as value, intel hex"

make_dump_file "dump tekhex val [set intarr1.tekhex] intarray" \
	"dump array as value, tekhex"

make_dump_file "dump tekhex val [set intstr1.tekhex] intstruct" \
	"dump struct as value, tekhex"

make_dump_file "dump verilog val [set intarr1.verilog] intarray" \
	"dump array as value, verilog"

make_dump_file "dump verilog val [set intstr1.verilog] intstruct" \
	"dump struct as value, verilog"

proc capture_value { expression args } {
    global gdb_prompt
    global expect_out

    set output_string ""
    if {[llength $args] > 0} {
	# Convert $args into a simple string and don't use EXPRESSION
	# in the test name.
	set test "[join $args]; capture"
    } {
	set test "capture $expression"
    }
    gdb_test_multiple "print ${expression}" "$test" {
	-re "\\$\[0-9\]+ = (\[^\r\n\]+).*$gdb_prompt $" {
	    set output_string "$expect_out(1,string)"
	    pass "$test"
	}
	-re "(Cannot access memory at address \[^\r\n\]+).*$gdb_prompt $" {
	    # Even a failed value is valid
	    set output_string "$expect_out(1,string)"
	    pass "$test"
	}
    }
    return $output_string
}

# POINTER is a pointer and this proc captures the value of POINTER along
# with POINTER's type.  For example, POINTER is "&intarray", this proc will
# call "p &intarray", capture "(int (*)[32]) 0x804a0e0", and return this
# string.

proc capture_pointer_with_type { pointer } {
    global gdb_prompt
    global expect_out

    set test "capture type of pointer $pointer"
    set output_string ""
    gdb_test_multiple "p ${pointer}" $test {
	-re "\\$\[0-9\]+ = .*$gdb_prompt $" {
	    # Expected output of "p ${pointer}" is like "$7 = (int (*)[32]) 0x804a0e0",
	    # and we want to extract "(int (*)[32]) 0x804a0e0" from it via
	    # following regexp.
	    if [regexp " \\(.*\\).* 0x\[0-9a-fA-F\]+" $expect_out(0,string) output_string] {
		# OUTPUT_STRING is expected to be like "(int (*)[32]) 0x804a0e0".
		pass "$test"
	    } else {
		fail "$test"
	    }
	}
    }

    return $output_string
}

set array_start  [capture_value "/x &intarray\[0\]"]
set array_end    [capture_value "/x &intarray\[32\]"]
set struct_start [capture_value "/x &intstruct"]
set struct_end   [capture_value "/x &intstruct + 1"]

set array_val    [capture_value "intarray"]
set struct_val   [capture_value "intstruct"]

set array_ptr_type [capture_pointer_with_type "&intarray"]
set struct_ptr_type [capture_pointer_with_type "&intstruct"]

make_dump_file "dump mem [set intarr2.bin] $array_start $array_end" \
	"dump array as memory, default"

make_dump_file "dump  mem [set intstr2.bin] $struct_start $struct_end" \
	"dump struct as memory, default"

make_dump_file "dump bin mem [set intarr2b.bin] $array_start $array_end" \
	"dump array as memory, binary"

make_dump_file "dump bin mem [set intstr2b.bin] $struct_start $struct_end" \
	"dump struct as memory, binary"

make_dump_file "dump srec mem [set intarr2.srec] $array_start $array_end" \
	"dump array as memory, srec"

make_dump_file "dump srec mem [set intstr2.srec] $struct_start $struct_end" \
	"dump struct as memory, srec"

make_dump_file "dump ihex mem [set intarr2.ihex] $array_start $array_end" \
	"dump array as memory, ihex"

make_dump_file "dump ihex mem [set intstr2.ihex] $struct_start $struct_end" \
	"dump struct as memory, ihex"

make_dump_file "dump tekhex mem [set intarr2.tekhex] $array_start $array_end" \
	"dump array as memory, tekhex"

make_dump_file "dump tekhex mem [set intstr2.tekhex] $struct_start $struct_end" \
	"dump struct as memory, tekhex"

make_dump_file "dump verilog mem [set intarr2.verilog] $array_start $array_end" \
	"dump array as memory, verilog"

make_dump_file "dump verilog mem [set intstr2.verilog] $struct_start $struct_end" \
	"dump struct as memory, verilog"

# test complex expressions
make_dump_file \
    "dump srec mem [set intarr3.srec] &intarray \(char *\) &intarray + sizeof intarray" \
	"dump array as mem, srec, expressions"

proc test_restore_saved_value { restore_args msg oldval newval } {
    global gdb_prompt
    
    gdb_test "restore $restore_args" \
	"Restoring .*" \
	"$msg; file restored ok"
    if { ![string compare $oldval \
	       [capture_value $newval "$msg"]] } then { 
	pass "$msg; value restored ok"
    } else {
	fail "$msg; value restored ok"
    }
}

if ![string compare $is64bitonly "no"] then {

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.srec]" "array as value, srec" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr1.srec]" "struct as value, srec" \
	$struct_val "intstruct"

  gdb_test "print zero_all ()" "void" "zero all"

  test_restore_saved_value "[set intarr2.srec]" "array as memory, srec" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr2.srec]" "struct as memory, srec" \
	$struct_val "intstruct"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.ihex]" "array as value, ihex" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr1.ihex]" "struct as value, ihex" \
	$struct_val "intstruct"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr2.ihex]" "array as memory, ihex" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr2.ihex]" "struct as memory, ihex" \
	$struct_val "intstruct"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.tekhex]" "array as value, tekhex" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr1.tekhex]" "struct as value, tekhex" \
	$struct_val "intstruct"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr2.tekhex]" "array as memory, tekhex" \
	$array_val "intarray"

  test_restore_saved_value "[set intstr2.tekhex]" "struct as memory, tekhex" \
	$struct_val "intstruct"
}

gdb_test "print zero_all ()" ".*"

test_restore_saved_value "[set intarr1.bin] binary $array_start" \
	"array as value, binary" \
	$array_val "intarray"

test_restore_saved_value "[set intstr1.bin] binary $struct_start" \
	"struct as value, binary" \
	$struct_val "intstruct"

gdb_test "print zero_all ()" ".*"

test_restore_saved_value "[set intarr2.bin] binary $array_start" \
	"array as memory, binary" \
	$array_val "intarray"

test_restore_saved_value "[set intstr2.bin] binary $struct_start" \
	"struct as memory, binary" \
	$struct_val "intstruct"

# test restore with offset.

set array2_start   [capture_value "/x &intarray2\[0\]"]
set struct2_start  [capture_value "/x &intstruct2"]
set array2_offset  \
	[capture_value "(char *) &intarray2 - (char *) &intarray"]
set struct2_offset \
	[capture_value "(char *) &intstruct2 - (char *) &intstruct"]

gdb_test "print zero_all ()" ".*"


if ![string compare $is64bitonly "no"] then {
  test_restore_saved_value "[set intarr1.srec] $array2_offset" \
	"array copy, srec" \
	$array_val "intarray2"

  test_restore_saved_value "[set intstr1.srec] $struct2_offset" \
	"struct copy, srec" \
	$struct_val "intstruct2"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.ihex] $array2_offset" \
	"array copy, ihex" \
	$array_val "intarray2"

  test_restore_saved_value "[set intstr1.ihex] $struct2_offset" \
	"struct copy, ihex" \
	$struct_val "intstruct2"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.tekhex] $array2_offset" \
	"array copy, tekhex" \
	$array_val "intarray2"

  test_restore_saved_value "[set intstr1.tekhex] $struct2_offset" \
	"struct copy, tekhex" \
	$struct_val "intstruct2"
}

gdb_test "print zero_all ()" ".*"

test_restore_saved_value "[set intarr1.bin] binary $array2_start" \
	"array copy, binary" \
	$array_val "intarray2"

test_restore_saved_value "[set intstr1.bin] binary $struct2_start" \
	"struct copy, binary" \
	$struct_val "intstruct2"

#
# test restore with start/stop addresses.
#
# For this purpose, we will restore just the third element of the array, 
# and check to see that adjacent elements are not modified.
#
# We will need the address and offset of the third and fourth elements.
#

set element3_start  [capture_value "/x &intarray\[3\]"]
set element4_start  [capture_value "/x &intarray\[4\]"]
set element3_offset \
	[capture_value "/x (char *) &intarray\[3\] - (char *) &intarray\[0\]"]
set element4_offset \
	[capture_value "/x (char *) &intarray\[4\] - (char *) &intarray\[0\]"]

if ![string compare $is64bitonly "no"] then {
  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.srec] 0 $element3_start $element4_start" \
	"array partial, srec" 4 "intarray\[3\]"

  gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 1"
  gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 1"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.ihex] 0 $element3_start $element4_start" \
	"array partial, ihex" 4 "intarray\[3\]"

  gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 2"
  gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 2"

  gdb_test "print zero_all ()" ".*"

  test_restore_saved_value "[set intarr1.tekhex] 0 $element3_start $element4_start" \
	"array partial, tekhex" 4 "intarray\[3\]"

  gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 3"
  gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 3"
}

gdb_test "print zero_all ()" ".*"

test_restore_saved_value \
    "[set intarr1.bin] binary $array_start $element3_offset $element4_offset" \
    "array partial, binary" 4 "intarray\[3\]"

gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 4"
gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 4"

if ![string compare $is64bitonly "no"] then {
  gdb_test "print zero_all ()" ".*" ""

  # restore with expressions 
  test_restore_saved_value \
	"[set intarr3.srec] (char*)${array2_start}-(char*)${array_start} &intarray\[3\] &intarray\[4\]" \
	"array partial with expressions" 4 "intarray2\[3\]"

  gdb_test "print intarray2\[2\] == 0" " = 1" "element 2 not changed, == 4"
  gdb_test "print intarray2\[4\] == 0" " = 1" "element 4 not changed, == 4"
}


# Now start a fresh gdb session, and reload the saved value files.

gdb_exit
gdb_start
gdb_file_cmd ${binfile}

# Now fix the endianness at the correct state.

gdb_test_multiple "set endian $endian" "set endianness" {
    -re ".* (big|little) endian.*$gdb_prompt $" { 
	pass "setting $endian endianness"
    }
}

# Reload saved values one by one, and compare.

if { ![string compare $array_val \
	   [capture_value "intarray" "file binfile; intarray"]] } then {
    fail "start with intarray un-initialized"
} else {
    pass "start with intarray un-initialized"
}

if { ![string compare $struct_val \
	   [capture_value "intstruct" "file binfile; intstruct"]] } then {
    fail "start with intstruct un-initialized"
} else {
    pass "start with intstruct un-initialized"
}

proc test_reload_saved_value { filename msg oldval newval } {
    global gdb_prompt
    
    gdb_file_cmd $filename
    if { ![string compare $oldval \
	       [capture_value $newval "$msg"]] } then { 
	pass "$msg; value restored ok"
    } else {
	fail "$msg; value restored ok"
    }
}

# srec format can not be loaded for 64-bit-only platforms
if ![string compare $is64bitonly "no"] then {
  test_reload_saved_value "[set intarr1.srec]" "reload array as value, srec" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr1.srec]" "reload struct as value, srec" \
	$struct_val "\*$struct_ptr_type"
  test_reload_saved_value "[set intarr2.srec]" "reload array as memory, srec" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr2.srec]" "reload struct as memory, srec" \
	$struct_val "\*$struct_ptr_type"
}

# ihex format can not be loaded for 64-bit-only platforms
if ![string compare $is64bitonly "no"] then {

  test_reload_saved_value "[set intarr1.ihex]" \
      "reload array as value, intel hex" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr1.ihex]" \
      "reload struct as value, intel hex" \
	$struct_val "\*$struct_ptr_type"
  test_reload_saved_value "[set intarr2.ihex]" \
      "reload array as memory, intel hex" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr2.ihex]" \
      "reload struct as memory, intel hex" \
	$struct_val "\*$struct_ptr_type"
}

# tekhex format can not be loaded for 64-bit-only platforms
if ![string compare $is64bitonly "no"] then {
  test_reload_saved_value "[set intarr1.tekhex]" \
      "reload array as value, tekhex" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr1.tekhex]" \
      "reload struct as value, tekhex" \
	$struct_val "\*$struct_ptr_type"
  test_reload_saved_value "[set intarr2.tekhex]" \
      "reload array as memory, tekhex" \
	$array_val "\*$array_ptr_type"
  test_reload_saved_value "[set intstr2.tekhex]" \
      "reload struct as memory, tekhex" \
	$struct_val "\*$struct_ptr_type"
}

# clean up files

remote_exec host "rm -f $filenames"
Commit	Line	Data
	1	# Copyright 2002-2018 Free Software Foundation, Inc.
	2
	3	# This program is free software; you can redistribute it and/or modify
	4	# it under the terms of the GNU General Public License as published by
	5	# the Free Software Foundation; either version 3 of the License, or
	6	# (at your option) any later version.
	7	#
	8	# This program is distributed in the hope that it will be useful,
	9	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	10	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	11	# GNU General Public License for more details.
	12	#
	13	# You should have received a copy of the GNU General Public License
	14	# along with this program. If not, see <http://www.gnu.org/licenses/>.
	15
	16	# This file was written by Michael Snyder (msnyder@redhat.com)
	17	# This is a test for the gdb command "dump".
	18
	19
	20	standard_testfile
	21
	22	set options {debug}
	23
	24	set is64bitonly "no"
	25	set endian "auto"
	26
	27	if [istarget "alpha--*"] then {
	28	# SREC etc cannot handle 64-bit addresses. Force the test
	29	# program into the low 31 bits of the address space.
	30	lappend options "additional_flags=-Wl,-taso"
	31	}
	32
	33	if {[istarget "spu--*"]} then {
	34	# The internal address format used for the combined Cell/B.E.
	35	# debugger requires 64-bit.
	36	set is64bitonly "yes"
	37	}
	38
	39	if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable ${options}] != "" } {
	40	untested "failed to compile"
	41	return -1
	42	}
	43
	44	# Start with a fresh gdb.
	45
	46	gdb_exit
	47	gdb_start
	48	gdb_reinitialize_dir $srcdir/$subdir
	49
	50	gdb_test "dump mem /dev/null 0x10 0x20" "Cannot access memory at address 0x10" \
	51	"inaccessible memory is reported"
	52
	53	gdb_load ${binfile}
	54
	55	# Check the address of a variable. If it is bigger than 32-bit,
	56	# assume our target has 64-bit addresses that are not supported by SREC,
	57	# IHEX and TEKHEX. We skip those tests then.
	58	set max_32bit_address "0xffffffff"
	59	set data_address [get_hexadecimal_valueof "&intarray" 0x100000000]
	60	if {${data_address} > ${max_32bit_address}} then {
	61	set is64bitonly "yes"
	62	}
	63
	64	# Clean up any stale output files from previous test runs
	65
	66	set filenames {}
	67	set all_files {
	68	intarr1.bin intarr1b.bin intarr1.ihex
	69	intarr1.srec intarr1.tekhex intarr1.verilog
	70	intarr2.bin intarr2b.bin intarr2.ihex
	71	intarr2.srec intarr2.tekhex intarr2.verilog
	72	intstr1.bin intstr1b.bin intstr1.ihex
	73	intstr1.srec intstr1.tekhex intstr1.verilog
	74	intstr2.bin intstr2b.bin intstr2.ihex
	75	intstr2.srec intstr2.tekhex intstr2.verilog
	76	intarr3.srec
	77	}
	78
	79	# This loop sets variables dynamically -- each name listed in
	80	# $ALL_FILES is both a file name and a variable name.
	81	foreach file $all_files {
	82	if {[is_remote host]} {
	83	set this_name $file
	84	} else {
	85	set this_name [standard_output_file $file]
	86	}
	87
	88	lappend filenames [set ${file} $this_name]
	89	}
	90
	91	remote_exec host "rm -f $filenames"
	92
	93	# Test help (FIXME:)
	94
	95	# Run target program until data structs are initialized.
	96
	97	if { ! [ runto checkpoint1 ] } then {
	98	untested "couldn't run to checkpoint"
	99	return -1
	100	}
	101
	102	# Get the endianness for the later use with endianless formats.
	103
	104	set endian [get_endianness]
	105
	106	# Now generate some dump files.
	107
	108	proc make_dump_file { command msg } {
	109	global gdb_prompt
	110
	111	gdb_test_multiple "${command}" "$msg" {
	112	-re ".\[Ee\]rror.$gdb_prompt $" { fail $msg }
	113	-re ".\[Ww\]arning.$gdb_prompt $" { fail $msg }
	114	-re ".\[Uu\]ndefined .$gdb_prompt $" { fail $msg }
	115	-re ".*$gdb_prompt $" { pass $msg }
	116	}
	117	}
	118
	119	make_dump_file "dump val [set intarr1.bin] intarray" \
	120	"dump array as value, default"
	121
	122	make_dump_file "dump val [set intstr1.bin] intstruct" \
	123	"dump struct as value, default"
	124
	125	make_dump_file "dump bin val [set intarr1b.bin] intarray" \
	126	"dump array as value, binary"
	127
	128	make_dump_file "dump bin val [set intstr1b.bin] intstruct" \
	129	"dump struct as value, binary"
	130
	131	make_dump_file "dump srec val [set intarr1.srec] intarray" \
	132	"dump array as value, srec"
	133
	134	make_dump_file "dump srec val [set intstr1.srec] intstruct" \
	135	"dump struct as value, srec"
	136
	137	make_dump_file "dump ihex val [set intarr1.ihex] intarray" \
	138	"dump array as value, intel hex"
	139
	140	make_dump_file "dump ihex val [set intstr1.ihex] intstruct" \
	141	"dump struct as value, intel hex"
	142
	143	make_dump_file "dump tekhex val [set intarr1.tekhex] intarray" \
	144	"dump array as value, tekhex"
	145
	146	make_dump_file "dump tekhex val [set intstr1.tekhex] intstruct" \
	147	"dump struct as value, tekhex"
	148
	149	make_dump_file "dump verilog val [set intarr1.verilog] intarray" \
	150	"dump array as value, verilog"
	151
	152	make_dump_file "dump verilog val [set intstr1.verilog] intstruct" \
	153	"dump struct as value, verilog"
	154
	155	proc capture_value { expression args } {
	156	global gdb_prompt
	157	global expect_out
	158
	159	set output_string ""
	160	if {[llength $args] > 0} {
	161	# Convert $args into a simple string and don't use EXPRESSION
	162	# in the test name.
	163	set test "[join $args]; capture"
	164	} {
	165	set test "capture $expression"
	166	}
	167	gdb_test_multiple "print ${expression}" "$test" {
	168	-re "\\$\[0-9\]+ = (\[^\r\n\]+).*$gdb_prompt $" {
	169	set output_string "$expect_out(1,string)"
	170	pass "$test"
	171	}
	172	-re "(Cannot access memory at address \[^\r\n\]+).*$gdb_prompt $" {
	173	# Even a failed value is valid
	174	set output_string "$expect_out(1,string)"
	175	pass "$test"
	176	}
	177	}
	178	return $output_string
	179	}
	180
	181	# POINTER is a pointer and this proc captures the value of POINTER along
	182	# with POINTER's type. For example, POINTER is "&intarray", this proc will
	183	# call "p &intarray", capture "(int (*)[32]) 0x804a0e0", and return this
	184	# string.
	185
	186	proc capture_pointer_with_type { pointer } {
	187	global gdb_prompt
	188	global expect_out
	189
	190	set test "capture type of pointer $pointer"
	191	set output_string ""
	192	gdb_test_multiple "p ${pointer}" $test {
	193	-re "\\$\[0-9\]+ = .*$gdb_prompt $" {
	194	# Expected output of "p ${pointer}" is like "$7 = (int (*)[32]) 0x804a0e0",
	195	# and we want to extract "(int (*)[32]) 0x804a0e0" from it via
	196	# following regexp.
	197	if [regexp " \\(.\\). 0x\[0-9a-fA-F\]+" $expect_out(0,string) output_string] {
	198	# OUTPUT_STRING is expected to be like "(int (*)[32]) 0x804a0e0".
	199	pass "$test"
	200	} else {
	201	fail "$test"
	202	}
	203	}
	204	}
	205
	206	return $output_string
	207	}
	208
	209	set array_start [capture_value "/x &intarray\[0\]"]
	210	set array_end [capture_value "/x &intarray\[32\]"]
	211	set struct_start [capture_value "/x &intstruct"]
	212	set struct_end [capture_value "/x &intstruct + 1"]
	213
	214	set array_val [capture_value "intarray"]
	215	set struct_val [capture_value "intstruct"]
	216
	217	set array_ptr_type [capture_pointer_with_type "&intarray"]
	218	set struct_ptr_type [capture_pointer_with_type "&intstruct"]
	219
	220	make_dump_file "dump mem [set intarr2.bin] $array_start $array_end" \
	221	"dump array as memory, default"
	222
	223	make_dump_file "dump mem [set intstr2.bin] $struct_start $struct_end" \
	224	"dump struct as memory, default"
	225
	226	make_dump_file "dump bin mem [set intarr2b.bin] $array_start $array_end" \
	227	"dump array as memory, binary"
	228
	229	make_dump_file "dump bin mem [set intstr2b.bin] $struct_start $struct_end" \
	230	"dump struct as memory, binary"
	231
	232	make_dump_file "dump srec mem [set intarr2.srec] $array_start $array_end" \
	233	"dump array as memory, srec"
	234
	235	make_dump_file "dump srec mem [set intstr2.srec] $struct_start $struct_end" \
	236	"dump struct as memory, srec"
	237
	238	make_dump_file "dump ihex mem [set intarr2.ihex] $array_start $array_end" \
	239	"dump array as memory, ihex"
	240
	241	make_dump_file "dump ihex mem [set intstr2.ihex] $struct_start $struct_end" \
	242	"dump struct as memory, ihex"
	243
	244	make_dump_file "dump tekhex mem [set intarr2.tekhex] $array_start $array_end" \
	245	"dump array as memory, tekhex"
	246
	247	make_dump_file "dump tekhex mem [set intstr2.tekhex] $struct_start $struct_end" \
	248	"dump struct as memory, tekhex"
	249
	250	make_dump_file "dump verilog mem [set intarr2.verilog] $array_start $array_end" \
	251	"dump array as memory, verilog"
	252
	253	make_dump_file "dump verilog mem [set intstr2.verilog] $struct_start $struct_end" \
	254	"dump struct as memory, verilog"
	255
	256	# test complex expressions
	257	make_dump_file \
	258	"dump srec mem [set intarr3.srec] &intarray \(char *\) &intarray + sizeof intarray" \
	259	"dump array as mem, srec, expressions"
	260
	261	proc test_restore_saved_value { restore_args msg oldval newval } {
	262	global gdb_prompt
	263
	264	gdb_test "restore $restore_args" \
	265	"Restoring .*" \
	266	"$msg; file restored ok"
	267	if { ![string compare $oldval \
	268	[capture_value $newval "$msg"]] } then {
	269	pass "$msg; value restored ok"
	270	} else {
	271	fail "$msg; value restored ok"
	272	}
	273	}
	274
	275	if ![string compare $is64bitonly "no"] then {
	276
	277	gdb_test "print zero_all ()" ".*"
	278
	279	test_restore_saved_value "[set intarr1.srec]" "array as value, srec" \
	280	$array_val "intarray"
	281
	282	test_restore_saved_value "[set intstr1.srec]" "struct as value, srec" \
	283	$struct_val "intstruct"
	284
	285	gdb_test "print zero_all ()" "void" "zero all"
	286
	287	test_restore_saved_value "[set intarr2.srec]" "array as memory, srec" \
	288	$array_val "intarray"
	289
	290	test_restore_saved_value "[set intstr2.srec]" "struct as memory, srec" \
	291	$struct_val "intstruct"
	292
	293	gdb_test "print zero_all ()" ".*"
	294
	295	test_restore_saved_value "[set intarr1.ihex]" "array as value, ihex" \
	296	$array_val "intarray"
	297
	298	test_restore_saved_value "[set intstr1.ihex]" "struct as value, ihex" \
	299	$struct_val "intstruct"
	300
	301	gdb_test "print zero_all ()" ".*"
	302
	303	test_restore_saved_value "[set intarr2.ihex]" "array as memory, ihex" \
	304	$array_val "intarray"
	305
	306	test_restore_saved_value "[set intstr2.ihex]" "struct as memory, ihex" \
	307	$struct_val "intstruct"
	308
	309	gdb_test "print zero_all ()" ".*"
	310
	311	test_restore_saved_value "[set intarr1.tekhex]" "array as value, tekhex" \
	312	$array_val "intarray"
	313
	314	test_restore_saved_value "[set intstr1.tekhex]" "struct as value, tekhex" \
	315	$struct_val "intstruct"
	316
	317	gdb_test "print zero_all ()" ".*"
	318
	319	test_restore_saved_value "[set intarr2.tekhex]" "array as memory, tekhex" \
	320	$array_val "intarray"
	321
	322	test_restore_saved_value "[set intstr2.tekhex]" "struct as memory, tekhex" \
	323	$struct_val "intstruct"
	324	}
	325
	326	gdb_test "print zero_all ()" ".*"
	327
	328	test_restore_saved_value "[set intarr1.bin] binary $array_start" \
	329	"array as value, binary" \
	330	$array_val "intarray"
	331
	332	test_restore_saved_value "[set intstr1.bin] binary $struct_start" \
	333	"struct as value, binary" \
	334	$struct_val "intstruct"
	335
	336	gdb_test "print zero_all ()" ".*"
	337
	338	test_restore_saved_value "[set intarr2.bin] binary $array_start" \
	339	"array as memory, binary" \
	340	$array_val "intarray"
	341
	342	test_restore_saved_value "[set intstr2.bin] binary $struct_start" \
	343	"struct as memory, binary" \
	344	$struct_val "intstruct"
	345
	346	# test restore with offset.
	347
	348	set array2_start [capture_value "/x &intarray2\[0\]"]
	349	set struct2_start [capture_value "/x &intstruct2"]
	350	set array2_offset \
	351	[capture_value "(char ) &intarray2 - (char ) &intarray"]
	352	set struct2_offset \
	353	[capture_value "(char ) &intstruct2 - (char ) &intstruct"]
	354
	355	gdb_test "print zero_all ()" ".*"
	356
	357
	358	if ![string compare $is64bitonly "no"] then {
	359	test_restore_saved_value "[set intarr1.srec] $array2_offset" \
	360	"array copy, srec" \
	361	$array_val "intarray2"
	362
	363	test_restore_saved_value "[set intstr1.srec] $struct2_offset" \
	364	"struct copy, srec" \
	365	$struct_val "intstruct2"
	366
	367	gdb_test "print zero_all ()" ".*"
	368
	369	test_restore_saved_value "[set intarr1.ihex] $array2_offset" \
	370	"array copy, ihex" \
	371	$array_val "intarray2"
	372
	373	test_restore_saved_value "[set intstr1.ihex] $struct2_offset" \
	374	"struct copy, ihex" \
	375	$struct_val "intstruct2"
	376
	377	gdb_test "print zero_all ()" ".*"
	378
	379	test_restore_saved_value "[set intarr1.tekhex] $array2_offset" \
	380	"array copy, tekhex" \
	381	$array_val "intarray2"
	382
	383	test_restore_saved_value "[set intstr1.tekhex] $struct2_offset" \
	384	"struct copy, tekhex" \
	385	$struct_val "intstruct2"
	386	}
	387
	388	gdb_test "print zero_all ()" ".*"
	389
	390	test_restore_saved_value "[set intarr1.bin] binary $array2_start" \
	391	"array copy, binary" \
	392	$array_val "intarray2"
	393
	394	test_restore_saved_value "[set intstr1.bin] binary $struct2_start" \
	395	"struct copy, binary" \
	396	$struct_val "intstruct2"
	397
	398	#
	399	# test restore with start/stop addresses.
	400	#
	401	# For this purpose, we will restore just the third element of the array,
	402	# and check to see that adjacent elements are not modified.
	403	#
	404	# We will need the address and offset of the third and fourth elements.
	405	#
	406
	407	set element3_start [capture_value "/x &intarray\[3\]"]
	408	set element4_start [capture_value "/x &intarray\[4\]"]
	409	set element3_offset \
	410	[capture_value "/x (char ) &intarray\[3\] - (char ) &intarray\[0\]"]
	411	set element4_offset \
	412	[capture_value "/x (char ) &intarray\[4\] - (char ) &intarray\[0\]"]
	413
	414	if ![string compare $is64bitonly "no"] then {
	415	gdb_test "print zero_all ()" ".*"
	416
	417	test_restore_saved_value "[set intarr1.srec] 0 $element3_start $element4_start" \
	418	"array partial, srec" 4 "intarray\[3\]"
	419
	420	gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 1"
	421	gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 1"
	422
	423	gdb_test "print zero_all ()" ".*"
	424
	425	test_restore_saved_value "[set intarr1.ihex] 0 $element3_start $element4_start" \
	426	"array partial, ihex" 4 "intarray\[3\]"
	427
	428	gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 2"
	429	gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 2"
	430
	431	gdb_test "print zero_all ()" ".*"
	432
	433	test_restore_saved_value "[set intarr1.tekhex] 0 $element3_start $element4_start" \
	434	"array partial, tekhex" 4 "intarray\[3\]"
	435
	436	gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 3"
	437	gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 3"
	438	}
	439
	440	gdb_test "print zero_all ()" ".*"
	441
	442	test_restore_saved_value \
	443	"[set intarr1.bin] binary $array_start $element3_offset $element4_offset" \
	444	"array partial, binary" 4 "intarray\[3\]"
	445
	446	gdb_test "print intarray\[2\] == 0" " = 1" "element 2 not changed - 4"
	447	gdb_test "print intarray\[4\] == 0" " = 1" "element 4 not changed - 4"
	448
	449	if ![string compare $is64bitonly "no"] then {
	450	gdb_test "print zero_all ()" ".*" ""
	451
	452	# restore with expressions
	453	test_restore_saved_value \
	454	"[set intarr3.srec] (char)${array2_start}-(char)${array_start} &intarray\[3\] &intarray\[4\]" \
	455	"array partial with expressions" 4 "intarray2\[3\]"
	456
	457	gdb_test "print intarray2\[2\] == 0" " = 1" "element 2 not changed, == 4"
	458	gdb_test "print intarray2\[4\] == 0" " = 1" "element 4 not changed, == 4"
	459	}
	460
	461
	462	# Now start a fresh gdb session, and reload the saved value files.
	463
	464	gdb_exit
	465	gdb_start
	466	gdb_file_cmd ${binfile}
	467
	468	# Now fix the endianness at the correct state.
	469
	470	gdb_test_multiple "set endian $endian" "set endianness" {
	471	-re ".* (big\|little) endian.*$gdb_prompt $" {
	472	pass "setting $endian endianness"
	473	}
	474	}
	475
	476	# Reload saved values one by one, and compare.
	477
	478	if { ![string compare $array_val \
	479	[capture_value "intarray" "file binfile; intarray"]] } then {
	480	fail "start with intarray un-initialized"
	481	} else {
	482	pass "start with intarray un-initialized"
	483	}
	484
	485	if { ![string compare $struct_val \
	486	[capture_value "intstruct" "file binfile; intstruct"]] } then {
	487	fail "start with intstruct un-initialized"
	488	} else {
	489	pass "start with intstruct un-initialized"
	490	}
	491
	492	proc test_reload_saved_value { filename msg oldval newval } {
	493	global gdb_prompt
	494
	495	gdb_file_cmd $filename
	496	if { ![string compare $oldval \
	497	[capture_value $newval "$msg"]] } then {
	498	pass "$msg; value restored ok"
	499	} else {
	500	fail "$msg; value restored ok"
	501	}
	502	}
	503
	504	# srec format can not be loaded for 64-bit-only platforms
	505	if ![string compare $is64bitonly "no"] then {
	506	test_reload_saved_value "[set intarr1.srec]" "reload array as value, srec" \
	507	$array_val "\*$array_ptr_type"
	508	test_reload_saved_value "[set intstr1.srec]" "reload struct as value, srec" \
	509	$struct_val "\*$struct_ptr_type"
	510	test_reload_saved_value "[set intarr2.srec]" "reload array as memory, srec" \
	511	$array_val "\*$array_ptr_type"
	512	test_reload_saved_value "[set intstr2.srec]" "reload struct as memory, srec" \
	513	$struct_val "\*$struct_ptr_type"
	514	}
	515
	516	# ihex format can not be loaded for 64-bit-only platforms
	517	if ![string compare $is64bitonly "no"] then {
	518
	519	test_reload_saved_value "[set intarr1.ihex]" \
	520	"reload array as value, intel hex" \
	521	$array_val "\*$array_ptr_type"
	522	test_reload_saved_value "[set intstr1.ihex]" \
	523	"reload struct as value, intel hex" \
	524	$struct_val "\*$struct_ptr_type"
	525	test_reload_saved_value "[set intarr2.ihex]" \
	526	"reload array as memory, intel hex" \
	527	$array_val "\*$array_ptr_type"
	528	test_reload_saved_value "[set intstr2.ihex]" \
	529	"reload struct as memory, intel hex" \
	530	$struct_val "\*$struct_ptr_type"
	531	}
	532
	533	# tekhex format can not be loaded for 64-bit-only platforms
	534	if ![string compare $is64bitonly "no"] then {
	535	test_reload_saved_value "[set intarr1.tekhex]" \
	536	"reload array as value, tekhex" \
	537	$array_val "\*$array_ptr_type"
	538	test_reload_saved_value "[set intstr1.tekhex]" \
	539	"reload struct as value, tekhex" \
	540	$struct_val "\*$struct_ptr_type"
	541	test_reload_saved_value "[set intarr2.tekhex]" \
	542	"reload array as memory, tekhex" \
	543	$array_val "\*$array_ptr_type"
	544	test_reload_saved_value "[set intstr2.tekhex]" \
	545	"reload struct as memory, tekhex" \
	546	$struct_val "\*$struct_ptr_type"
	547	}
	548
	549	# clean up files
	550
	551	remote_exec host "rm -f $filenames"