#include "addressing.h"
#include "ntp.h"
#include "candm.h"
+#include "cmac.h"
#include "hash.h"
/* Zero a timespec */
extern int UTI_IsZeroTimespec(struct timespec *ts);
/* Convert a timeval into a timespec */
-extern void UTI_TimevalToTimespec(struct timeval *tv, struct timespec *ts);
+extern void UTI_TimevalToTimespec(const struct timeval *tv, struct timespec *ts);
/* Convert a timespec into a timeval */
-extern void UTI_TimespecToTimeval(struct timespec *ts, struct timeval *tv);
+extern void UTI_TimespecToTimeval(const struct timespec *ts, struct timeval *tv);
/* Convert a timespec into a floating point number of seconds */
-extern double UTI_TimespecToDouble(struct timespec *ts);
+extern double UTI_TimespecToDouble(const struct timespec *ts);
/* Convert a number of seconds expressed in floating point into a
timespec */
extern void UTI_NormaliseTimespec(struct timespec *ts);
/* Convert a timeval into a floating point number of seconds */
-extern double UTI_TimevalToDouble(struct timeval *tv);
+extern double UTI_TimevalToDouble(const struct timeval *tv);
/* Convert a number of seconds expressed in floating point into a
timeval */
/* Returns -1 if a comes earlier than b, 0 if a is the same time as b,
and +1 if a comes after b */
-extern int UTI_CompareTimespecs(struct timespec *a, struct timespec *b);
+extern int UTI_CompareTimespecs(const struct timespec *a, const struct timespec *b);
/* Calculate result = a - b */
-extern void UTI_DiffTimespecs(struct timespec *result, struct timespec *a, struct timespec *b);
+extern void UTI_DiffTimespecs(struct timespec *result,
+ const struct timespec *a, const struct timespec *b);
/* Calculate result = a - b and return as a double */
-extern double UTI_DiffTimespecsToDouble(struct timespec *a, struct timespec *b);
+extern double UTI_DiffTimespecsToDouble(const struct timespec *a, const struct timespec *b);
/* Add a double increment to a timespec to get a new one. 'start' is
the starting time, 'end' is the result that we return. This is
safe to use if start and end are the same */
-extern void UTI_AddDoubleToTimespec(struct timespec *start, double increment, struct timespec *end);
+extern void UTI_AddDoubleToTimespec(const struct timespec *start, double increment,
+ struct timespec *end);
/* Calculate the average and difference (as a double) of two timespecs */
-extern void UTI_AverageDiffTimespecs(struct timespec *earlier, struct timespec *later, struct timespec *average, double *diff);
+extern void UTI_AverageDiffTimespecs(const struct timespec *earlier, const struct timespec *later,
+ struct timespec *average, double *diff);
/* Calculate result = a - b + c */
-extern void UTI_AddDiffToTimespec(struct timespec *a, struct timespec *b, struct timespec *c, struct timespec *result);
+extern void UTI_AddDiffToTimespec(const struct timespec *a, const struct timespec *b,
+ const struct timespec *c, struct timespec *result);
/* Convert a timespec into a temporary string, largely for diagnostic
display */
-extern char *UTI_TimespecToString(struct timespec *ts);
+extern char *UTI_TimespecToString(const struct timespec *ts);
/* Convert an NTP timestamp into a temporary string, largely for
diagnostic display */
-extern char *UTI_Ntp64ToString(NTP_int64 *ts);
+extern char *UTI_Ntp64ToString(const NTP_int64 *ts);
/* Convert ref_id into a temporary string, for diagnostics */
extern char *UTI_RefidToString(uint32_t ref_id);
/* Convert an IP address to string, for diagnostics */
-extern char *UTI_IPToString(IPAddr *ip);
+extern char *UTI_IPToString(const IPAddr *ip);
extern int UTI_StringToIP(const char *addr, IPAddr *ip);
-extern uint32_t UTI_IPToRefid(IPAddr *ip);
-extern uint32_t UTI_IPToHash(IPAddr *ip);
-extern void UTI_IPHostToNetwork(IPAddr *src, IPAddr *dest);
-extern void UTI_IPNetworkToHost(IPAddr *src, IPAddr *dest);
-extern int UTI_CompareIPs(IPAddr *a, IPAddr *b, IPAddr *mask);
+extern int UTI_IsStringIP(const char *string);
+extern int UTI_StringToIdIP(const char *addr, IPAddr *ip);
+extern int UTI_IsIPReal(const IPAddr *ip);
+extern uint32_t UTI_IPToRefid(const IPAddr *ip);
+extern uint32_t UTI_IPToHash(const IPAddr *ip);
+extern void UTI_IPHostToNetwork(const IPAddr *src, IPAddr *dest);
+extern void UTI_IPNetworkToHost(const IPAddr *src, IPAddr *dest);
+extern int UTI_CompareIPs(const IPAddr *a, const IPAddr *b, const IPAddr *mask);
-extern void UTI_SockaddrToIPAndPort(struct sockaddr *sa, IPAddr *ip, unsigned short *port);
-extern int UTI_IPAndPortToSockaddr(IPAddr *ip, unsigned short port, struct sockaddr *sa);
-extern char *UTI_SockaddrToString(struct sockaddr *sa);
-extern const char *UTI_SockaddrFamilyToString(int family);
+extern char *UTI_IPSockAddrToString(const IPSockAddr *sa);
-extern char *UTI_IPSockAddrToString(IPSockAddr *sa);
+extern char *UTI_IPSubnetToString(IPAddr *subnet, int bits);
extern char *UTI_TimeToLogForm(time_t t);
/* Adjust time following a frequency/offset change */
-extern void UTI_AdjustTimespec(struct timespec *old_ts, struct timespec *when, struct timespec *new_ts, double *delta_time, double dfreq, double doffset);
+extern void UTI_AdjustTimespec(const struct timespec *old_ts, const struct timespec *when,
+ struct timespec *new_ts, double *delta_time,
+ double dfreq, double doffset);
/* Get zero NTP timestamp with random bits below precision */
extern void UTI_GetNtp64Fuzz(NTP_int64 *ts, int precision);
extern double UTI_Ntp32ToDouble(NTP_int32 x);
extern NTP_int32 UTI_DoubleToNtp32(double x);
+extern double UTI_Ntp32f28ToDouble(NTP_int32 x);
+extern NTP_int32 UTI_DoubleToNtp32f28(double x);
+
/* Zero an NTP timestamp */
extern void UTI_ZeroNtp64(NTP_int64 *ts);
/* Check if an NTP timestamp is zero */
-extern int UTI_IsZeroNtp64(NTP_int64 *ts);
+extern int UTI_IsZeroNtp64(const NTP_int64 *ts);
/* Compare two NTP timestamps. Returns -1 if a is before b, 0 if a is equal to
b, and 1 if a is after b. */
-extern int UTI_CompareNtp64(NTP_int64 *a, NTP_int64 *b);
+extern int UTI_CompareNtp64(const NTP_int64 *a, const NTP_int64 *b);
/* Compare an NTP timestamp with up to three other timestamps. Returns 0
if a is not equal to any of b1, b2, and b3, 1 otherwise. */
-extern int UTI_IsEqualAnyNtp64(NTP_int64 *a, NTP_int64 *b1, NTP_int64 *b2, NTP_int64 *b3);
+extern int UTI_IsEqualAnyNtp64(const NTP_int64 *a, const NTP_int64 *b1,
+ const NTP_int64 *b2, const NTP_int64 *b3);
/* Convert a timespec into an NTP timestamp */
-extern void UTI_TimespecToNtp64(struct timespec *src, NTP_int64 *dest, NTP_int64 *fuzz);
+extern void UTI_TimespecToNtp64(const struct timespec *src, NTP_int64 *dest,
+ const NTP_int64 *fuzz);
/* Convert an NTP timestamp into a timespec */
-extern void UTI_Ntp64ToTimespec(NTP_int64 *src, struct timespec *dest);
+extern void UTI_Ntp64ToTimespec(const NTP_int64 *src, struct timespec *dest);
+
+/* Calculate a - b in any epoch */
+extern double UTI_DiffNtp64ToDouble(const NTP_int64 *a, const NTP_int64 *b);
+
+/* Convert a difference in double (not a timestamp) from and to NTP format */
+extern double UTI_Ntp64ToDouble(NTP_int64 *src);
+extern void UTI_DoubleToNtp64(double src, NTP_int64 *dest);
/* Check if time + offset is sane */
-extern int UTI_IsTimeOffsetSane(struct timespec *ts, double offset);
+extern int UTI_IsTimeOffsetSane(const struct timespec *ts, double offset);
/* Get 2 raised to power of a signed integer */
extern double UTI_Log2ToDouble(int l);
-extern void UTI_TimespecNetworkToHost(Timespec *src, struct timespec *dest);
-extern void UTI_TimespecHostToNetwork(struct timespec *src, Timespec *dest);
+extern void UTI_TimespecNetworkToHost(const Timespec *src, struct timespec *dest);
+extern void UTI_TimespecHostToNetwork(const struct timespec *src, Timespec *dest);
+
+uint64_t UTI_Integer64NetworkToHost(Integer64 i);
+Integer64 UTI_Integer64HostToNetwork(uint64_t i);
extern double UTI_FloatNetworkToHost(Float x);
extern Float UTI_FloatHostToNetwork(double x);
+extern CMC_Algorithm UTI_CmacNameToAlgorithm(const char *name);
+extern HSH_Algorithm UTI_HashNameToAlgorithm(const char *name);
+
/* Set FD_CLOEXEC on descriptor */
extern int UTI_FdSetCloexec(int fd);
permissions and its uid/gid must match the specified values. */
extern int UTI_CheckDirPermissions(const char *path, mode_t perm, uid_t uid, gid_t gid);
+/* Check and log a warning message if a file has more permissions than
+ specified. It does not return error if it is not an accessible file. */
+extern int UTI_CheckFilePermissions(const char *path, mode_t perm);
+
+/* Log a warning message if not having read access or having write access
+ to a file/directory */
+extern void UTI_CheckReadOnlyAccess(const char *path);
+
+/* Open a file. The full path of the file is constructed from the basedir
+ (may be NULL), '/' (if basedir is not NULL), name, and suffix (may be NULL).
+ Created files have specified permissions (umasked). Returns NULL on error.
+ The following modes are supported (if the mode is an uppercase character,
+ errors are fatal):
+ r/R - open an existing file for reading
+ w/W - open a new file for writing (remove existing file)
+ a/A - open an existing file for appending (create if does not exist) */
+extern FILE *UTI_OpenFile(const char *basedir, const char *name, const char *suffix,
+ char mode, mode_t perm);
+
+/* Rename a temporary file by changing its suffix. The paths are constructed as
+ in UTI_OpenFile(). If the renaming fails, the file will be removed. */
+extern int UTI_RenameTempFile(const char *basedir, const char *name,
+ const char *old_suffix, const char *new_suffix);
+
+/* Remove a file. The path is constructed as in UTI_OpenFile(). */
+extern int UTI_RemoveFile(const char *basedir, const char *name, const char *suffix);
+
/* Set process user/group IDs and drop supplementary groups */
extern void UTI_DropRoot(uid_t uid, gid_t gid);
generating long-term keys */
extern void UTI_GetRandomBytes(void *buf, unsigned int len);
+/* Close /dev/urandom and drop any cached data used by the GetRandom functions
+ to prevent forked processes getting the same sequence of random numbers */
+extern void UTI_ResetGetRandomFunctions(void);
+
+/* Print data in hexadecimal format */
+extern int UTI_BytesToHex(const void *buf, unsigned int buf_len, char *hex, unsigned int hex_len);
+
+/* Parse a string containing data in hexadecimal format. In-place conversion
+ is supported. */
+extern unsigned int UTI_HexToBytes(const char *hex, void *buf, unsigned int len);
+
+/* Split a string into words separated by whitespace characters. It returns
+ the number of words found in the string, but saves only up to the specified
+ number of pointers to the words. */
+extern int UTI_SplitString(char *string, char **words, int max_saved_words);
+
/* Macros to get maximum and minimum of two values */
#ifdef MAX
#undef MAX