/* Time zone functions such as tzalloc and localtime_rz Copyright 2015 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, 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 . */ /* Written by Paul Eggert. */ /* Although this module is not thread-safe, any races should be fairly rare and reasonably benign. For complete thread-safety, use a C library with a working timezone_t type, so that this module is not needed. */ #include #include #include #include #include #include #include #include "time-internal.h" #if !HAVE_TZSET static void tzset (void) { } #endif /* The approximate size to use for small allocation requests. This is the largest "small" request for the GNU C library malloc. */ enum { DEFAULT_MXFAST = 64 * sizeof (size_t) / 4 }; /* Minimum size of the ABBRS member of struct abbr. ABBRS is larger only in the unlikely case where an abbreviation longer than this is used. */ enum { ABBR_SIZE_MIN = DEFAULT_MXFAST - offsetof (struct tm_zone, abbrs) }; static char const TZ[] = "TZ"; /* Magic cookie timezone_t value, for local time. It differs from NULL and from all other timezone_t values. Only the address matters; the pointer is never dereferenced. */ static timezone_t const local_tz = (timezone_t) 1; #if HAVE_TM_ZONE || HAVE_TZNAME /* Return true if the values A and B differ according to the rules for tm_isdst: A and B differ if one is zero and the other positive. */ static bool isdst_differ (int a, int b) { return !a != !b && 0 <= a && 0 <= b; } /* Return true if A and B are equal. */ static int equal_tm (const struct tm *a, const struct tm *b) { return ! ((a->tm_sec ^ b->tm_sec) | (a->tm_min ^ b->tm_min) | (a->tm_hour ^ b->tm_hour) | (a->tm_mday ^ b->tm_mday) | (a->tm_mon ^ b->tm_mon) | (a->tm_year ^ b->tm_year) | isdst_differ (a->tm_isdst, b->tm_isdst)); } #endif /* Copy to ABBRS the abbreviation at ABBR with size ABBR_SIZE (this includes its trailing null byte). Append an extra null byte to mark the end of ABBRS. */ static void extend_abbrs (char *abbrs, char const *abbr, size_t abbr_size) { memcpy (abbrs, abbr, abbr_size); abbrs[abbr_size] = '\0'; } /* Return a newly allocated time zone for NAME, or NULL on failure. A null NAME stands for wall clock time (which is like unset TZ). */ timezone_t tzalloc (char const *name) { size_t name_size = name ? strlen (name) + 1 : 0; size_t abbr_size = name_size < ABBR_SIZE_MIN ? ABBR_SIZE_MIN : name_size + 1; timezone_t tz = malloc (offsetof (struct tm_zone, abbrs) + abbr_size); if (tz) { tz->next = NULL; #if HAVE_TZNAME && !HAVE_TM_ZONE tz->tzname_copy[0] = tz->tzname_copy[1] = NULL; #endif tz->tz_is_set = !!name; tz->abbrs[0] = '\0'; if (name) extend_abbrs (tz->abbrs, name, name_size); } return tz; } /* Save into TZ any nontrivial time zone abbreviation used by TM, and update *TM (if HAVE_TM_ZONE) or *TZ (if !HAVE_TM_ZONE && HAVE_TZNAME) if they use the abbreviation. Return true if successful, false (setting errno) otherwise. */ static bool save_abbr (timezone_t tz, struct tm *tm) { #if HAVE_TM_ZONE || HAVE_TZNAME char const *zone = NULL; char *zone_copy = (char *) ""; # if HAVE_TZNAME int tzname_index = -1; # endif # if HAVE_TM_ZONE zone = tm->tm_zone; # endif # if HAVE_TZNAME if (! (zone && *zone) && 0 <= tm->tm_isdst) { tzname_index = tm->tm_isdst != 0; zone = tzname[tzname_index]; } # endif /* No need to replace null zones, or zones within the struct tm. */ if (!zone || ((char *) tm <= zone && zone < (char *) (tm + 1))) return true; if (*zone) { zone_copy = tz->abbrs; while (strcmp (zone_copy, zone) != 0) { if (! (*zone_copy || (zone_copy == tz->abbrs && tz->tz_is_set))) { size_t zone_size = strlen (zone) + 1; if (zone_size < tz->abbrs + ABBR_SIZE_MIN - zone_copy) extend_abbrs (zone_copy, zone, zone_size); else { tz = tz->next = tzalloc (zone); if (!tz) return false; tz->tz_is_set = 0; zone_copy = tz->abbrs; } break; } zone_copy += strlen (zone_copy) + 1; if (!*zone_copy && tz->next) { tz = tz->next; zone_copy = tz->abbrs; } } } /* Replace the zone name so that its lifetime matches that of TZ. */ # if HAVE_TM_ZONE tm->tm_zone = zone_copy; # else if (0 <= tzname_index) tz->tzname_copy[tzname_index] = zone_copy; # endif #endif return true; } /* Free a time zone. */ void tzfree (timezone_t tz) { if (tz != local_tz) while (tz) { timezone_t next = tz->next; free (tz); tz = next; } } /* Get and set the TZ environment variable. These functions can be overridden by programs like Emacs that manage their own environment. */ #ifndef getenv_TZ static char * getenv_TZ (void) { return getenv (TZ); } #endif #ifndef setenv_TZ static int setenv_TZ (char const *tz) { return tz ? setenv (TZ, tz, 1) : unsetenv (TZ); } #endif /* Change the environment to match the specified timezone_t value. Return true if successful, false (setting errno) otherwise. */ static bool change_env (timezone_t tz) { if (setenv_TZ (tz->tz_is_set ? tz->abbrs : NULL) != 0) return false; tzset (); return true; } /* Temporarily set the time zone to TZ, which must not be null. Return LOCAL_TZ if the time zone setting is already correct. Otherwise return a newly allocated time zone representing the old setting, or NULL (setting errno) on failure. */ static timezone_t set_tz (timezone_t tz) { char *env_tz = getenv_TZ (); if (env_tz ? tz->tz_is_set && strcmp (tz->abbrs, env_tz) == 0 : !tz->tz_is_set) return local_tz; else { timezone_t old_tz = tzalloc (env_tz); if (!old_tz) return old_tz; if (! change_env (tz)) { int saved_errno = errno; tzfree (old_tz); errno = saved_errno; return NULL; } return old_tz; } } /* Restore an old setting returned by set_tz. It must not be null. Return true (preserving errno) if successful, false (setting errno) otherwise. */ static bool revert_tz (timezone_t tz) { if (tz == local_tz) return true; else { int saved_errno = errno; bool ok = change_env (tz); if (!ok) saved_errno = errno; tzfree (tz); errno = saved_errno; return ok; } } /* Use time zone TZ to compute localtime_r (T, TM). */ struct tm * localtime_rz (timezone_t tz, time_t const *t, struct tm *tm) { if (!tz) return gmtime_r (t, tm); else { timezone_t old_tz = set_tz (tz); if (old_tz) { bool abbr_saved = localtime_r (t, tm) && save_abbr (tz, tm); if (revert_tz (old_tz) && abbr_saved) return tm; } return NULL; } } /* Use time zone TZ to compute mktime (TM). */ time_t mktime_z (timezone_t tz, struct tm *tm) { if (!tz) return timegm (tm); else { timezone_t old_tz = set_tz (tz); if (old_tz) { time_t t = mktime (tm); #if HAVE_TM_ZONE || HAVE_TZNAME time_t badtime = -1; struct tm tm_1; if ((t != badtime || (localtime_r (&t, &tm_1) && equal_tm (tm, &tm_1))) && !save_abbr (tz, tm)) t = badtime; #endif if (revert_tz (old_tz)) return t; } return -1; } }