/* ** This file is in the public domain, so clarified as of ** 2009-05-17 by Arthur David Olson. */ #include "version.h" /* ** This code has been made independent of the rest of the time ** conversion package to increase confidence in the verification it provides. ** You can use this code to help in verifying other implementations. ** To do this, compile with -DUSE_LTZ=0 and link without the tz library. */ #ifndef NETBSD_INSPIRED # define NETBSD_INSPIRED 1 #endif #ifndef USE_LTZ # define USE_LTZ 1 #endif #if USE_LTZ # include "private.h" #endif /* Enable tm_gmtoff and tm_zone on GNUish systems. */ #define _GNU_SOURCE 1 /* Enable strtoimax on Solaris 10. */ #define __EXTENSIONS__ 1 #include "stdio.h" /* for stdout, stderr, perror */ #include "string.h" /* for strcpy */ #include "sys/types.h" /* for time_t */ #include "time.h" /* for struct tm */ #include "stdlib.h" /* for exit, malloc, atoi */ #include "limits.h" /* for CHAR_BIT, LLONG_MAX */ #include /* ** Substitutes for pre-C99 compilers. ** Much of this section of code is stolen from private.h. */ #ifndef HAVE_STDINT_H # define HAVE_STDINT_H \ (199901 <= __STDC_VERSION__ \ || 2 < __GLIBC__ + (1 <= __GLIBC_MINOR__) \ || __CYGWIN__) #endif #if HAVE_STDINT_H # include "stdint.h" #endif #ifndef HAVE_INTTYPES_H # define HAVE_INTTYPES_H HAVE_STDINT_H #endif #if HAVE_INTTYPES_H # include #endif #ifndef INT_FAST32_MAX # if INT_MAX >> 31 == 0 typedef long int_fast32_t; # else typedef int int_fast32_t; # endif #endif /* Pre-C99 GCC compilers define __LONG_LONG_MAX__ instead of LLONG_MAX. */ #if !defined LLONG_MAX && defined __LONG_LONG_MAX__ # define LLONG_MAX __LONG_LONG_MAX__ #endif #ifndef INTMAX_MAX # ifdef LLONG_MAX typedef long long intmax_t; # define strtoimax strtoll # define INTMAX_MAX LLONG_MAX # else typedef long intmax_t; # define strtoimax strtol # define INTMAX_MAX LONG_MAX # endif #endif #ifndef PRIdMAX # if INTMAX_MAX == LLONG_MAX # define PRIdMAX "lld" # else # define PRIdMAX "ld" # endif #endif /* Infer TM_ZONE on systems where this information is known, but suppress guessing if NO_TM_ZONE is defined. Similarly for TM_GMTOFF. */ #if (defined __GLIBC__ \ || defined __FreeBSD__ || defined __NetBSD__ || defined __OpenBSD__ \ || (defined __APPLE__ && defined __MACH__)) # if !defined TM_GMTOFF && !defined NO_TM_GMTOFF # define TM_GMTOFF tm_gmtoff # endif # if !defined TM_ZONE && !defined NO_TM_ZONE # define TM_ZONE tm_zone # endif #endif #ifndef HAVE_LOCALTIME_R # define HAVE_LOCALTIME_R 1 #endif #ifndef HAVE_LOCALTIME_RZ # ifdef TM_ZONE # define HAVE_LOCALTIME_RZ (NETBSD_INSPIRED && USE_LTZ) # else # define HAVE_LOCALTIME_RZ 0 # endif #endif #ifndef HAVE_TZSET # define HAVE_TZSET 1 #endif #ifndef ZDUMP_LO_YEAR #define ZDUMP_LO_YEAR (-500) #endif /* !defined ZDUMP_LO_YEAR */ #ifndef ZDUMP_HI_YEAR #define ZDUMP_HI_YEAR 2500 #endif /* !defined ZDUMP_HI_YEAR */ #ifndef MAX_STRING_LENGTH #define MAX_STRING_LENGTH 1024 #endif /* !defined MAX_STRING_LENGTH */ #if __STDC_VERSION__ < 199901 # define true 1 # define false 0 # define bool int #else # include #endif #ifndef EXIT_SUCCESS #define EXIT_SUCCESS 0 #endif /* !defined EXIT_SUCCESS */ #ifndef EXIT_FAILURE #define EXIT_FAILURE 1 #endif /* !defined EXIT_FAILURE */ #ifndef SECSPERMIN #define SECSPERMIN 60 #endif /* !defined SECSPERMIN */ #ifndef MINSPERHOUR #define MINSPERHOUR 60 #endif /* !defined MINSPERHOUR */ #ifndef SECSPERHOUR #define SECSPERHOUR (SECSPERMIN * MINSPERHOUR) #endif /* !defined SECSPERHOUR */ #ifndef HOURSPERDAY #define HOURSPERDAY 24 #endif /* !defined HOURSPERDAY */ #ifndef EPOCH_YEAR #define EPOCH_YEAR 1970 #endif /* !defined EPOCH_YEAR */ #ifndef TM_YEAR_BASE #define TM_YEAR_BASE 1900 #endif /* !defined TM_YEAR_BASE */ #ifndef DAYSPERNYEAR #define DAYSPERNYEAR 365 #endif /* !defined DAYSPERNYEAR */ #ifndef isleap #define isleap(y) (((y) % 4) == 0 && (((y) % 100) != 0 || ((y) % 400) == 0)) #endif /* !defined isleap */ #ifndef isleap_sum /* ** See tzfile.h for details on isleap_sum. */ #define isleap_sum(a, b) isleap((a) % 400 + (b) % 400) #endif /* !defined isleap_sum */ #define SECSPERDAY ((int_fast32_t) SECSPERHOUR * HOURSPERDAY) #define SECSPERNYEAR (SECSPERDAY * DAYSPERNYEAR) #define SECSPERLYEAR (SECSPERNYEAR + SECSPERDAY) #define SECSPER400YEARS (SECSPERNYEAR * (intmax_t) (300 + 3) \ + SECSPERLYEAR * (intmax_t) (100 - 3)) /* ** True if SECSPER400YEARS is known to be representable as an ** intmax_t. It's OK that SECSPER400YEARS_FITS can in theory be false ** even if SECSPER400YEARS is representable, because when that happens ** the code merely runs a bit more slowly, and this slowness doesn't ** occur on any practical platform. */ enum { SECSPER400YEARS_FITS = SECSPERLYEAR <= INTMAX_MAX / 400 }; #ifndef HAVE_GETTEXT #define HAVE_GETTEXT 0 #endif #if HAVE_GETTEXT #include "locale.h" /* for setlocale */ #include "libintl.h" #endif /* HAVE_GETTEXT */ #if 2 < __GNUC__ || (__GNUC__ == 2 && 96 <= __GNUC_MINOR__) # define ATTRIBUTE_PURE __attribute__ ((__pure__)) #else # define ATTRIBUTE_PURE /* empty */ #endif /* ** For the benefit of GNU folk... ** '_(MSGID)' uses the current locale's message library string for MSGID. ** The default is to use gettext if available, and use MSGID otherwise. */ #ifndef _ #if HAVE_GETTEXT #define _(msgid) gettext(msgid) #else /* !HAVE_GETTEXT */ #define _(msgid) msgid #endif /* !HAVE_GETTEXT */ #endif /* !defined _ */ #if !defined TZ_DOMAIN && defined HAVE_GETTEXT # define TZ_DOMAIN "tz" #endif #if ! HAVE_LOCALTIME_RZ # undef timezone_t # define timezone_t char ** #endif extern char ** environ; extern int getopt(int argc, char * const argv[], const char * options); extern char * optarg; extern int optind; extern char * tzname[2]; /* The minimum and maximum finite time values. */ enum { atime_shift = CHAR_BIT * sizeof (time_t) - 2 }; static time_t const absolute_min_time = ((time_t) -1 < 0 ? (- ((time_t) ~ (time_t) 0 < 0) - (((time_t) 1 << atime_shift) - 1 + ((time_t) 1 << atime_shift))) : 0); static time_t const absolute_max_time = ((time_t) -1 < 0 ? (((time_t) 1 << atime_shift) - 1 + ((time_t) 1 << atime_shift)) : -1); static int longest; static char * progname; static bool warned; static bool errout; static char const *abbr(struct tm const *); static intmax_t delta(struct tm *, struct tm *) ATTRIBUTE_PURE; static void dumptime(struct tm const *); static time_t hunt(timezone_t, char *, time_t, time_t); static void show(timezone_t, char *, time_t, bool); static const char *tformat(void); static time_t yeartot(intmax_t) ATTRIBUTE_PURE; /* Unlike 's isdigit, this also works if c < 0 | c > UCHAR_MAX. */ #define is_digit(c) ((unsigned)(c) - '0' <= 9) /* Is A an alphabetic character in the C locale? */ static bool is_alpha(char a) { switch (a) { default: return false; case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': return true; } } /* Return A + B, exiting if the result would overflow. */ static size_t sumsize(size_t a, size_t b) { size_t sum = a + b; if (sum < a) { fprintf(stderr, "%s: size overflow\n", progname); exit(EXIT_FAILURE); } return sum; } #if ! HAVE_TZSET # undef tzset # define tzset zdump_tzset static void tzset(void) { } #endif /* Assume gmtime_r works if localtime_r does. A replacement localtime_r is defined below if needed. */ #if ! HAVE_LOCALTIME_R # undef gmtime_r # define gmtime_r zdump_gmtime_r static struct tm * gmtime_r(time_t *tp, struct tm *tmp) { struct tm *r = gmtime(tp); if (r) { *tmp = *r; r = tmp; } return r; } #endif /* Platforms with TM_ZONE don't need tzname, so they can use the faster localtime_rz or localtime_r if available. */ #if defined TM_ZONE && HAVE_LOCALTIME_RZ # define USE_LOCALTIME_RZ true #else # define USE_LOCALTIME_RZ false #endif #if ! USE_LOCALTIME_RZ # if !defined TM_ZONE || ! HAVE_LOCALTIME_R || ! HAVE_TZSET # undef localtime_r # define localtime_r zdump_localtime_r static struct tm * localtime_r(time_t *tp, struct tm *tmp) { struct tm *r = localtime(tp); if (r) { *tmp = *r; r = tmp; } return r; } # endif # undef localtime_rz # define localtime_rz zdump_localtime_rz static struct tm * localtime_rz(timezone_t rz, time_t *tp, struct tm *tmp) { return localtime_r(tp, tmp); } # ifdef TYPECHECK # undef mktime_z # define mktime_z zdump_mktime_z static time_t mktime_z(timezone_t tz, struct tm *tmp) { return mktime(tmp); } # endif # undef tzalloc # undef tzfree # define tzalloc zdump_tzalloc # define tzfree zdump_tzfree static timezone_t tzalloc(char const *val) { static char **fakeenv; char **env = fakeenv; char *env0; if (! env) { char **e = environ; int to; while (*e++) continue; env = malloc(sumsize(sizeof *environ, (e - environ) * sizeof *environ)); if (! env) { perror(progname); exit(EXIT_FAILURE); } to = 1; for (e = environ; (env[to] = *e); e++) to += strncmp(*e, "TZ=", 3) != 0; } env0 = malloc(sumsize(sizeof "TZ=", strlen(val))); if (! env0) { perror(progname); exit(EXIT_FAILURE); } env[0] = strcat(strcpy(env0, "TZ="), val); environ = fakeenv = env; tzset(); return env; } static void tzfree(timezone_t env) { environ = env + 1; free(env[0]); } #endif /* ! USE_LOCALTIME_RZ */ /* A UTC time zone, and its initializer. */ static timezone_t gmtz; static void gmtzinit(void) { if (USE_LOCALTIME_RZ) { static char const utc[] = "UTC0"; gmtz = tzalloc(utc); if (!gmtz) { perror(utc); exit(EXIT_FAILURE); } } } /* Convert *TP to UTC, storing the broken-down time into *TMP. Return TMP if successful, NULL otherwise. This is like gmtime_r(TP, TMP), except typically faster if USE_LOCALTIME_RZ. */ static struct tm * my_gmtime_r(time_t *tp, struct tm *tmp) { return USE_LOCALTIME_RZ ? localtime_rz(gmtz, tp, tmp) : gmtime_r(tp, tmp); } #ifndef TYPECHECK # define my_localtime_rz localtime_rz #else /* !defined TYPECHECK */ static struct tm * my_localtime_rz(timezone_t tz, time_t *tp, struct tm *tmp) { tmp = localtime_rz(tz, tp, tmp); if (tmp) { struct tm tm; register time_t t; tm = *tmp; t = mktime_z(tz, &tm); if (t != *tp) { fflush(stdout); fprintf(stderr, "\n%s: ", progname); fprintf(stderr, tformat(), *tp); fprintf(stderr, " ->"); fprintf(stderr, " year=%d", tmp->tm_year); fprintf(stderr, " mon=%d", tmp->tm_mon); fprintf(stderr, " mday=%d", tmp->tm_mday); fprintf(stderr, " hour=%d", tmp->tm_hour); fprintf(stderr, " min=%d", tmp->tm_min); fprintf(stderr, " sec=%d", tmp->tm_sec); fprintf(stderr, " isdst=%d", tmp->tm_isdst); fprintf(stderr, " -> "); fprintf(stderr, tformat(), t); fprintf(stderr, "\n"); errout = true; } } return tmp; } #endif /* !defined TYPECHECK */ static void abbrok(const char *const abbrp, const char *const zone) { register const char * cp; register const char * wp; if (warned) return; cp = abbrp; while (is_alpha(*cp) || is_digit(*cp) || *cp == '-' || *cp == '+') ++cp; if (cp - abbrp < 3) wp = _("has fewer than 3 characters"); else if (cp - abbrp > 6) wp = _("has more than 6 characters"); else if (*cp) wp = _("has characters other than ASCII alphanumerics, '-' or '+'"); else return; fflush(stdout); fprintf(stderr, _("%s: warning: zone \"%s\" abbreviation \"%s\" %s\n"), progname, zone, abbrp, wp); warned = errout = true; } /* Return a time zone abbreviation. If the abbreviation needs to be saved, use *BUF (of size *BUFALLOC) to save it, and return the abbreviation in the possibly-reallocated *BUF. Otherwise, just return the abbreviation. Get the abbreviation from TMP. Exit on memory allocation failure. */ static char const * saveabbr(char **buf, size_t *bufalloc, struct tm const *tmp) { char const *ab = abbr(tmp); if (HAVE_LOCALTIME_RZ) return ab; else { size_t ablen = strlen(ab); if (*bufalloc <= ablen) { free(*buf); /* Make the new buffer at least twice as long as the old, to avoid O(N**2) behavior on repeated calls. */ *bufalloc = sumsize(*bufalloc, ablen + 1); *buf = malloc(*bufalloc); if (! *buf) { perror(progname); exit(EXIT_FAILURE); } } return strcpy(*buf, ab); } } static void close_file(FILE *stream) { char const *e = (ferror(stream) ? _("I/O error") : fclose(stream) != 0 ? strerror(errno) : NULL); if (e) { fprintf(stderr, "%s: %s\n", progname, e); exit(EXIT_FAILURE); } } static void usage(FILE * const stream, const int status) { fprintf(stream, _("%s: usage: %s [--version] [--help] [-{vV}] [-{ct} [lo,]hi] zonename ...\n" "\n" "Report bugs to %s.\n"), progname, progname, REPORT_BUGS_TO); if (status == EXIT_SUCCESS) close_file(stream); exit(status); } int main(int argc, char *argv[]) { /* These are static so that they're initially zero. */ static char * abbrev; static size_t abbrevsize; static struct tm newtm; register int i; register bool vflag; register bool Vflag; register char * cutarg; register char * cuttimes; register time_t cutlotime; register time_t cuthitime; time_t now; time_t t; time_t newt; struct tm tm; register struct tm * tmp; register struct tm * newtmp; cutlotime = absolute_min_time; cuthitime = absolute_max_time; #if HAVE_GETTEXT setlocale(LC_ALL, ""); #ifdef TZ_DOMAINDIR bindtextdomain(TZ_DOMAIN, TZ_DOMAINDIR); #endif /* defined TEXTDOMAINDIR */ textdomain(TZ_DOMAIN); #endif /* HAVE_GETTEXT */ progname = argv[0]; for (i = 1; i < argc; ++i) if (strcmp(argv[i], "--version") == 0) { printf("zdump %s%s\n", PKGVERSION, TZVERSION); return EXIT_SUCCESS; } else if (strcmp(argv[i], "--help") == 0) { usage(stdout, EXIT_SUCCESS); } vflag = Vflag = false; cutarg = cuttimes = NULL; for (;;) switch (getopt(argc, argv, "c:t:vV")) { case 'c': cutarg = optarg; break; case 't': cuttimes = optarg; break; case 'v': vflag = true; break; case 'V': Vflag = true; break; case -1: if (! (optind == argc - 1 && strcmp(argv[optind], "=") == 0)) goto arg_processing_done; /* Fall through. */ default: usage(stderr, EXIT_FAILURE); } arg_processing_done:; if (vflag | Vflag) { intmax_t lo; intmax_t hi; char *loend, *hiend; register intmax_t cutloyear = ZDUMP_LO_YEAR; register intmax_t cuthiyear = ZDUMP_HI_YEAR; if (cutarg != NULL) { lo = strtoimax(cutarg, &loend, 10); if (cutarg != loend && !*loend) { hi = lo; cuthiyear = hi; } else if (cutarg != loend && *loend == ',' && (hi = strtoimax(loend + 1, &hiend, 10), loend + 1 != hiend && !*hiend)) { cutloyear = lo; cuthiyear = hi; } else { fprintf(stderr, _("%s: wild -c argument %s\n"), progname, cutarg); return EXIT_FAILURE; } } if (cutarg != NULL || cuttimes == NULL) { cutlotime = yeartot(cutloyear); cuthitime = yeartot(cuthiyear); } if (cuttimes != NULL) { lo = strtoimax(cuttimes, &loend, 10); if (cuttimes != loend && !*loend) { hi = lo; if (hi < cuthitime) { if (hi < absolute_min_time) hi = absolute_min_time; cuthitime = hi; } } else if (cuttimes != loend && *loend == ',' && (hi = strtoimax(loend + 1, &hiend, 10), loend + 1 != hiend && !*hiend)) { if (cutlotime < lo) { if (absolute_max_time < lo) lo = absolute_max_time; cutlotime = lo; } if (hi < cuthitime) { if (hi < absolute_min_time) hi = absolute_min_time; cuthitime = hi; } } else { fprintf(stderr, _("%s: wild -t argument %s\n"), progname, cuttimes); return EXIT_FAILURE; } } } gmtzinit(); now = time(NULL); longest = 0; for (i = optind; i < argc; i++) { size_t arglen = strlen(argv[i]); if (longest < arglen) longest = arglen < INT_MAX ? arglen : INT_MAX; } for (i = optind; i < argc; ++i) { timezone_t tz = tzalloc(argv[i]); char const *ab; if (!tz) { perror(argv[i]); return EXIT_FAILURE; } if (! (vflag | Vflag)) { show(tz, argv[i], now, false); tzfree(tz); continue; } warned = false; t = absolute_min_time; if (!Vflag) { show(tz, argv[i], t, true); t += SECSPERDAY; show(tz, argv[i], t, true); } if (t < cutlotime) t = cutlotime; tmp = my_localtime_rz(tz, &t, &tm); if (tmp) ab = saveabbr(&abbrev, &abbrevsize, &tm); while (t < cuthitime) { newt = ((t < absolute_max_time - SECSPERDAY / 2 && t + SECSPERDAY / 2 < cuthitime) ? t + SECSPERDAY / 2 : cuthitime); newtmp = localtime_rz(tz, &newt, &newtm); if ((tmp == NULL || newtmp == NULL) ? (tmp != newtmp) : (delta(&newtm, &tm) != (newt - t) || newtm.tm_isdst != tm.tm_isdst || strcmp(abbr(&newtm), ab) != 0)) { newt = hunt(tz, argv[i], t, newt); newtmp = localtime_rz(tz, &newt, &newtm); if (newtmp) ab = saveabbr(&abbrev, &abbrevsize, &newtm); } t = newt; tm = newtm; tmp = newtmp; } if (!Vflag) { t = absolute_max_time; t -= SECSPERDAY; show(tz, argv[i], t, true); t += SECSPERDAY; show(tz, argv[i], t, true); } tzfree(tz); } close_file(stdout); if (errout && (ferror(stderr) || fclose(stderr) != 0)) return EXIT_FAILURE; return EXIT_SUCCESS; } static time_t yeartot(intmax_t y) { register intmax_t myy, seconds, years; register time_t t; myy = EPOCH_YEAR; t = 0; while (myy < y) { if (SECSPER400YEARS_FITS && 400 <= y - myy) { intmax_t diff400 = (y - myy) / 400; if (INTMAX_MAX / SECSPER400YEARS < diff400) return absolute_max_time; seconds = diff400 * SECSPER400YEARS; years = diff400 * 400; } else { seconds = isleap(myy) ? SECSPERLYEAR : SECSPERNYEAR; years = 1; } myy += years; if (t > absolute_max_time - seconds) return absolute_max_time; t += seconds; } while (y < myy) { if (SECSPER400YEARS_FITS && y + 400 <= myy && myy < 0) { intmax_t diff400 = (myy - y) / 400; if (INTMAX_MAX / SECSPER400YEARS < diff400) return absolute_min_time; seconds = diff400 * SECSPER400YEARS; years = diff400 * 400; } else { seconds = isleap(myy - 1) ? SECSPERLYEAR : SECSPERNYEAR; years = 1; } myy -= years; if (t < absolute_min_time + seconds) return absolute_min_time; t -= seconds; } return t; } static time_t hunt(timezone_t tz, char *name, time_t lot, time_t hit) { static char * loab; static size_t loabsize; char const * ab; time_t t; struct tm lotm; register struct tm * lotmp; struct tm tm; register struct tm * tmp; lotmp = my_localtime_rz(tz, &lot, &lotm); if (lotmp) ab = saveabbr(&loab, &loabsize, &lotm); for ( ; ; ) { time_t diff = hit - lot; if (diff < 2) break; t = lot; t += diff / 2; if (t <= lot) ++t; else if (t >= hit) --t; tmp = my_localtime_rz(tz, &t, &tm); if ((lotmp == NULL || tmp == NULL) ? (lotmp == tmp) : (delta(&tm, &lotm) == (t - lot) && tm.tm_isdst == lotm.tm_isdst && strcmp(abbr(&tm), ab) == 0)) { lot = t; lotm = tm; lotmp = tmp; } else hit = t; } show(tz, name, lot, true); show(tz, name, hit, true); return hit; } /* ** Thanks to Paul Eggert for logic used in delta. */ static intmax_t delta(struct tm * newp, struct tm *oldp) { register intmax_t result; register int tmy; if (newp->tm_year < oldp->tm_year) return -delta(oldp, newp); result = 0; for (tmy = oldp->tm_year; tmy < newp->tm_year; ++tmy) result += DAYSPERNYEAR + isleap_sum(tmy, TM_YEAR_BASE); result += newp->tm_yday - oldp->tm_yday; result *= HOURSPERDAY; result += newp->tm_hour - oldp->tm_hour; result *= MINSPERHOUR; result += newp->tm_min - oldp->tm_min; result *= SECSPERMIN; result += newp->tm_sec - oldp->tm_sec; return result; } #ifndef TM_GMTOFF /* Return A->tm_yday, adjusted to compare it fairly to B->tm_yday. Assume A and B differ by at most one year. */ static int adjusted_yday(struct tm const *a, struct tm const *b) { int yday = a->tm_yday; if (b->tm_year < a->tm_year) yday += 365 + isleap_sum(b->tm_year, TM_YEAR_BASE); return yday; } #endif /* If A is the broken-down local time and B the broken-down UTC for the same instant, return A's UTC offset in seconds, where positive offsets are east of Greenwich. On failure, return LONG_MIN. */ static long gmtoff(struct tm const *a, struct tm const *b) { #ifdef TM_GMTOFF return a->TM_GMTOFF; #else if (! b) return LONG_MIN; else { int ayday = adjusted_yday(a, b); int byday = adjusted_yday(b, a); int days = ayday - byday; long hours = a->tm_hour - b->tm_hour + 24 * days; long minutes = a->tm_min - b->tm_min + 60 * hours; long seconds = a->tm_sec - b->tm_sec + 60 * minutes; return seconds; } #endif } static void show(timezone_t tz, char *zone, time_t t, bool v) { register struct tm * tmp; register struct tm * gmtmp; struct tm tm, gmtm; printf("%-*s ", longest, zone); if (v) { gmtmp = my_gmtime_r(&t, &gmtm); if (gmtmp == NULL) { printf(tformat(), t); } else { dumptime(gmtmp); printf(" UT"); } printf(" = "); } tmp = my_localtime_rz(tz, &t, &tm); dumptime(tmp); if (tmp != NULL) { if (*abbr(tmp) != '\0') printf(" %s", abbr(tmp)); if (v) { long off = gmtoff(tmp, gmtmp); printf(" isdst=%d", tmp->tm_isdst); if (off != LONG_MIN) printf(" gmtoff=%ld", off); } } printf("\n"); if (tmp != NULL && *abbr(tmp) != '\0') abbrok(abbr(tmp), zone); } static char const * abbr(struct tm const *tmp) { #ifdef TM_ZONE return tmp->TM_ZONE; #else return (0 <= tmp->tm_isdst && tzname[0 < tmp->tm_isdst] ? tzname[0 < tmp->tm_isdst] : ""); #endif } /* ** The code below can fail on certain theoretical systems; ** it works on all known real-world systems as of 2004-12-30. */ static const char * tformat(void) { if (0 > (time_t) -1) { /* signed */ if (sizeof (time_t) == sizeof (intmax_t)) return "%"PRIdMAX; if (sizeof (time_t) > sizeof (long)) return "%lld"; if (sizeof (time_t) > sizeof (int)) return "%ld"; return "%d"; } #ifdef PRIuMAX if (sizeof (time_t) == sizeof (uintmax_t)) return "%"PRIuMAX; #endif if (sizeof (time_t) > sizeof (unsigned long)) return "%llu"; if (sizeof (time_t) > sizeof (unsigned int)) return "%lu"; return "%u"; } static void dumptime(register const struct tm *timeptr) { static const char wday_name[][3] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; static const char mon_name[][3] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; register const char * wn; register const char * mn; register int lead; register int trail; if (timeptr == NULL) { printf("NULL"); return; } /* ** The packaged localtime_rz and gmtime_r never put out-of-range ** values in tm_wday or tm_mon, but since this code might be compiled ** with other (perhaps experimental) versions, paranoia is in order. */ if (timeptr->tm_wday < 0 || timeptr->tm_wday >= (int) (sizeof wday_name / sizeof wday_name[0])) wn = "???"; else wn = wday_name[timeptr->tm_wday]; if (timeptr->tm_mon < 0 || timeptr->tm_mon >= (int) (sizeof mon_name / sizeof mon_name[0])) mn = "???"; else mn = mon_name[timeptr->tm_mon]; printf("%.3s %.3s%3d %.2d:%.2d:%.2d ", wn, mn, timeptr->tm_mday, timeptr->tm_hour, timeptr->tm_min, timeptr->tm_sec); #define DIVISOR 10 trail = timeptr->tm_year % DIVISOR + TM_YEAR_BASE % DIVISOR; lead = timeptr->tm_year / DIVISOR + TM_YEAR_BASE / DIVISOR + trail / DIVISOR; trail %= DIVISOR; if (trail < 0 && lead > 0) { trail += DIVISOR; --lead; } else if (lead < 0 && trail > 0) { trail -= DIVISOR; ++lead; } if (lead == 0) printf("%d", trail); else printf("%d%d", lead, ((trail < 0) ? -trail : trail)); }