/* Dump time zone data in a textual format. */ /* ** This file is in the public domain, so clarified as of ** 2009-05-17 by Arthur David Olson. */ #include "version.h" #ifndef NETBSD_INSPIRED # define NETBSD_INSPIRED 1 #endif #include "private.h" #include #ifndef HAVE_SNPRINTF # define HAVE_SNPRINTF (199901 <= __STDC_VERSION__) #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 */ #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 }; #if HAVE_GETTEXT #include /* for setlocale */ #endif /* HAVE_GETTEXT */ #if ! HAVE_LOCALTIME_RZ # undef timezone_t # define timezone_t char ** #endif #if !HAVE_POSIX_DECLS extern int getopt(int argc, char * const argv[], const char * options); extern char * optarg; extern int optind; #endif /* 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 void showtrans(char const *, struct tm const *, time_t, char const *, char const *); 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; } /* Return a pointer to a newly allocated buffer of size SIZE, exiting on failure. SIZE should be nonzero. */ static void * ATTRIBUTE_MALLOC xmalloc(size_t size) { void *p = malloc(size); if (!p) { perror(progname); exit(EXIT_FAILURE); } return p; } #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 = xmalloc(sumsize(sizeof *environ, (e - environ) * sizeof *environ)); to = 1; for (e = environ; (env[to] = *e); e++) to += strncmp(*e, "TZ=", 3) != 0; } env0 = xmalloc(sumsize(sizeof "TZ=", strlen(val))); 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 UT 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 UT, 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) wp = _("has characters other than ASCII alphanumerics, '-' or '+'"); else if (cp - abbrp < 3) wp = _("has fewer than 3 characters"); else if (cp - abbrp > 6) wp = _("has more than 6 characters"); 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 = xmalloc(*bufalloc); } 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 OPTIONS TIMEZONE ...\n" "Options include:\n" " -c [L,]U Start at year L (default -500), end before year U (default 2500)\n" " -t [L,]U Start at time L, end before time U (in seconds since 1970)\n" " -i List transitions briefly (format is experimental)\n" \ " -v List transitions verbosely\n" " -V List transitions a bit less verbosely\n" " --help Output this help\n" " --version Output version info\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; 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; bool iflag = false; 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:it:vV")) { case 'c': cutarg = optarg; break; case 't': cuttimes = optarg; break; case 'i': iflag = true; 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 (iflag | 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(); INITIALIZE (now); if (! (iflag | vflag | Vflag)) 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; time_t t; struct tm tm, newtm; bool tm_ok; if (!tz) { perror(argv[i]); return EXIT_FAILURE; } if (! (iflag | vflag | Vflag)) { show(tz, argv[i], now, false); tzfree(tz); continue; } warned = false; t = absolute_min_time; if (! (iflag | Vflag)) { show(tz, argv[i], t, true); t += SECSPERDAY; show(tz, argv[i], t, true); } if (t < cutlotime) t = cutlotime; INITIALIZE (ab); tm_ok = my_localtime_rz(tz, &t, &tm) != NULL; if (tm_ok) { ab = saveabbr(&abbrev, &abbrevsize, &tm); if (iflag) { showtrans("\nTZ=%f", &tm, t, ab, argv[i]); showtrans("-\t-\t%Q", &tm, t, ab, argv[i]); } } while (t < cuthitime) { time_t newt = ((t < absolute_max_time - SECSPERDAY / 2 && t + SECSPERDAY / 2 < cuthitime) ? t + SECSPERDAY / 2 : cuthitime); struct tm *newtmp = localtime_rz(tz, &newt, &newtm); bool newtm_ok = newtmp != NULL; if (tm_ok != newtm_ok || (tm_ok && (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); newtm_ok = newtmp != NULL; if (iflag) showtrans("%Y-%m-%d\t%L\t%Q", newtmp, newt, newtm_ok ? abbr(&newtm) : NULL, argv[i]); else { show(tz, argv[i], newt - 1, true); show(tz, argv[i], newt, true); } } t = newt; tm_ok = newtm_ok; if (newtm_ok) { ab = saveabbr(&abbrev, &abbrevsize, &newtm); tm = newtm; } } if (! (iflag | 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; struct tm tm; bool lotm_ok = my_localtime_rz(tz, &lot, &lotm) != NULL; bool tm_ok; if (lotm_ok) 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; tm_ok = my_localtime_rz(tz, &t, &tm) != NULL; if (lotm_ok & tm_ok ? (delta(&tm, &lotm) == t - lot && tm.tm_isdst == lotm.tm_isdst && strcmp(abbr(&tm), ab) == 0) : lotm_ok == tm_ok) { lot = t; if (tm_ok) lotm = tm; } else hit = t; } return hit; } /* ** Thanks to Paul Eggert for logic used in delta_nonneg. */ static intmax_t delta_nonneg(struct tm *newp, struct tm *oldp) { register intmax_t result; register int tmy; 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; } static intmax_t delta(struct tm *newp, struct tm *oldp) { return (newp->tm_year < oldp->tm_year ? -delta_nonneg(oldp, newp) : delta_nonneg(newp, oldp)); } #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 UT for the same instant, return A's UT offset in seconds, where positive offsets are east of Greenwich. On failure, return LONG_MIN. If T is nonnull, *T is the timestamp that corresponds to A; call my_gmtime_r and use its result instead of B. Otherwise, B is the possibly nonnull result of an earlier call to my_gmtime_r. */ static long gmtoff(struct tm const *a, time_t *t, struct tm const *b) { #ifdef TM_GMTOFF return a->TM_GMTOFF; #else struct tm tm; if (t) b = my_gmtime_r(t, &tm); 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, NULL, 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); } #if HAVE_SNPRINTF # define my_snprintf snprintf #else # include /* A substitute for snprintf that is good enough for zdump. */ static int ATTRIBUTE_FORMAT((printf, 3, 4)) my_snprintf(char *s, size_t size, char const *format, ...) { int n; va_list args; char const *arg; size_t arglen, slen; char buf[1024]; va_start(args, format); if (strcmp(format, "%s") == 0) { arg = va_arg(args, char const *); arglen = strlen(arg); } else { n = vsprintf(buf, format, args); if (n < 0) { va_end(args); return n; } arg = buf; arglen = n; } slen = arglen < size ? arglen : size - 1; memcpy(s, arg, slen); s[slen] = '\0'; n = arglen <= INT_MAX ? arglen : -1; va_end(args); return n; } #endif /* Store into BUF, of size SIZE, a formatted local time taken from *TM. Use ISO 8601 format +HH:MM:SS. Omit :SS if SS is zero, and omit :MM too if MM is also zero. Return the length of the resulting string. If the string does not fit, return the length that the string would have been if it had fit; do not overrun the output buffer. */ static int format_local_time(char *buf, size_t size, struct tm const *tm) { int ss = tm->tm_sec, mm = tm->tm_min, hh = tm->tm_hour; return (ss ? my_snprintf(buf, size, "%02d:%02d:%02d", hh, mm, ss) : mm ? my_snprintf(buf, size, "%02d:%02d", hh, mm) : my_snprintf(buf, size, "%02d", hh)); } /* Store into BUF, of size SIZE, a formatted UT offset for the localtime *TM corresponding to time T. Use ISO 8601 format +HHMMSS, or -HHMMSS for timestamps west of Greenwich; use the format -00 for unknown UT offsets. If the hour needs more than two digits to represent, extend the length of HH as needed. Otherwise, omit SS if SS is zero, and omit MM too if MM is also zero. Return the length of the resulting string, or -1 if the result is not representable as a string. If the string does not fit, return the length that the string would have been if it had fit; do not overrun the output buffer. */ static int format_utc_offset(char *buf, size_t size, struct tm const *tm, time_t t) { long off = gmtoff(tm, &t, NULL); char sign = ((off < 0 || (off == 0 && (*abbr(tm) == '-' || strcmp(abbr(tm), "zzz") == 0))) ? '-' : '+'); long hh; int mm, ss; if (off < 0) { if (off == LONG_MIN) return -1; off = -off; } ss = off % 60; mm = off / 60 % 60; hh = off / 60 / 60; return (ss || 100 <= hh ? my_snprintf(buf, size, "%c%02ld%02d%02d", sign, hh, mm, ss) : mm ? my_snprintf(buf, size, "%c%02ld%02d", sign, hh, mm) : my_snprintf(buf, size, "%c%02ld", sign, hh)); } /* Store into BUF (of size SIZE) a quoted string representation of P. If the representation's length is less than SIZE, return the length; the representation is not null terminated. Otherwise return SIZE, to indicate that BUF is too small. */ static size_t format_quoted_string(char *buf, size_t size, char const *p) { char *b = buf; size_t s = size; if (!s) return size; *b++ = '"', s--; for (;;) { char c = *p++; if (s <= 1) return size; switch (c) { default: *b++ = c, s--; continue; case '\0': *b++ = '"', s--; return size - s; case '"': case '\\': break; case ' ': c = 's'; break; case '\f': c = 'f'; break; case '\n': c = 'n'; break; case '\r': c = 'r'; break; case '\t': c = 't'; break; case '\v': c = 'v'; break; } *b++ = '\\', *b++ = c, s -= 2; } } /* Store into BUF (of size SIZE) a timestamp formatted by TIME_FMT. TM is the broken-down time, T the seconds count, AB the time zone abbreviation, and ZONE_NAME the zone name. Return true if successful, false if the output would require more than SIZE bytes. TIME_FMT uses the same format that strftime uses, with these additions: %f zone name %L local time as per format_local_time %Q like "U\t%Z\tD" where U is the UT offset as for format_utc_offset and D is the isdst flag; except omit D if it is zero, omit %Z if it equals U, quote and escape %Z if it contains nonalphabetics, and omit any trailing tabs. */ static bool istrftime(char *buf, size_t size, char const *time_fmt, struct tm const *tm, time_t t, char const *ab, char const *zone_name) { char *b = buf; size_t s = size; char const *f = time_fmt, *p; for (p = f; ; p++) if (*p == '%' && p[1] == '%') p++; else if (!*p || (*p == '%' && (p[1] == 'f' || p[1] == 'L' || p[1] == 'Q'))) { size_t formatted_len; size_t f_prefix_len = p - f; size_t f_prefix_copy_size = p - f + 2; char fbuf[100]; bool oversized = sizeof fbuf <= f_prefix_copy_size; char *f_prefix_copy = oversized ? xmalloc(f_prefix_copy_size) : fbuf; memcpy(f_prefix_copy, f, f_prefix_len); strcpy(f_prefix_copy + f_prefix_len, "X"); formatted_len = strftime(b, s, f_prefix_copy, tm); if (oversized) free(f_prefix_copy); if (formatted_len == 0) return false; formatted_len--; b += formatted_len, s -= formatted_len; if (!*p++) break; switch (*p) { case 'f': formatted_len = format_quoted_string(b, s, zone_name); break; case 'L': formatted_len = format_local_time(b, s, tm); break; case 'Q': { bool show_abbr; int offlen = format_utc_offset(b, s, tm, t); if (! (0 <= offlen && offlen < s)) return false; show_abbr = strcmp(b, ab) != 0; b += offlen, s -= offlen; if (show_abbr) { char const *abp; size_t len; if (s <= 1) return false; *b++ = '\t', s--; for (abp = ab; is_alpha(*abp); abp++) continue; len = (!*abp && *ab ? my_snprintf(b, s, "%s", ab) : format_quoted_string(b, s, ab)); if (s <= len) return false; b += len, s -= len; } formatted_len = (tm->tm_isdst ? my_snprintf(b, s, &"\t\t%d"[show_abbr], tm->tm_isdst) : 0); } break; } if (s <= formatted_len) return false; b += formatted_len, s -= formatted_len; f = p + 1; } *b = '\0'; return true; } /* Show a time transition. */ static void showtrans(char const *time_fmt, struct tm const *tm, time_t t, char const *ab, char const *zone_name) { if (!tm) { printf(tformat(), t); putchar('\n'); } else { char stackbuf[1000]; size_t size = sizeof stackbuf; char *buf = stackbuf; char *bufalloc = NULL; while (! istrftime(buf, size, time_fmt, tm, t, ab, zone_name)) { size = sumsize(size, size); free(bufalloc); buf = bufalloc = xmalloc(size); } puts(buf); free(bufalloc); } } static char const * abbr(struct tm const *tmp) { #ifdef TM_ZONE return tmp->TM_ZONE; #else # if HAVE_TZNAME if (0 <= tmp->tm_isdst && tzname[0 < tmp->tm_isdst]) return tzname[0 < tmp->tm_isdst]; # endif return ""; #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[][4] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; static const char mon_name[][4] = { "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("%s %s%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)); }