/* SPDX-License-Identifier: LGPL-2.1+ */ #include #include #include #include #include #include #include #include #include #include #include #include "alloc-util.h" #include "calendarspec.h" #include "fileio.h" #include "macro.h" #include "parse-util.h" #include "process-util.h" #include "string-util.h" #include "time-util.h" #define BITS_WEEKDAYS 127 #define MIN_YEAR 1970 #define MAX_YEAR 2199 /* An arbitrary limit on the length of the chains of components. We don't want to * build a very long linked list, which would be slow to iterate over and might cause * our stack to overflow. It's unlikely that legitimate uses require more than a few * linked compenents anyway. */ #define CALENDARSPEC_COMPONENTS_MAX 240 static void free_chain(CalendarComponent *c) { CalendarComponent *n; while (c) { n = c->next; free(c); c = n; } } CalendarSpec* calendar_spec_free(CalendarSpec *c) { if (!c) return NULL; free_chain(c->year); free_chain(c->month); free_chain(c->day); free_chain(c->hour); free_chain(c->minute); free_chain(c->microsecond); free(c->timezone); return mfree(c); } static int component_compare(CalendarComponent * const *a, CalendarComponent * const *b) { int r; r = CMP((*a)->start, (*b)->start); if (r != 0) return r; r = CMP((*a)->stop, (*b)->stop); if (r != 0) return r; return CMP((*a)->repeat, (*b)->repeat); } static void normalize_chain(CalendarComponent **c) { CalendarComponent **b, *i, **j, *next; size_t n = 0, k; assert(c); for (i = *c; i; i = i->next) { n++; /* * While we're counting the chain, also normalize `stop` * so the length of the range is a multiple of `repeat` */ if (i->stop > i->start && i->repeat > 0) i->stop -= (i->stop - i->start) % i->repeat; } if (n <= 1) return; j = b = newa(CalendarComponent*, n); for (i = *c; i; i = i->next) *(j++) = i; typesafe_qsort(b, n, component_compare); b[n-1]->next = NULL; next = b[n-1]; /* Drop non-unique entries */ for (k = n-1; k > 0; k--) { if (component_compare(&b[k-1], &next) == 0) { free(b[k-1]); continue; } b[k-1]->next = next; next = b[k-1]; } *c = next; } static void fix_year(CalendarComponent *c) { /* Turns 12 → 2012, 89 → 1989 */ while (c) { if (c->start >= 0 && c->start < 70) c->start += 2000; if (c->stop >= 0 && c->stop < 70) c->stop += 2000; if (c->start >= 70 && c->start < 100) c->start += 1900; if (c->stop >= 70 && c->stop < 100) c->stop += 1900; c = c->next; } } int calendar_spec_normalize(CalendarSpec *c) { assert(c); if (streq_ptr(c->timezone, "UTC")) { c->utc = true; c->timezone = mfree(c->timezone); } if (c->weekdays_bits <= 0 || c->weekdays_bits >= BITS_WEEKDAYS) c->weekdays_bits = -1; if (c->end_of_month && !c->day) c->end_of_month = false; fix_year(c->year); normalize_chain(&c->year); normalize_chain(&c->month); normalize_chain(&c->day); normalize_chain(&c->hour); normalize_chain(&c->minute); normalize_chain(&c->microsecond); return 0; } _pure_ static bool chain_valid(CalendarComponent *c, int from, int to, bool end_of_month) { assert(to >= from); if (!c) return true; /* Forbid dates more than 28 days from the end of the month */ if (end_of_month) to -= 3; if (c->start < from || c->start > to) return false; /* Avoid overly large values that could cause overflow */ if (c->repeat > to - from) return false; /* * c->repeat must be short enough so at least one repetition may * occur before the end of the interval. For dates scheduled * relative to the end of the month, c->start and c->stop * correspond to the Nth last day of the month. */ if (c->stop >= 0) { if (c->stop < from || c ->stop > to) return false; if (c->start + c->repeat > c->stop) return false; } else { if (end_of_month && c->start - c->repeat < from) return false; if (!end_of_month && c->start + c->repeat > to) return false; } if (c->next) return chain_valid(c->next, from, to, end_of_month); return true; } _pure_ bool calendar_spec_valid(CalendarSpec *c) { assert(c); if (c->weekdays_bits > BITS_WEEKDAYS) return false; if (!chain_valid(c->year, MIN_YEAR, MAX_YEAR, false)) return false; if (!chain_valid(c->month, 1, 12, false)) return false; if (!chain_valid(c->day, 1, 31, c->end_of_month)) return false; if (!chain_valid(c->hour, 0, 23, false)) return false; if (!chain_valid(c->minute, 0, 59, false)) return false; if (!chain_valid(c->microsecond, 0, 60*USEC_PER_SEC-1, false)) return false; return true; } static void format_weekdays(FILE *f, const CalendarSpec *c) { static const char *const days[] = { "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun" }; int l, x; bool need_comma = false; assert(f); assert(c); assert(c->weekdays_bits > 0 && c->weekdays_bits <= BITS_WEEKDAYS); for (x = 0, l = -1; x < (int) ELEMENTSOF(days); x++) { if (c->weekdays_bits & (1 << x)) { if (l < 0) { if (need_comma) fputc(',', f); else need_comma = true; fputs(days[x], f); l = x; } } else if (l >= 0) { if (x > l + 1) { fputs(x > l + 2 ? ".." : ",", f); fputs(days[x-1], f); } l = -1; } } if (l >= 0 && x > l + 1) { fputs(x > l + 2 ? ".." : ",", f); fputs(days[x-1], f); } } static void format_chain(FILE *f, int space, const CalendarComponent *c, bool usec) { int d = usec ? (int) USEC_PER_SEC : 1; assert(f); if (!c) { fputc('*', f); return; } if (usec && c->start == 0 && c->repeat == USEC_PER_SEC && !c->next) { fputc('*', f); return; } assert(c->start >= 0); fprintf(f, "%0*i", space, c->start / d); if (c->start % d > 0) fprintf(f, ".%06i", c->start % d); if (c->stop > 0) fprintf(f, "..%0*i", space, c->stop / d); if (c->stop % d > 0) fprintf(f, ".%06i", c->stop % d); if (c->repeat > 0 && !(c->stop > 0 && c->repeat == d)) fprintf(f, "/%i", c->repeat / d); if (c->repeat % d > 0) fprintf(f, ".%06i", c->repeat % d); if (c->next) { fputc(',', f); format_chain(f, space, c->next, usec); } } int calendar_spec_to_string(const CalendarSpec *c, char **p) { char *buf = NULL; size_t sz = 0; FILE *f; int r; assert(c); assert(p); f = open_memstream(&buf, &sz); if (!f) return -ENOMEM; (void) __fsetlocking(f, FSETLOCKING_BYCALLER); if (c->weekdays_bits > 0 && c->weekdays_bits <= BITS_WEEKDAYS) { format_weekdays(f, c); fputc(' ', f); } format_chain(f, 4, c->year, false); fputc('-', f); format_chain(f, 2, c->month, false); fputc(c->end_of_month ? '~' : '-', f); format_chain(f, 2, c->day, false); fputc(' ', f); format_chain(f, 2, c->hour, false); fputc(':', f); format_chain(f, 2, c->minute, false); fputc(':', f); format_chain(f, 2, c->microsecond, true); if (c->utc) fputs(" UTC", f); else if (c->timezone != NULL) { fputc(' ', f); fputs(c->timezone, f); } else if (IN_SET(c->dst, 0, 1)) { /* If daylight saving is explicitly on or off, let's show the used timezone. */ tzset(); if (!isempty(tzname[c->dst])) { fputc(' ', f); fputs(tzname[c->dst], f); } } r = fflush_and_check(f); if (r < 0) { free(buf); fclose(f); return r; } fclose(f); *p = buf; return 0; } static int parse_weekdays(const char **p, CalendarSpec *c) { static const struct { const char *name; const int nr; } day_nr[] = { { "Monday", 0 }, { "Mon", 0 }, { "Tuesday", 1 }, { "Tue", 1 }, { "Wednesday", 2 }, { "Wed", 2 }, { "Thursday", 3 }, { "Thu", 3 }, { "Friday", 4 }, { "Fri", 4 }, { "Saturday", 5 }, { "Sat", 5 }, { "Sunday", 6 }, { "Sun", 6 } }; int l = -1; bool first = true; assert(p); assert(*p); assert(c); for (;;) { size_t i; for (i = 0; i < ELEMENTSOF(day_nr); i++) { size_t skip; if (!startswith_no_case(*p, day_nr[i].name)) continue; skip = strlen(day_nr[i].name); if (!IN_SET((*p)[skip], 0, '-', '.', ',', ' ')) return -EINVAL; c->weekdays_bits |= 1 << day_nr[i].nr; if (l >= 0) { int j; if (l > day_nr[i].nr) return -EINVAL; for (j = l + 1; j < day_nr[i].nr; j++) c->weekdays_bits |= 1 << j; } *p += skip; break; } /* Couldn't find this prefix, so let's assume the weekday was not specified and let's continue with the date */ if (i >= ELEMENTSOF(day_nr)) return first ? 0 : -EINVAL; /* We reached the end of the string */ if (**p == 0) return 0; /* We reached the end of the weekday spec part */ if (**p == ' ') { *p += strspn(*p, " "); return 0; } if (**p == '.') { if (l >= 0) return -EINVAL; if ((*p)[1] != '.') return -EINVAL; l = day_nr[i].nr; *p += 2; /* Support ranges with "-" for backwards compatibility */ } else if (**p == '-') { if (l >= 0) return -EINVAL; l = day_nr[i].nr; *p += 1; } else if (**p == ',') { l = -1; *p += 1; } /* Allow a trailing comma but not an open range */ if (IN_SET(**p, 0, ' ')) { *p += strspn(*p, " "); return l < 0 ? 0 : -EINVAL; } first = false; } } static int parse_one_number(const char *p, const char **e, unsigned long *ret) { char *ee = NULL; unsigned long value; errno = 0; value = strtoul(p, &ee, 10); if (errno > 0) return -errno; if (ee == p) return -EINVAL; *ret = value; *e = ee; return 0; } static int parse_component_decimal(const char **p, bool usec, int *res) { unsigned long value; const char *e = NULL; int r; if (!isdigit(**p)) return -EINVAL; r = parse_one_number(*p, &e, &value); if (r < 0) return r; if (usec) { if (value * USEC_PER_SEC / USEC_PER_SEC != value) return -ERANGE; value *= USEC_PER_SEC; /* One "." is a decimal point, but ".." is a range separator */ if (e[0] == '.' && e[1] != '.') { unsigned add; e++; r = parse_fractional_part_u(&e, 6, &add); if (r < 0) return r; if (add + value < value) return -ERANGE; value += add; } } if (value > INT_MAX) return -ERANGE; *p = e; *res = value; return 0; } static int const_chain(int value, CalendarComponent **c) { CalendarComponent *cc = NULL; assert(c); cc = new0(CalendarComponent, 1); if (!cc) return -ENOMEM; cc->start = value; cc->stop = -1; cc->repeat = 0; cc->next = *c; *c = cc; return 0; } static int calendarspec_from_time_t(CalendarSpec *c, time_t time) { struct tm tm; CalendarComponent *year = NULL, *month = NULL, *day = NULL, *hour = NULL, *minute = NULL, *us = NULL; int r; if (!gmtime_r(&time, &tm)) return -ERANGE; r = const_chain(tm.tm_year + 1900, &year); if (r < 0) return r; r = const_chain(tm.tm_mon + 1, &month); if (r < 0) return r; r = const_chain(tm.tm_mday, &day); if (r < 0) return r; r = const_chain(tm.tm_hour, &hour); if (r < 0) return r; r = const_chain(tm.tm_min, &minute); if (r < 0) return r; r = const_chain(tm.tm_sec * USEC_PER_SEC, &us); if (r < 0) return r; c->utc = true; c->year = year; c->month = month; c->day = day; c->hour = hour; c->minute = minute; c->microsecond = us; return 0; } static int prepend_component(const char **p, bool usec, unsigned nesting, CalendarComponent **c) { int r, start, stop = -1, repeat = 0; CalendarComponent *cc; const char *e = *p; assert(p); assert(c); if (nesting > CALENDARSPEC_COMPONENTS_MAX) return -ENOBUFS; r = parse_component_decimal(&e, usec, &start); if (r < 0) return r; if (e[0] == '.' && e[1] == '.') { e += 2; r = parse_component_decimal(&e, usec, &stop); if (r < 0) return r; repeat = usec ? USEC_PER_SEC : 1; } if (*e == '/') { e++; r = parse_component_decimal(&e, usec, &repeat); if (r < 0) return r; if (repeat == 0) return -ERANGE; } if (!IN_SET(*e, 0, ' ', ',', '-', '~', ':')) return -EINVAL; cc = new0(CalendarComponent, 1); if (!cc) return -ENOMEM; cc->start = start; cc->stop = stop; cc->repeat = repeat; cc->next = *c; *p = e; *c = cc; if (*e ==',') { *p += 1; return prepend_component(p, usec, nesting + 1, c); } return 0; } static int parse_chain(const char **p, bool usec, CalendarComponent **c) { const char *t; CalendarComponent *cc = NULL; int r; assert(p); assert(c); t = *p; if (t[0] == '*') { if (usec) { r = const_chain(0, c); if (r < 0) return r; (*c)->repeat = USEC_PER_SEC; } else *c = NULL; *p = t + 1; return 0; } r = prepend_component(&t, usec, 0, &cc); if (r < 0) { free_chain(cc); return r; } *p = t; *c = cc; return 0; } static int parse_date(const char **p, CalendarSpec *c) { const char *t; int r; CalendarComponent *first, *second, *third; assert(p); assert(*p); assert(c); t = *p; if (*t == 0) return 0; /* @TIMESTAMP — UNIX time in seconds since the epoch */ if (*t == '@') { unsigned long value; time_t time; r = parse_one_number(t + 1, &t, &value); if (r < 0) return r; time = value; if ((unsigned long) time != value) return -ERANGE; r = calendarspec_from_time_t(c, time); if (r < 0) return r; *p = t; return 1; /* finito, don't parse H:M:S after that */ } r = parse_chain(&t, false, &first); if (r < 0) return r; /* Already the end? A ':' as separator? In that case this was a time, not a date */ if (IN_SET(*t, 0, ':')) { free_chain(first); return 0; } if (*t == '~') c->end_of_month = true; else if (*t != '-') { free_chain(first); return -EINVAL; } t++; r = parse_chain(&t, false, &second); if (r < 0) { free_chain(first); return r; } /* Got two parts, hence it's month and day */ if (IN_SET(*t, 0, ' ')) { *p = t + strspn(t, " "); c->month = first; c->day = second; return 0; } else if (c->end_of_month) { free_chain(first); free_chain(second); return -EINVAL; } if (*t == '~') c->end_of_month = true; else if (*t != '-') { free_chain(first); free_chain(second); return -EINVAL; } t++; r = parse_chain(&t, false, &third); if (r < 0) { free_chain(first); free_chain(second); return r; } /* Got three parts, hence it is year, month and day */ if (IN_SET(*t, 0, ' ')) { *p = t + strspn(t, " "); c->year = first; c->month = second; c->day = third; return 0; } free_chain(first); free_chain(second); free_chain(third); return -EINVAL; } static int parse_calendar_time(const char **p, CalendarSpec *c) { CalendarComponent *h = NULL, *m = NULL, *s = NULL; const char *t; int r; assert(p); assert(*p); assert(c); t = *p; /* If no time is specified at all, then this means 00:00:00 */ if (*t == 0) goto null_hour; r = parse_chain(&t, false, &h); if (r < 0) goto fail; if (*t != ':') { r = -EINVAL; goto fail; } t++; r = parse_chain(&t, false, &m); if (r < 0) goto fail; /* Already at the end? Then it's hours and minutes, and seconds are 0 */ if (*t == 0) goto null_second; if (*t != ':') { r = -EINVAL; goto fail; } t++; r = parse_chain(&t, true, &s); if (r < 0) goto fail; /* At the end? Then it's hours, minutes and seconds */ if (*t == 0) goto finish; r = -EINVAL; goto fail; null_hour: r = const_chain(0, &h); if (r < 0) goto fail; r = const_chain(0, &m); if (r < 0) goto fail; null_second: r = const_chain(0, &s); if (r < 0) goto fail; finish: *p = t; c->hour = h; c->minute = m; c->microsecond = s; return 0; fail: free_chain(h); free_chain(m); free_chain(s); return r; } int calendar_spec_from_string(const char *p, CalendarSpec **spec) { const char *utc; _cleanup_(calendar_spec_freep) CalendarSpec *c = NULL; int r; assert(p); assert(spec); c = new0(CalendarSpec, 1); if (!c) return -ENOMEM; c->dst = -1; c->timezone = NULL; utc = endswith_no_case(p, " UTC"); if (utc) { c->utc = true; p = strndupa(p, utc - p); } else { const char *e = NULL; int j; tzset(); /* Check if the local timezone was specified? */ for (j = 0; j <= 1; j++) { if (isempty(tzname[j])) continue; e = endswith_no_case(p, tzname[j]); if (!e) continue; if (e == p) continue; if (e[-1] != ' ') continue; break; } /* Found one of the two timezones specified? */ if (IN_SET(j, 0, 1)) { p = strndupa(p, e - p - 1); c->dst = j; } else { const char *last_space; last_space = strrchr(p, ' '); if (last_space != NULL && timezone_is_valid(last_space + 1, LOG_DEBUG)) { c->timezone = strdup(last_space + 1); if (!c->timezone) return -ENOMEM; p = strndupa(p, last_space - p); } } } if (isempty(p)) return -EINVAL; if (strcaseeq(p, "minutely")) { r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "hourly")) { r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "daily")) { r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "monthly")) { r = const_chain(1, &c->day); if (r < 0) return r; r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "annually") || strcaseeq(p, "yearly") || strcaseeq(p, "anually") /* backwards compatibility */ ) { r = const_chain(1, &c->month); if (r < 0) return r; r = const_chain(1, &c->day); if (r < 0) return r; r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "weekly")) { c->weekdays_bits = 1; r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "quarterly")) { r = const_chain(1, &c->month); if (r < 0) return r; r = const_chain(4, &c->month); if (r < 0) return r; r = const_chain(7, &c->month); if (r < 0) return r; r = const_chain(10, &c->month); if (r < 0) return r; r = const_chain(1, &c->day); if (r < 0) return r; r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else if (strcaseeq(p, "biannually") || strcaseeq(p, "bi-annually") || strcaseeq(p, "semiannually") || strcaseeq(p, "semi-annually")) { r = const_chain(1, &c->month); if (r < 0) return r; r = const_chain(7, &c->month); if (r < 0) return r; r = const_chain(1, &c->day); if (r < 0) return r; r = const_chain(0, &c->hour); if (r < 0) return r; r = const_chain(0, &c->minute); if (r < 0) return r; r = const_chain(0, &c->microsecond); if (r < 0) return r; } else { r = parse_weekdays(&p, c); if (r < 0) return r; r = parse_date(&p, c); if (r < 0) return r; if (r == 0) { r = parse_calendar_time(&p, c); if (r < 0) return r; } if (*p != 0) return -EINVAL; } r = calendar_spec_normalize(c); if (r < 0) return r; if (!calendar_spec_valid(c)) return -EINVAL; *spec = TAKE_PTR(c); return 0; } static int find_end_of_month(struct tm *tm, bool utc, int day) { struct tm t = *tm; t.tm_mon++; t.tm_mday = 1 - day; if (mktime_or_timegm(&t, utc) < 0 || t.tm_mon != tm->tm_mon) return -1; return t.tm_mday; } static int find_matching_component(const CalendarSpec *spec, const CalendarComponent *c, struct tm *tm, int *val) { const CalendarComponent *p = c; int start, stop, d = -1; bool d_set = false; int r; assert(val); if (!c) return 0; while (c) { start = c->start; stop = c->stop; if (spec->end_of_month && p == spec->day) { start = find_end_of_month(tm, spec->utc, start); stop = find_end_of_month(tm, spec->utc, stop); if (stop > 0) SWAP_TWO(start, stop); } if (start >= *val) { if (!d_set || start < d) { d = start; d_set = true; } } else if (c->repeat > 0) { int k; k = start + c->repeat * DIV_ROUND_UP(*val - start, c->repeat); if ((!d_set || k < d) && (stop < 0 || k <= stop)) { d = k; d_set = true; } } c = c->next; } if (!d_set) return -ENOENT; r = *val != d; *val = d; return r; } static bool tm_out_of_bounds(const struct tm *tm, bool utc) { struct tm t; assert(tm); t = *tm; if (mktime_or_timegm(&t, utc) < 0) return true; /* * Set an upper bound on the year so impossible dates like "*-02-31" * don't cause find_next() to loop forever. tm_year contains years * since 1900, so adjust it accordingly. */ if (tm->tm_year + 1900 > MAX_YEAR) return true; /* Did any normalization take place? If so, it was out of bounds before */ return t.tm_year != tm->tm_year || t.tm_mon != tm->tm_mon || t.tm_mday != tm->tm_mday || t.tm_hour != tm->tm_hour || t.tm_min != tm->tm_min || t.tm_sec != tm->tm_sec; } static bool matches_weekday(int weekdays_bits, const struct tm *tm, bool utc) { struct tm t; int k; if (weekdays_bits < 0 || weekdays_bits >= BITS_WEEKDAYS) return true; t = *tm; if (mktime_or_timegm(&t, utc) < 0) return false; k = t.tm_wday == 0 ? 6 : t.tm_wday - 1; return (weekdays_bits & (1 << k)); } static int find_next(const CalendarSpec *spec, struct tm *tm, usec_t *usec) { struct tm c; int tm_usec; int r; assert(spec); assert(tm); c = *tm; tm_usec = *usec; for (;;) { /* Normalize the current date */ (void) mktime_or_timegm(&c, spec->utc); c.tm_isdst = spec->dst; c.tm_year += 1900; r = find_matching_component(spec, spec->year, &c, &c.tm_year); c.tm_year -= 1900; if (r > 0) { c.tm_mon = 0; c.tm_mday = 1; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; } if (r < 0) return r; if (tm_out_of_bounds(&c, spec->utc)) return -ENOENT; c.tm_mon += 1; r = find_matching_component(spec, spec->month, &c, &c.tm_mon); c.tm_mon -= 1; if (r > 0) { c.tm_mday = 1; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; } if (r < 0 || tm_out_of_bounds(&c, spec->utc)) { c.tm_year++; c.tm_mon = 0; c.tm_mday = 1; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; continue; } r = find_matching_component(spec, spec->day, &c, &c.tm_mday); if (r > 0) c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; if (r < 0 || tm_out_of_bounds(&c, spec->utc)) { c.tm_mon++; c.tm_mday = 1; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; continue; } if (!matches_weekday(spec->weekdays_bits, &c, spec->utc)) { c.tm_mday++; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; continue; } r = find_matching_component(spec, spec->hour, &c, &c.tm_hour); if (r > 0) c.tm_min = c.tm_sec = tm_usec = 0; if (r < 0 || tm_out_of_bounds(&c, spec->utc)) { c.tm_mday++; c.tm_hour = c.tm_min = c.tm_sec = tm_usec = 0; continue; } r = find_matching_component(spec, spec->minute, &c, &c.tm_min); if (r > 0) c.tm_sec = tm_usec = 0; if (r < 0 || tm_out_of_bounds(&c, spec->utc)) { c.tm_hour++; c.tm_min = c.tm_sec = tm_usec = 0; continue; } c.tm_sec = c.tm_sec * USEC_PER_SEC + tm_usec; r = find_matching_component(spec, spec->microsecond, &c, &c.tm_sec); tm_usec = c.tm_sec % USEC_PER_SEC; c.tm_sec /= USEC_PER_SEC; if (r < 0 || tm_out_of_bounds(&c, spec->utc)) { c.tm_min++; c.tm_sec = tm_usec = 0; continue; } *tm = c; *usec = tm_usec; return 0; } } static int calendar_spec_next_usec_impl(const CalendarSpec *spec, usec_t usec, usec_t *next) { struct tm tm; time_t t; int r; usec_t tm_usec; assert(spec); assert(next); if (usec > USEC_TIMESTAMP_FORMATTABLE_MAX) return -EINVAL; usec++; t = (time_t) (usec / USEC_PER_SEC); assert_se(localtime_or_gmtime_r(&t, &tm, spec->utc)); tm_usec = usec % USEC_PER_SEC; r = find_next(spec, &tm, &tm_usec); if (r < 0) return r; t = mktime_or_timegm(&tm, spec->utc); if (t < 0) return -EINVAL; *next = (usec_t) t * USEC_PER_SEC + tm_usec; return 0; } typedef struct SpecNextResult { usec_t next; int return_value; } SpecNextResult; int calendar_spec_next_usec(const CalendarSpec *spec, usec_t usec, usec_t *next) { SpecNextResult *shared, tmp; int r; if (isempty(spec->timezone)) return calendar_spec_next_usec_impl(spec, usec, next); shared = mmap(NULL, sizeof *shared, PROT_READ|PROT_WRITE, MAP_SHARED|MAP_ANONYMOUS, -1, 0); if (shared == MAP_FAILED) return negative_errno(); r = safe_fork("(sd-calendar)", FORK_RESET_SIGNALS|FORK_CLOSE_ALL_FDS|FORK_DEATHSIG|FORK_WAIT, NULL); if (r < 0) { (void) munmap(shared, sizeof *shared); return r; } if (r == 0) { if (setenv("TZ", spec->timezone, 1) != 0) { shared->return_value = negative_errno(); _exit(EXIT_FAILURE); } tzset(); shared->return_value = calendar_spec_next_usec_impl(spec, usec, &shared->next); _exit(EXIT_SUCCESS); } tmp = *shared; if (munmap(shared, sizeof *shared) < 0) return negative_errno(); if (tmp.return_value == 0) *next = tmp.next; return tmp.return_value; }