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|
/*-
* Copyright (c) 1997, 1998, 2005, 2008 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code was contributed to The NetBSD Foundation by Klaus Klein.
* Heavily optimised by David Laight
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#define _GNU_SOURCE
#include "config.h"
#include "ws_strptime.h"
#include <time.h>
#include <wsutil/time_util.h> /* For ws_localtime_r() */
#include <wsutil/strtoi.h>
#ifdef _WIN32
#define tzset _tzset
#define tzname _tzname
#define timezone _timezone
#define daylight _daylight
#endif
static const unsigned char *conv_num(const unsigned char *, int *, unsigned, unsigned);
static const unsigned char *find_string(const unsigned char *, int *, const char * const *,
const char * const *, int);
#define SECSPERMIN 60
#define MINSPERHOUR 60
#define HOURSPERDAY 24
#define DAYSPERWEEK 7
#define DAYSPERNYEAR 365
#define DAYSPERLYEAR 366
#define SECSPERHOUR (SECSPERMIN * MINSPERHOUR)
#define SECSPERDAY ((int_fast32_t) SECSPERHOUR * HOURSPERDAY)
#define MONSPERYEAR 12
#define TM_SUNDAY 0
#define TM_MONDAY 1
#define TM_TUESDAY 2
#define TM_WEDNESDAY 3
#define TM_THURSDAY 4
#define TM_FRIDAY 5
#define TM_SATURDAY 6
#define TM_JANUARY 0
#define TM_FEBRUARY 1
#define TM_MARCH 2
#define TM_APRIL 3
#define TM_MAY 4
#define TM_JUNE 5
#define TM_JULY 6
#define TM_AUGUST 7
#define TM_SEPTEMBER 8
#define TM_OCTOBER 9
#define TM_NOVEMBER 10
#define TM_DECEMBER 11
#define TM_YEAR_BASE 1900
#define EPOCH_YEAR 1970
#define EPOCH_WDAY TM_THURSDAY
#define isleap(y) (((y) % 4) == 0 && (((y) % 100) != 0 || ((y) % 400) == 0))
/*
** Since everything in isleap is modulo 400 (or a factor of 400), we know that
** isleap(y) == isleap(y % 400)
** and so
** isleap(a + b) == isleap((a + b) % 400)
** or
** isleap(a + b) == isleap(a % 400 + b % 400)
** This is true even if % means modulo rather than Fortran remainder
** (which is allowed by C89 but not C99).
** We use this to avoid addition overflow problems.
*/
#define isleap_sum(a, b) isleap((a) % 400 + (b) % 400)
/*
* We do not implement alternate representations. However, we always
* check whether a given modifier is allowed for a certain conversion.
*/
#define ALT_E 0x01
#define ALT_O 0x02
#define LEGAL_ALT(x) { if (alt_format & ~(x)) return NULL; }
#define S_YEAR (1 << 0)
#define S_MON (1 << 1)
#define S_YDAY (1 << 2)
#define S_MDAY (1 << 3)
#define S_WDAY (1 << 4)
#define S_HOUR (1 << 5)
#define HAVE_MDAY(s) (s & S_MDAY)
#define HAVE_MON(s) (s & S_MON)
#define HAVE_WDAY(s) (s & S_WDAY)
#define HAVE_YDAY(s) (s & S_YDAY)
#define HAVE_YEAR(s) (s & S_YEAR)
#define HAVE_HOUR(s) (s & S_HOUR)
static char utc[] = { "UTC" };
/* RFC-822/RFC-2822 */
static const char * const nast[5] = {
"EST", "CST", "MST", "PST", "\0\0\0"
};
static const char * const nadt[5] = {
"EDT", "CDT", "MDT", "PDT", "\0\0\0"
};
static const char * const cloc_am_pm[] = {"AM", "PM", NULL};
static const char * const cloc_abday[] = {
"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", NULL
};
static const char * const cloc_day[] = {
"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday",
"Saturday", NULL
};
static const char * const cloc_abmon[] = {
"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep",
"Oct", "Nov", "Dec", NULL
};
static const char * const cloc_mon[] = {
"January", "February", "March", "April", "May", "June", "July",
"August", "September", "October", "November", "December", NULL
};
/*
* Table to determine the ordinal date for the start of a month.
* Ref: http://en.wikipedia.org/wiki/ISO_week_date
*/
static const int start_of_month[2][13] = {
/* non-leap year */
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 },
/* leap year */
{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }
};
/*
* Calculate the week day of the first day of a year. Valid for
* the Gregorian calendar, which began Sept 14, 1752 in the UK
* and its colonies. Ref:
* http://en.wikipedia.org/wiki/Determination_of_the_day_of_the_week
*/
static int
first_wday_of(int yr)
{
return ((2 * (3 - (yr / 100) % 4)) + (yr % 100) + ((yr % 100) / 4) +
(isleap(yr) ? 6 : 0) + 1) % 7;
}
#define delim(p) ((p) == '\0' || g_ascii_isspace((unsigned char)(p)))
#define SET_ZONEP(p, off, zone) \
do { if (p) { p->tm_gmtoff = off; p->tm_zone = zone; } } while (0)
/*
* This is spectacularly ugly.
*
* POSIX require that there be a variable named "timezone", which contains
* "the difference, in seconds, between Coordinated Universal Time (UTC)
* and local standard time.".
*
* Most of the platforms on which we run have this.
*
* FreeBSD, however, does not. Instead, it provides a function named
* "timezone", which takes two integer arguments, "zone" and "dst",
* and "returns a pointer to a time zone abbreviation for the specified
* zone and dst values. The zone argument is the number of minutes west
* of GMT and dst is non-zero if daylight savings time is in effect."
*
* So we need a way to get "the difference, in seconds, between Coordinated
* Universal Time (UTC) and local standard time."
*
* The FreeBSD Wireshark port, as of 2023-12-05, does so by handing
* a time_t value of 0, meaning 1970-01-01 00:00:00 UTC (the Unix Epoch),
* to localtime() and using the tm_gmtoff value from the resulting
* struct tm. That works in countries that were in standard time
* then, but doesn't work in countries that were not in standard time
* then, meaning it doesn't work correctly in countries in the Southern
* Hemisphere that were in Daylight Saving Tie at that point, and may or
* may not work correctly in Ireland, depending on how "standard time"
* is defined (don't ask).
*
* For now, we use a similar mechanism to the one above, but we check
* whether tm_isdst is greater than 0 in the resulting struct tm and,
* if it is, use a time_t value of 86400*(365/2), in the hopes that,
* halfway through 1970, the location in question was in standard
* time.
*
* Also, for now, we test for FreeBSD rather than doing a configure-
* time check; checking whether the symbol "timezone" is defined
* won't work, as it's defined in FreeBSD as a function, so we'd
* have to check *how* it's defined.
*
* So we have a function to return the difference in question. It
* returns a long because timezone is defined to be a long in POSIX
* and because the tm_gmtoff member of a struct tm, if such a member
* is present, is also a long.
*/
static long
utc_offset(void)
{
#if defined(__FreeBSD__)
/*
* We only calculate the standard time UTC offset once, under the
* assumption that we won't change what time zone we're in.
*
* XXX - that assumption is violated if:
*
* you're running on an OS where you can set the current
* time zone and that will affect all running programs,
* or where the OS tries to determine where you're located
* and changes the time zone to match (for example, macOS,
* in which both of those are the case);
*
* you're in a location that has moved between time zones
* since 1970-01-01 00:00:00 UTC (there are some, and the
* IANA time zone database, at least, takes that into
* account);
*
* we add support for the if_iana_tzname Interface
* Description Block option, so that, when looking
* at a file with that option for one or more
* interfaces, and using the timezone from that
* option rather than the local timezone, the
* offset from UTC may change from file to file.
*
* This *probably* won't make much of a difference, as
* we have to do this sort of hackery only when parsing
* a date that doesn't use the "Obsolete Date and Time",
* as it's called in RFC 2822.
*/
static bool got_utcoffset = false;
static struct tm *gtm;
time_t then = 0;
if (got_utcoffset) {
if (gtm != NULL)
return gtm->tm_gmtoff;
else
return 0; /* localtime() failed on us */
}
gtm = localtime(&then);
got_utcoffset = true;
if (gtm == NULL) {
/*
* Oh, heck, it can't convert the Epoch. Just
* return 0 and say to hell with it.
*/
return 0;
}
if (gtm->tm_isdst > 0) {
/*
* Sorry, we were in Daylight Saving Time on
* 1970-01-01 at 00:00:00 UTC. Try the middle
* of the year. (We don't bother making sure
* we weren't in DST then.)
*/
then = 86400*(365/2);
gtm = localtime(&then);
if (gtm == NULL) {
/* See above. */
return 0;
}
}
return gtm->tm_gmtoff;
#else
return timezone;
#endif
}
char *
ws_strptime_p(const char *buf, const char *format, struct tm *tm)
{
#ifdef HAVE_STRPTIME
return strptime(buf, format, tm);
#else
return ws_strptime(buf, format, tm, NULL);
#endif
}
char *
ws_strptime(const char *buf, const char *fmt, struct tm *tm, struct ws_timezone *zonep)
{
unsigned char c;
const unsigned char *bp, *ep, *zname;
int alt_format, i, split_year = 0, neg = 0, state = 0,
day_offset = -1, week_offset = 0, offs, mandatory;
const char *new_fmt;
long tm_gmtoff;
const char *tm_zone;
bp = (const unsigned char *)buf;
while (bp != NULL && (c = *fmt++) != '\0') {
/* Clear `alternate' modifier prior to new conversion. */
alt_format = 0;
i = 0;
/* Eat up white-space. */
if (g_ascii_isspace(c)) {
while (g_ascii_isspace(*bp))
bp++;
continue;
}
if (c != '%')
goto literal;
again: switch (c = *fmt++) {
case '%': /* "%%" is converted to "%". */
literal:
if (c != *bp++)
return NULL;
LEGAL_ALT(0);
continue;
/*
* "Alternative" modifiers. Just set the appropriate flag
* and start over again.
*/
case 'E': /* "%E?" alternative conversion modifier. */
LEGAL_ALT(0);
alt_format |= ALT_E;
goto again;
case 'O': /* "%O?" alternative conversion modifier. */
LEGAL_ALT(0);
alt_format |= ALT_O;
goto again;
/*
* "Complex" conversion rules, implemented through recursion.
*/
case 'c': /* Date and time, using the locale's format. */
new_fmt = "%a %b %e %H:%M:%S %Y";
state |= S_WDAY | S_MON | S_MDAY | S_YEAR;
goto recurse;
case 'D': /* The date as "%m/%d/%y". */
new_fmt = "%m/%d/%y";
LEGAL_ALT(0);
state |= S_MON | S_MDAY | S_YEAR;
goto recurse;
case 'F': /* The date as "%Y-%m-%d". */
new_fmt = "%Y-%m-%d";
LEGAL_ALT(0);
state |= S_MON | S_MDAY | S_YEAR;
goto recurse;
case 'R': /* The time as "%H:%M". */
new_fmt = "%H:%M";
LEGAL_ALT(0);
goto recurse;
case 'r': /* The time in 12-hour clock representation. */
new_fmt = "%I:%M:%S %p";
LEGAL_ALT(0);
goto recurse;
case 'T': /* The time as "%H:%M:%S". */
new_fmt = "%H:%M:%S";
LEGAL_ALT(0);
goto recurse;
case 'X': /* The time, using the locale's format. */
new_fmt = "%H:%M:%S";
goto recurse;
case 'x': /* The date, using the locale's format. */
new_fmt = "%m/%d/%y";
state |= S_MON | S_MDAY | S_YEAR;
recurse:
bp = (const unsigned char *)ws_strptime((const char *)bp,
new_fmt, tm, zonep);
LEGAL_ALT(ALT_E);
continue;
/*
* "Elementary" conversion rules.
*/
case 'A': /* The day of week, using the locale's form. */
case 'a':
bp = find_string(bp, &tm->tm_wday, cloc_day, cloc_abday, 7);
LEGAL_ALT(0);
state |= S_WDAY;
continue;
case 'B': /* The month, using the locale's form. */
case 'b':
case 'h':
bp = find_string(bp, &tm->tm_mon, cloc_mon, cloc_abmon, 12);
LEGAL_ALT(0);
state |= S_MON;
continue;
case 'C': /* The century number. */
i = 20;
bp = conv_num(bp, &i, 0, 99);
i = i * 100 - TM_YEAR_BASE;
if (split_year)
i += tm->tm_year % 100;
split_year = 1;
tm->tm_year = i;
LEGAL_ALT(ALT_E);
state |= S_YEAR;
continue;
case 'd': /* The day of month. */
case 'e':
bp = conv_num(bp, &tm->tm_mday, 1, 31);
LEGAL_ALT(ALT_O);
state |= S_MDAY;
continue;
case 'k': /* The hour (24-hour clock representation). */
LEGAL_ALT(0);
/* FALLTHROUGH */
case 'H':
bp = conv_num(bp, &tm->tm_hour, 0, 23);
LEGAL_ALT(ALT_O);
state |= S_HOUR;
continue;
case 'l': /* The hour (12-hour clock representation). */
LEGAL_ALT(0);
/* FALLTHROUGH */
case 'I':
bp = conv_num(bp, &tm->tm_hour, 1, 12);
if (tm->tm_hour == 12)
tm->tm_hour = 0;
LEGAL_ALT(ALT_O);
state |= S_HOUR;
continue;
case 'j': /* The day of year. */
i = 1;
bp = conv_num(bp, &i, 1, 366);
tm->tm_yday = i - 1;
LEGAL_ALT(0);
state |= S_YDAY;
continue;
case 'M': /* The minute. */
bp = conv_num(bp, &tm->tm_min, 0, 59);
LEGAL_ALT(ALT_O);
continue;
case 'm': /* The month. */
i = 1;
bp = conv_num(bp, &i, 1, 12);
tm->tm_mon = i - 1;
LEGAL_ALT(ALT_O);
state |= S_MON;
continue;
case 'p': /* The locale's equivalent of AM/PM. */
bp = find_string(bp, &i, cloc_am_pm,
NULL, 2);
if (HAVE_HOUR(state) && tm->tm_hour > 11)
return NULL;
tm->tm_hour += i * 12;
LEGAL_ALT(0);
continue;
case 'S': /* The seconds. */
bp = conv_num(bp, &tm->tm_sec, 0, 61);
LEGAL_ALT(ALT_O);
continue;
case 's': /* seconds since the epoch */
{
int64_t secs;
const char *endptr;
time_t sse;
/* Extract the seconds as a 64-bit signed number. */
if (!ws_strtoi64(bp, &endptr, &secs)) {
bp = NULL;
continue;
}
bp = endptr;
/* For now, reject times before the Epoch. */
if (secs < 0) {
bp = NULL;
continue;
}
/* Make sure it fits. */
sse = (time_t)secs;
if (sse != secs) {
bp = NULL;
continue;
}
if (ws_localtime_r(&sse, tm) == NULL)
bp = NULL;
else
state |= S_YDAY | S_WDAY |
S_MON | S_MDAY | S_YEAR;
}
continue;
case 'U': /* The week of year, beginning on sunday. */
case 'W': /* The week of year, beginning on monday. */
/*
* This is bogus, as we can not assume any valid
* information present in the tm structure at this
* point to calculate a real value, so save the
* week for now in case it can be used later.
*/
bp = conv_num(bp, &i, 0, 53);
LEGAL_ALT(ALT_O);
if (c == 'U')
day_offset = TM_SUNDAY;
else
day_offset = TM_MONDAY;
week_offset = i;
continue;
case 'w': /* The day of week, beginning on sunday. */
bp = conv_num(bp, &tm->tm_wday, 0, 6);
LEGAL_ALT(ALT_O);
state |= S_WDAY;
continue;
case 'u': /* The day of week, monday = 1. */
bp = conv_num(bp, &i, 1, 7);
tm->tm_wday = i % 7;
LEGAL_ALT(ALT_O);
state |= S_WDAY;
continue;
case 'g': /* The year corresponding to the ISO week
* number but without the century.
*/
bp = conv_num(bp, &i, 0, 99);
continue;
case 'G': /* The year corresponding to the ISO week
* number with century.
*/
do
bp++;
while (g_ascii_isdigit(*bp));
continue;
case 'V': /* The ISO 8601:1988 week number as decimal */
bp = conv_num(bp, &i, 1, 53);
continue;
case 'Y': /* The year. */
i = TM_YEAR_BASE; /* just for data sanity... */
bp = conv_num(bp, &i, 0, 9999);
tm->tm_year = i - TM_YEAR_BASE;
LEGAL_ALT(ALT_E);
state |= S_YEAR;
continue;
case 'y': /* The year within 100 years of the epoch. */
/* LEGAL_ALT(ALT_E | ALT_O); */
bp = conv_num(bp, &i, 0, 99);
if (split_year)
/* preserve century */
i += (tm->tm_year / 100) * 100;
else {
split_year = 1;
if (i <= 68)
i = i + 2000 - TM_YEAR_BASE;
else
i = i + 1900 - TM_YEAR_BASE;
}
tm->tm_year = i;
state |= S_YEAR;
continue;
case 'Z':
case 'z':
tzset();
mandatory = c == 'z';
/*
* We recognize all ISO 8601 formats:
* Z = Zulu time/UTC
* [+-]hhmm
* [+-]hh:mm
* [+-]hh
* We recognize all RFC-822/RFC-2822 formats:
* UT|GMT
* North American : UTC offsets
* E[DS]T = Eastern : -4 | -5
* C[DS]T = Central : -5 | -6
* M[DS]T = Mountain: -6 | -7
* P[DS]T = Pacific : -7 | -8
* Nautical/Military
* [A-IL-M] = -1 ... -9 (J not used)
* [N-Y] = +1 ... +12
* Note: J maybe used to denote non-nautical
* local time
*/
if (mandatory)
while (g_ascii_isspace(*bp))
bp++;
zname = bp;
switch (*bp++) {
case 'G':
if (*bp++ != 'M')
goto namedzone;
/*FALLTHROUGH*/
case 'U':
if (*bp++ != 'T')
goto namedzone;
else if (!delim(*bp) && *bp++ != 'C')
goto namedzone;
/*FALLTHROUGH*/
case 'Z':
if (!delim(*bp))
goto namedzone;
tm->tm_isdst = 0;
tm_gmtoff = 0;
tm_zone = utc;
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
continue;
case '+':
neg = 0;
break;
case '-':
neg = 1;
break;
default:
namedzone:
bp = zname;
/* Nautical / Military style */
if (delim(bp[1]) &&
((*bp >= 'A' && *bp <= 'I') ||
(*bp >= 'L' && *bp <= 'Y'))) {
/* Argh! No 'J'! */
if (*bp >= 'A' && *bp <= 'I')
tm_gmtoff =
(int)*bp - ('A' - 1);
else if (*bp >= 'L' && *bp <= 'M')
tm_gmtoff = (int)*bp - 'A';
else if (*bp >= 'N' && *bp <= 'Y')
tm_gmtoff = 'M' - (int)*bp;
else {
/* Not reached. */
ws_critical("Not reached!");
goto out;
}
tm_gmtoff *= SECSPERHOUR;
tm_zone = NULL; /* XXX */
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
bp++;
continue;
}
/* 'J' is local time */
if (delim(bp[1]) && *bp == 'J') {
tm_gmtoff = -utc_offset();
tm_zone = NULL; /* XXX */
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
bp++;
continue;
}
/*
* From our 3 letter hard-coded table
*/
ep = find_string(bp, &i, nast, NULL, 4);
if (ep != NULL) {
tm_gmtoff = (-5 - i) * SECSPERHOUR;
tm_zone = nast[i];
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
bp = ep;
continue;
}
ep = find_string(bp, &i, nadt, NULL, 4);
if (ep != NULL) {
tm->tm_isdst = 1;
tm_gmtoff = (-4 - i) * SECSPERHOUR;
tm_zone = nadt[i];
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
bp = ep;
continue;
}
/*
* Our current timezone
*/
ep = find_string(bp, &i,
(const char * const *)tzname,
NULL, 2);
if (ep != NULL) {
tm->tm_isdst = i;
tm_gmtoff = -utc_offset();
tm_zone = tzname[i];
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
bp = ep;
continue;
}
goto out;
}
offs = 0;
for (i = 0; i < 4; ) {
if (g_ascii_isdigit(*bp)) {
offs = offs * 10 + (*bp++ - '0');
i++;
continue;
}
if (i == 2 && *bp == ':') {
bp++;
continue;
}
break;
}
if (g_ascii_isdigit(*bp))
goto out;
switch (i) {
case 2:
offs *= SECSPERHOUR;
break;
case 4:
i = offs % 100;
offs /= 100;
if (i >= SECSPERMIN)
goto out;
/* Convert minutes into decimal */
offs = offs * SECSPERHOUR + i * SECSPERMIN;
break;
default:
out:
if (mandatory)
return NULL;
bp = zname;
continue;
}
/* ISO 8601 & RFC 3339 limit to 23:59 max */
if (offs >= (HOURSPERDAY * SECSPERHOUR))
goto out;
if (neg)
offs = -offs;
tm->tm_isdst = 0; /* XXX */
tm_gmtoff = offs;
tm_zone = NULL; /* XXX */
SET_ZONEP(zonep, tm_gmtoff, tm_zone);
continue;
/*
* Miscellaneous conversions.
*/
case 'n': /* Any kind of white-space. */
case 't':
while (g_ascii_isspace(*bp))
bp++;
LEGAL_ALT(0);
continue;
default: /* Unknown/unsupported conversion. */
return NULL;
}
}
if (!HAVE_YDAY(state) && HAVE_YEAR(state)) {
if (HAVE_MON(state) && HAVE_MDAY(state)) {
/* calculate day of year (ordinal date) */
tm->tm_yday = start_of_month[isleap_sum(tm->tm_year,
TM_YEAR_BASE)][tm->tm_mon] + (tm->tm_mday - 1);
state |= S_YDAY;
} else if (day_offset != -1) {
/*
* Set the date to the first Sunday (or Monday)
* of the specified week of the year.
*/
if (!HAVE_WDAY(state)) {
tm->tm_wday = day_offset;
state |= S_WDAY;
}
tm->tm_yday = (7 -
first_wday_of(tm->tm_year + TM_YEAR_BASE) +
day_offset) % 7 + (week_offset - 1) * 7 +
tm->tm_wday - day_offset;
state |= S_YDAY;
}
}
if (HAVE_YDAY(state) && HAVE_YEAR(state)) {
int isleap;
if (!HAVE_MON(state)) {
/* calculate month of day of year */
i = 0;
isleap = isleap_sum(tm->tm_year, TM_YEAR_BASE);
while (tm->tm_yday >= start_of_month[isleap][i])
i++;
if (i > 12) {
i = 1;
tm->tm_yday -= start_of_month[isleap][12];
tm->tm_year++;
}
tm->tm_mon = i - 1;
state |= S_MON;
}
if (!HAVE_MDAY(state)) {
/* calculate day of month */
isleap = isleap_sum(tm->tm_year, TM_YEAR_BASE);
tm->tm_mday = tm->tm_yday -
start_of_month[isleap][tm->tm_mon] + 1;
state |= S_MDAY;
}
if (!HAVE_WDAY(state)) {
/* calculate day of week */
i = 0;
week_offset = first_wday_of(tm->tm_year);
while (i++ <= tm->tm_yday) {
if (week_offset++ >= 6)
week_offset = 0;
}
tm->tm_wday = week_offset;
}
}
return (char *)bp;
}
static const unsigned char *
conv_num(const unsigned char *buf, int *dest, unsigned llim, unsigned ulim)
{
unsigned result = 0;
unsigned char ch;
/* The limit also determines the number of valid digits. */
unsigned rulim = ulim;
ch = *buf;
if (ch < '0' || ch > '9')
return NULL;
do {
result *= 10;
result += ch - '0';
rulim /= 10;
ch = *++buf;
} while ((result * 10 <= ulim) && rulim && ch >= '0' && ch <= '9');
if (result < llim || result > ulim)
return NULL;
*dest = result;
return buf;
}
static const unsigned char *
find_string(const unsigned char *bp, int *tgt, const char * const *n1,
const char * const *n2, int c)
{
int i;
size_t len;
/* check full name - then abbreviated ones */
for (; n1 != NULL; n1 = n2, n2 = NULL) {
for (i = 0; i < c; i++, n1++) {
len = strlen(*n1);
if (g_ascii_strncasecmp(*n1, (const char *)bp, len) == 0) {
*tgt = i;
return bp + len;
}
}
}
/* Nothing matched */
return NULL;
}
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