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2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 2481 2482 2483 2484 2485 2486 2487 2488 2489 2490 2491 2492 2493 2494 2495 2496 2497 2498 2499 2500 2501 2502 2503 2504 2505 2506 2507 2508 2509 2510 2511 2512 2513 2514 2515 2516 2517 2518 2519 2520 2521 2522 2523 2524 2525 2526 2527 2528 2529 2530 2531 2532 2533 2534 2535 2536 2537 2538 2539 2540 2541 | /* Copyright (C) 2002-2004 Manuel Novoa III <mjn3@codepoet.org>
*
* GNU Library General Public License (LGPL) version 2 or later.
*
* Dedicated to Toni. See uClibc/DEDICATION.mjn3 for details.
*/
/* June 15, 2002 Initial Notes:
*
* Note: It is assumed throught that time_t is either long or unsigned long.
* Similarly, clock_t is assumed to be long int.
*
* Warning: Assumptions are made about the layout of struct tm! It is
* assumed that the initial fields of struct tm are (in order):
* tm_sec, tm_min, tm_hour, tm_mday, tm_mon, tm_year, tm_wday, tm_yday
*
* Reached the inital goal of supporting the ANSI/ISO C99 time functions
* as well as SUSv3's strptime. All timezone info is obtained from the
* TZ env variable.
*
* Differences from glibc worth noting:
*
* Leap seconds are not considered here.
*
* glibc stores additional timezone info the struct tm, whereas we don't.
*
* Alternate digits and era handling are not currently implemented.
* The modifiers are accepted, and tested for validity with the following
* specifier, but are ignored otherwise.
*
* strftime does not implement glibc extension modifiers or widths for
* conversion specifiers. However it does implement the glibc
* extension specifiers %l, %k, and %s. It also recognizes %P, but
* treats it as a synonym for %p; i.e. doesn't convert to lower case.
*
* strptime implements the glibc extension specifiers. However, it follows
* SUSv3 in requiring at least one non-alphanumeric char between
* conversion specifiers. Also, strptime only sets struct tm fields
* for which format specifiers appear and does not try to infer other
* fields (such as wday) as glibc's version does.
*
* TODO - Since glibc's %l and %k can space-pad their output in strftime,
* it might be reasonable to eat whitespace first for those specifiers.
* This could be done by pushing " %I" and " %H" respectively so that
* leading whitespace is consumed. This is really only an issue if %l
* or %k occurs at the start of the format string.
*
* TODO - Implement getdate? tzfile? struct tm extensions?
*
* TODO - Rework _time_mktime to remove the dependency on long long.
*/
/* Oct 28, 2002
*
* Fixed allowed char check for std and dst TZ fields.
*
* Added several options concerned with timezone support. The names will
* probably change once Erik gets the new config system in place.
*
* Defining __TIME_TZ_FILE causes tzset() to attempt to read the TZ value
* from the file /etc/TZ if the TZ env variable isn't set. The file contents
* must be the intended value of TZ, followed by a newline. No other chars,
* spacing, etc is allowed. As an example, an easy way for me to init
* /etc/TZ appropriately would be: echo CST6CDT > /etc/TZ
*
* Defining __TIME_TZ_FILE_ONCE will cause all further accesses of /etc/TZ
* to be skipped once a legal value has been read.
*
* Defining __TIME_TZ_OPT_SPEED will cause a tzset() to keep a copy of the
* last TZ setting string and do a "fast out" if the current string is the
* same.
*
* Nov 21, 2002 Fix an error return case in _time_mktime.
*
* Nov 26, 2002 Fix bug in setting daylight and timezone when no (valid) TZ.
* Bug reported by Arne Bernin <arne@alamut.de> in regards to freeswan.
*
* July 27, 2003 Adjust the struct tm extension field support.
* Change __tm_zone back to a ptr and add the __tm_tzname[] buffer for
* __tm_zone to point to. This gets around complaints from g++.
* Who knows... it might even fix the PPC timezone init problem.
*
* July 29, 2003 Fix a bug in mktime behavior when tm_isdst was -1.
* Bug reported by "Sid Wade" <sid@vivato.net> in regards to busybox.
*
* NOTE: uClibc mktime behavior is different than glibc's when
* the struct tm has tm_isdst == -1 and also had fields outside of
* the normal ranges.
*
* Apparently, glibc examines (at least) tm_sec and guesses the app's
* intention of assuming increasing or decreasing time when entering an
* ambiguous time period at the dst<->st boundaries.
*
* The uClibc behavior is to always normalize the struct tm and then
* try to determing the dst setting.
*
* As long as tm_isdst != -1 or the time specifiec by struct tm is
* unambiguous (not falling in the dst<->st transition region) both
* uClibc and glibc should produce the same result for mktime.
*
* Oct 31, 2003 Kill the seperate __tm_zone and __tm_tzname[] and which
* doesn't work if you want the memcpy the struct. Sigh... I didn't
* think about that. So now, when the extensions are enabled, we
* malloc space when necessary and keep the timezone names in a linked
* list.
*
* Fix a dst-related bug which resulted in use of uninitialized data.
*
* Nov 15, 2003 I forgot to update the thread locking in the last dst fix.
*
* Dec 14, 2003 Fix some dst issues in _time_mktime().
* Normalize the tm_isdst value to -1, 0, or 1.
* If no dst for this timezone, then reset tm_isdst to 0.
*
* May 7, 2004
* Change clock() to allow wrapping.
* Add timegm() function.
* Make lookup_tzname() static (as it should have been).
* Have strftime() get timezone information from the passed struct
* for the %z and %Z conversions when using struct tm extensions.
*
* Jul 24, 2004
* Fix 2 bugs in strftime related to glibc struct tm extensions.
* 1) Need to negate tm_gmtoff field value when used. (bug 336).
* 2) Deal with NULL ptr case for tm_zone field, which was causing
* segfaults in both the NIST/PCTS tests and the Python 2.4.1
* self-test suite.
* NOTE: We set uninitialized timezone names to "???", and this
* differs (intentionally) from glibc's behavior.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#include <time.h>
#include <sys/time.h>
#include <limits.h>
#include <assert.h>
#include <errno.h>
#include <ctype.h>
#include <langinfo.h>
#include <locale.h>
#include <fcntl.h>
#include <unistd.h>
#include <bits/uClibc_uintmaxtostr.h>
#include <bits/uClibc_mutex.h>
#if defined __UCLIBC_HAS_WCHAR__ && (defined L_wcsftime || defined L_wcsftime_l)
#include <wchar.h>
# define CHAR_T wchar_t
# define UCHAR_T unsigned int
# ifdef L_wcsftime
# define strftime wcsftime
# define L_strftime
# if defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE)
# define strftime_l wcsftime_l
# endif
# endif
# ifdef L_wcsftime_l
# define strftime_l wcsftime_l
# define L_strftime_l
# endif
#else
# define CHAR_T char
# define UCHAR_T unsigned char
#endif
#ifndef __isleap
#define __isleap(y) ( !((y) % 4) && ( ((y) % 100) || !((y) % 400) ) )
#endif
#ifndef TZNAME_MAX
#define TZNAME_MAX _POSIX_TZNAME_MAX
#endif
#if defined (L_tzset) || defined (L_localtime_r) || defined(L_strftime) || \
defined(L__time_mktime) || defined(L__time_mktime_tzi) || \
((defined(L_strftime) || defined(L_strftime_l)) && \
defined(__UCLIBC_HAS_XLOCALE__))
void _time_tzset(int use_old_rules) attribute_hidden;
#ifndef L__time_mktime
/* Jan 1, 2007 Z - tm = 0,0,0,1,0,107,1,0,0 */
static const time_t new_rule_starts = 1167609600;
#endif
#endif
/**********************************************************************/
/* The era code is currently unfinished. */
/* #define ENABLE_ERA_CODE */
#define TZ_BUFLEN (2*TZNAME_MAX + 56)
#ifdef __UCLIBC_HAS_TZ_FILE__
#include <sys/stat.h>
#include "paths.h"
/* ":<tzname>+hh:mm:ss<tzname>+hh:mm:ss,Mmm.w.d/hh:mm:ss,Mmm.w.d/hh:mm:ss" + nul */
/* 1 + 2*(1+TZNAME_MAX+1 + 9 + 7 + 9) + 1 = 2*TZNAME_MAX + 56 */
#else /* __UCLIBC_HAS_TZ_FILE__ */
/* Probably no longer needed. */
#undef __UCLIBC_HAS_TZ_FILE_READ_MANY__
#endif /* __UCLIBC_HAS_TZ_FILE__ */
/**********************************************************************/
extern struct tm __time_tm attribute_hidden;
typedef struct {
long gmt_offset;
long dst_offset;
short day; /* for J or normal */
short week;
short month;
short rule_type; /* J, M, \0 */
char tzname[TZNAME_MAX+1];
} rule_struct;
__UCLIBC_MUTEX_EXTERN(_time_tzlock) attribute_hidden;
extern rule_struct _time_tzinfo[2] attribute_hidden;
extern struct tm *_time_t2tm(const time_t *__restrict timer,
int offset, struct tm *__restrict result) attribute_hidden;
extern time_t _time_mktime(struct tm *timeptr, int store_on_success) attribute_hidden;
extern struct tm *__time_localtime_tzi(const time_t *__restrict timer,
struct tm *__restrict result,
rule_struct *tzi) attribute_hidden;
extern time_t _time_mktime_tzi(struct tm *timeptr, int store_on_success,
rule_struct *tzi) attribute_hidden;
/**********************************************************************/
#ifdef L_asctime
static char __time_str[26];
char *asctime(const struct tm *ptm)
{
return asctime_r(ptm, __time_str);
}
libc_hidden_def(asctime)
#endif
/**********************************************************************/
#ifdef L_asctime_r
/* Strictly speaking, this implementation isn't correct. ANSI/ISO specifies
* that the implementation of asctime() be equivalent to
*
* char *asctime(const struct tm *timeptr)
* {
* static char wday_name[7][3] = {
* "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"
* };
* static char mon_name[12][3] = {
* "Jan", "Feb", "Mar", "Apr", "May", "Jun",
* "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"
* };
* static char result[26];
*
* sprintf(result, "%.3s %.3s%3d %.2d:%.2d:%.2d %d\n",
* wday_name[timeptr->tm_wday],
* mon_name[timeptr->tm_mon],
* timeptr->tm_mday, timeptr->tm_hour,
* timeptr->tm_min, timeptr->tm_sec,
* 1900 + timeptr->tm_year);
* return result;
* }
*
* but the above is either inherently unsafe, or carries with it the implicit
* assumption that all fields of timeptr fall within their usual ranges, and
* that the tm_year value falls in the range [-2899,8099] to avoid overflowing
* the static buffer.
*
* If we take the implicit assumption as given, then the implementation below
* is still incorrect for tm_year values < -900, as there will be either
* 0-padding and/or a missing negative sign for the year conversion . But given
* the usual use of asctime(), I think it isn't unreasonable to restrict correct
* operation to the domain of years between 1000 and 9999.
*/
/* This is generally a good thing, but if you're _sure_ any data passed will be
* in range, you can #undef this. */
#define SAFE_ASCTIME_R 1
static const unsigned char at_data[] = {
'S', 'u', 'n', 'M', 'o', 'n', 'T', 'u', 'e', 'W', 'e', 'd',
'T', 'h', 'u', 'F', 'r', 'i', 'S', 'a', 't',
'J', 'a', 'n', 'F', 'e', 'b', 'M', 'a', 'r', 'A', 'p', 'r',
'M', 'a', 'y', 'J', 'u', 'n', 'J', 'u', 'l', 'A', 'u', 'g',
'S', 'e', 'p', 'O', 'c', 't', 'N', 'o', 'v', 'D', 'e', 'c',
#ifdef SAFE_ASCTIME_R
'?', '?', '?',
#endif
' ', '?', '?', '?',
' ', '0',
offsetof(struct tm, tm_mday),
' ', '0',
offsetof(struct tm, tm_hour),
':', '0',
offsetof(struct tm, tm_min),
':', '0',
offsetof(struct tm, tm_sec),
' ', '?', '?', '?', '?', '\n', 0
};
char *asctime_r(register const struct tm *__restrict ptm,
register char *__restrict buffer)
{
int tmp;
assert(ptm);
assert(buffer);
#ifdef SAFE_ASCTIME_R
memcpy(buffer, at_data + 3*(7 + 12), sizeof(at_data) - 3*(7 + 12));
if (((unsigned int)(ptm->tm_wday)) <= 6) {
memcpy(buffer, at_data + 3 * ptm->tm_wday, 3);
}
if (((unsigned int)(ptm->tm_mon)) <= 11) {
memcpy(buffer + 4, at_data + 3*7 + 3 * ptm->tm_mon, 3);
}
#else
assert(((unsigned int)(ptm->tm_wday)) <= 6);
assert(((unsigned int)(ptm->tm_mon)) <= 11);
memcpy(buffer, at_data + 3*(7 + 12) - 3, sizeof(at_data) + 3 - 3*(7 + 12));
memcpy(buffer, at_data + 3 * ptm->tm_wday, 3);
memcpy(buffer + 4, at_data + 3*7 + 3 * ptm->tm_mon, 3);
#endif
#ifdef SAFE_ASCTIME_R
buffer += 19;
tmp = ptm->tm_year + 1900;
if (((unsigned int) tmp) < 10000) {
buffer += 4;
do {
*buffer = '0' + (tmp % 10);
tmp /= 10;
} while (*--buffer == '?');
}
/* Not sure if we should even bother ...
} else {
__set_errno(EOVERFLOW);
return NULL;
}
*/
#else /* SAFE_ASCTIME_R */
buffer += 23;
tmp = ptm->tm_year + 1900;
assert( ((unsigned int) tmp) < 10000 );
/* Not sure if we should even bother ...
if ( ((unsigned int) tmp) >= 10000 ) {
__set_errno(EOVERFLOW);
return NULL;
}
*/
do {
*buffer = '0' + (tmp % 10);
tmp /= 10;
} while (*--buffer == '?');
#endif /* SAFE_ASCTIME_R */
do {
--buffer;
tmp = *((int *)(((const char *) ptm) + (int) *buffer));
#ifdef SAFE_ASCTIME_R
if (((unsigned int) tmp) >= 100) { /* Just check 2 digit non-neg. */
buffer[-1] = *buffer = '?';
} else
#else
assert(((unsigned int) tmp) < 100); /* Just check 2 digit non-neg. */
#endif
{
*buffer = '0' + (tmp % 10);
#ifdef __BCC__
buffer[-1] = '0' + (tmp/10);
#else
buffer[-1] += (tmp/10);
#endif
}
} while ((buffer -= 2)[-2] == '0');
if (*++buffer == '0') { /* Space-pad day of month. */
*buffer = ' ';
}
return buffer - 8;
}
libc_hidden_def(asctime_r)
#endif
/**********************************************************************/
#ifdef L_clock
#include <sys/times.h>
#ifndef __BCC__
#if CLOCKS_PER_SEC != 1000000L
#error unexpected value for CLOCKS_PER_SEC!
#endif
#endif
#ifdef __UCLIBC_CLK_TCK_CONST
# if __UCLIBC_CLK_TCK_CONST > CLOCKS_PER_SEC
# error __UCLIBC_CLK_TCK_CONST > CLOCKS_PER_SEC!
# elif __UCLIBC_CLK_TCK_CONST < 1
# error __UCLIBC_CLK_TCK_CONST < 1!
# endif
#endif
/* Note: SUSv3 notes
*
* On XSI-conformant systems, CLOCKS_PER_SEC is defined to be one million.
*
* The value returned by clock() may wrap around on some implementations.
* For example, on a machine with 32-bit values for clock_t, it wraps
* after 2147 seconds.
*
* This implies that we should bitwise and with LONG_MAX.
*/
clock_t clock(void)
{
struct tms xtms;
unsigned long t;
times(&xtms);
t = ((unsigned long) xtms.tms_utime) + xtms.tms_stime;
#ifndef __UCLIBC_CLK_TCK_CONST
# error __UCLIBC_CLK_TCK_CONST not defined!
#elif ((CLOCKS_PER_SEC % __UCLIBC_CLK_TCK_CONST) == 0)
/* CLOCKS_PER_SEC == k * __UCLIBC_CLK_TCK_CONST for some integer k >= 1. */
return ((t * (CLOCKS_PER_SEC/__UCLIBC_CLK_TCK_CONST)) & LONG_MAX);
#else
/* Unlike the previous case, the scaling factor is not an integer.
* So when tms_utime, tms_stime, or their sum wraps, some of the
* "visible" bits in the return value are affected. Nothing we
* can really do about this though other than handle tms_utime and
* tms_stime seperately and then sum. But since that doesn't really
* buy us much, we don't bother. */
return ((((t / __UCLIBC_CLK_TCK_CONST) * CLOCKS_PER_SEC)
+ ((((t % __UCLIBC_CLK_TCK_CONST) * CLOCKS_PER_SEC)
/ __UCLIBC_CLK_TCK_CONST))
) & LONG_MAX);
#endif
}
#endif
/**********************************************************************/
#ifdef L_ctime
char *ctime(const time_t *t)
{
/* ANSI/ISO/SUSv3 say that ctime is equivalent to the following:
* return asctime(localtime(t));
* I don't think "equivalent" means "it uses the same internal buffer",
* it means "gives the same resultant string".
*
* I doubt anyone ever uses weird code like:
* struct tm *ptm = localtime(t1); ...; ctime(t2); use(ptm);
* which relies on the assumption that ctime's and localtime's
* internal static struct tm is the same.
*
* Using localtime_r instead of localtime avoids linking in
* localtime's static buffer:
*/
struct tm xtm;
memset(&xtm, 0, sizeof(xtm));
return asctime(localtime_r(t, &xtm));
}
libc_hidden_def(ctime)
#endif
/**********************************************************************/
#ifdef L_ctime_r
char *ctime_r(const time_t *t, char *buf)
{
struct tm xtm;
return asctime_r(localtime_r(t, &xtm), buf);
}
#endif
/**********************************************************************/
#ifdef L_difftime
#include <float.h>
#if FLT_RADIX != 2
#error difftime implementation assumptions violated for you arch!
#endif
double difftime(time_t time1, time_t time0)
{
#if (LONG_MAX >> DBL_MANT_DIG) == 0
/* time_t fits in the mantissa of a double. */
return (double)time1 - (double)time0;
#elif ((LONG_MAX >> DBL_MANT_DIG) >> DBL_MANT_DIG) == 0
/* time_t can overflow the mantissa of a double. */
time_t t1, t0, d;
d = ((time_t) 1) << DBL_MANT_DIG;
t1 = time1 / d;
time1 -= (t1 * d);
t0 = time0 / d;
time0 -= (t0*d);
/* Since FLT_RADIX==2 and d is a power of 2, the only possible
* rounding error in the expression below would occur from the
* addition. */
return (((double) t1) - t0) * d + (((double) time1) - time0);
#else
#error difftime needs special implementation on your arch.
#endif
}
#endif
/**********************************************************************/
#ifdef L_gmtime
struct tm *gmtime(const time_t *timer)
{
register struct tm *ptm = &__time_tm;
_time_t2tm(timer, 0, ptm); /* Can return NULL... */
return ptm;
}
#endif
/**********************************************************************/
#ifdef L_gmtime_r
struct tm *gmtime_r(const time_t *__restrict timer,
struct tm *__restrict result)
{
return _time_t2tm(timer, 0, result);
}
#endif
/**********************************************************************/
#ifdef L_localtime
struct tm *localtime(const time_t *timer)
{
register struct tm *ptm = &__time_tm;
/* In this implementation, tzset() is called by localtime_r(). */
localtime_r(timer, ptm); /* Can return NULL... */
return ptm;
}
libc_hidden_def(localtime)
#endif
/**********************************************************************/
#ifdef L_localtime_r
struct tm *localtime_r(register const time_t *__restrict timer,
register struct tm *__restrict result)
{
__UCLIBC_MUTEX_LOCK(_time_tzlock);
_time_tzset(*timer < new_rule_starts);
__time_localtime_tzi(timer, result, _time_tzinfo);
__UCLIBC_MUTEX_UNLOCK(_time_tzlock);
return result;
}
libc_hidden_def(localtime_r)
#endif
/**********************************************************************/
#ifdef L__time_localtime_tzi
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
struct ll_tzname_item;
typedef struct ll_tzname_item {
struct ll_tzname_item *next;
char tzname[1];
} ll_tzname_item_t;
/* Structures form a list "UTC" -> "???" -> "tzname1" -> "tzname2"... */
static struct {
struct ll_tzname_item *next;
char tzname[4];
} ll_tzname_UNKNOWN = { NULL, "???" };
static const struct {
struct ll_tzname_item *next;
char tzname[4];
} ll_tzname_UTC = { (void*)&ll_tzname_UNKNOWN, "UTC" };
static const char *lookup_tzname(const char *key)
{
int len;
ll_tzname_item_t *p = (void*) &ll_tzname_UTC;
do {
if (strcmp(p->tzname, key) == 0)
return p->tzname;
p = p->next;
} while (p != NULL);
/* Hmm... a new name. */
len = strnlen(key, TZNAME_MAX+1);
if (len < TZNAME_MAX+1) { /* Verify legal length */
p = malloc(sizeof(ll_tzname_item_t) + len);
if (p != NULL) {
/* Insert as 3rd item in the list. */
p->next = ll_tzname_UNKNOWN.next;
ll_tzname_UNKNOWN.next = p;
return strcpy(p->tzname, key);
}
}
/* Either invalid or couldn't alloc. */
return ll_tzname_UNKNOWN.tzname;
}
#endif /* __UCLIBC_HAS_TM_EXTENSIONS__ */
static const unsigned char day_cor[] = { /* non-leap */
31, 31, 34, 34, 35, 35, 36, 36, 36, 37, 37, 38, 38
/* 0, 0, 3, 3, 4, 4, 5, 5, 5, 6, 6, 7, 7 */
/* 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 */
};
/* Note: timezone locking is done by localtime_r. */
static int tm_isdst(register const struct tm *__restrict ptm,
register rule_struct *r)
{
long sec;
int i, isdst, isleap, day, day0, monlen, mday;
int oday = oday; /* ok to be uninitialized, shutting up compiler warning */
isdst = 0;
if (r[1].tzname[0] != 0) {
/* First, get the current seconds offset from the start of the year.
* Fields of ptm are assumed to be in their normal ranges. */
sec = ptm->tm_sec
+ 60 * (ptm->tm_min
+ 60 * (long)(ptm->tm_hour
+ 24 * ptm->tm_yday));
/* Do some prep work. */
i = (ptm->tm_year % 400) + 1900; /* Make sure we don't overflow. */
isleap = __isleap(i);
--i;
day0 = (1
+ i /* Normal years increment 1 wday. */
+ (i/4)
- (i/100)
+ (i/400) ) % 7;
i = 0;
do {
day = r->day; /* Common for 'J' and # case. */
if (r->rule_type == 'J') {
if (!isleap || (day < (31+29))) {
--day;
}
} else if (r->rule_type == 'M') {
/* Find 0-based day number for 1st of the month. */
day = 31 * r->month - day_cor[r->month - 1];
if (isleap && (day >= 59)) {
++day;
}
monlen = 31 + day_cor[r->month - 1] - day_cor[r->month];
if (isleap && (r->month == 2)) {
++monlen;
}
/* Weekday (0 is Sunday) of 1st of the month
* is (day0 + day) % 7. */
mday = r->day - ((day0 + day) % 7);
if (mday >= 0) {
mday -= 7; /* Back up into prev month since r->week > 0. */
}
mday += 7 * r->week;
if (mday >= monlen) {
mday -= 7;
}
/* So, 0-based day number is... */
day += mday;
}
if (i != 0) {
/* Adjust sec since dst->std change time is in dst. */
sec += (r[-1].gmt_offset - r->gmt_offset);
if (oday > day) {
++isdst; /* Year starts in dst. */
}
}
oday = day;
/* Now convert day to seconds and add offset and compare. */
if (sec >= (day * 86400L) + r->dst_offset) {
++isdst;
}
++r;
} while (++i < 2);
}
return (isdst & 1);
}
struct tm attribute_hidden *__time_localtime_tzi(register const time_t *__restrict timer,
register struct tm *__restrict result,
rule_struct *tzi)
{
time_t x[1];
long offset;
int days, dst;
dst = 0;
do {
days = -7;
offset = 604800L - tzi[dst].gmt_offset;
if (*timer > (LONG_MAX - 604800L)) {
days = -days;
offset = -offset;
}
*x = *timer + offset;
_time_t2tm(x, days, result);
result->tm_isdst = dst;
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
# ifdef __USE_BSD
result->tm_gmtoff = - tzi[dst].gmt_offset;
result->tm_zone = lookup_tzname(tzi[dst].tzname);
# else
result->__tm_gmtoff = - tzi[dst].gmt_offset;
result->__tm_zone = lookup_tzname(tzi[dst].tzname);
# endif
#endif /* __UCLIBC_HAS_TM_EXTENSIONS__ */
} while ((++dst < 2)
&& ((result->tm_isdst = tm_isdst(result, tzi)) != 0));
return result;
}
#endif
/**********************************************************************/
#ifdef L_mktime
time_t mktime(struct tm *timeptr)
{
return _time_mktime(timeptr, 1);
}
/* Another name for `mktime'. */
/* time_t timelocal(struct tm *tp) */
strong_alias(mktime,timelocal)
#endif
/**********************************************************************/
#ifdef L_timegm
/* Like `mktime' but timeptr represents Universal Time, not local time. */
time_t timegm(struct tm *timeptr)
{
rule_struct gmt_tzinfo[2];
memset(gmt_tzinfo, 0, sizeof(gmt_tzinfo));
strcpy(gmt_tzinfo[0].tzname, "GMT"); /* Match glibc behavior here. */
return _time_mktime_tzi(timeptr, 1, gmt_tzinfo);
}
#endif
/**********************************************************************/
#if defined(L_strftime) || defined(L_strftime_l) \
|| defined(L_wcsftime) || defined(L_wcsftime_l)
#if defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE)
size_t strftime(CHAR_T *__restrict s, size_t maxsize,
const CHAR_T *__restrict format,
const struct tm *__restrict timeptr)
{
return strftime_l(s, maxsize, format, timeptr, __UCLIBC_CURLOCALE);
}
#else /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
#define NO_E_MOD 0x80
#define NO_O_MOD 0x40
#define ILLEGAL_SPEC 0x3f
#define INT_SPEC 0x00 /* must be 0x00!! */
#define STRING_SPEC 0x10 /* must be 0x10!! */
#define CALC_SPEC 0x20
#define STACKED_SPEC 0x30
#define MASK_SPEC 0x30
/* Compatibility:
*
* No alternate digit (%O?) handling. Always uses 0-9.
* Alternate locale format (%E?) handling is broken for nontrivial ERAs.
* glibc's %P is currently faked by %p. This means it doesn't do lower case.
* glibc's %k, %l, and %s are handled.
* glibc apparently allows (and ignores) extraneous 'E' and 'O' modifiers,
* while they are flagged as illegal conversions here.
*/
/* Warning: Assumes ASCII values! (as do lots of other things in the lib...) */
static const unsigned char spec[] = {
/* A */ 0x03 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* B */ 0x04 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* C */ 0x0a | INT_SPEC | NO_O_MOD,
/* D */ 0x02 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* E */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* F */ 0x03 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* G */ 0x03 | CALC_SPEC | NO_E_MOD | NO_O_MOD,
/* H */ 0x0b | INT_SPEC | NO_E_MOD,
/* I */ 0x0c | INT_SPEC | NO_E_MOD,
/* J */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* K */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* L */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* M */ 0x0d | INT_SPEC | NO_E_MOD,
/* N */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* O */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* P */ 0x05 | STRING_SPEC | NO_E_MOD | NO_O_MOD, /* glibc ; use %p */
/* Q */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* R */ 0x04 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* S */ 0x0e | INT_SPEC | NO_E_MOD,
/* T */ 0x05 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* U */ 0x04 | CALC_SPEC | NO_E_MOD,
/* V */ 0x05 | CALC_SPEC | NO_E_MOD,
/* W */ 0x06 | CALC_SPEC | NO_E_MOD,
/* X */ 0x0a | STACKED_SPEC | NO_O_MOD,
/* Y */ 0x0f | INT_SPEC | NO_O_MOD,
/* Z */ 0x01 | CALC_SPEC | NO_E_MOD | NO_O_MOD,
'?', /* 26 */
'?', /* 27 */
'?', /* 28 */
'?', /* 29 */
0, /* 30 */
0, /* 31 */
/* a */ 0x00 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* b */ 0x01 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* c */ 0x08 | STACKED_SPEC | NO_O_MOD,
/* d */ 0x00 | INT_SPEC | NO_E_MOD,
/* e */ 0x01 | INT_SPEC | NO_E_MOD,
/* f */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* g */ 0x02 | CALC_SPEC | NO_E_MOD | NO_O_MOD,
/* h */ 0x01 | STRING_SPEC | NO_E_MOD | NO_O_MOD, /* same as b */
/* i */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* j */ 0x08 | INT_SPEC | NO_E_MOD | NO_O_MOD,
/* k */ 0x03 | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* l */ 0x04 | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* m */ 0x05 | INT_SPEC | NO_E_MOD,
/* n */ 0x00 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* o */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* p */ 0x02 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* q */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* r */ 0x0b | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* s */ 0x07 | CALC_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* t */ 0x01 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* u */ 0x07 | INT_SPEC | NO_E_MOD,
/* v */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* w */ 0x02 | INT_SPEC | NO_E_MOD,
/* x */ 0x09 | STACKED_SPEC | NO_O_MOD,
/* y */ 0x09 | INT_SPEC,
/* z */ 0x00 | CALC_SPEC | NO_E_MOD | NO_O_MOD,
/* WARNING!!! These are dependent on the layout of struct tm!!! */
#define FIELD_MAX (26+6+26)
60 /* 61? */, 59, 23, 31, 11, 0 /* 9999 */, 6, 0 /* 365 */,
#define TP_OFFSETS (FIELD_MAX+8)
3, /* d */
3, /* e */
6, /* w */
2, /* k */
2, /* l */
4, /* m */
0, /* CURRENTLY UNUSED */
/* NOTE: u,j,y order must be preserved as 6,7,5 seq is used in the code! */
#define CALC_OFFSETS (TP_OFFSETS + 7)
6, /* u */
7, /* j */
5, /* y */
5, /* C */
2, /* H */
2, /* I */
1, /* M */
0, /* S */
5, /* Y */
6, /* a */
4, /* b, h */
2, /* p */
6, /* A */
4, /* B */
2, /* P */
#define TP_CODES (TP_OFFSETS + 16 + 6)
2 | 16, /* d */
2, /* e */
0 | 16, /* w */
2, /* k */
2 | 32 | 0, /* l */
2 | 16 | 1, /* m */
0, /* CURRENTLY UNUSED */
0 | 16 | 8 , /* u */
4 | 16 | 1, /* j */
2 | 128 | 32 | 16 , /* y */
2 | 128 | 64 | 32 | 16 , /* C */
2 | 16, /* H */
2 | 32 | 16 | 0, /* I */
2 | 16, /* M */
2 | 16, /* S */
6 | 16, /* Y */
2, /* a */
2, /* b, h */
2 | 64, /* p */
2, /* A */
2, /* B */
2 | 64, /* P */
#define STRINGS_NL_ITEM_START (TP_CODES + 16 + 6)
_NL_ITEM_INDEX(ABDAY_1), /* a */
_NL_ITEM_INDEX(ABMON_1), /* b, h */
_NL_ITEM_INDEX(AM_STR), /* p */
_NL_ITEM_INDEX(DAY_1), /* A */
_NL_ITEM_INDEX(MON_1), /* B */
_NL_ITEM_INDEX(AM_STR), /* P -- wrong! need lower case */
#define STACKED_STRINGS_START (STRINGS_NL_ITEM_START+6)
6, 7, 8, 16, 24, 29, /* 6 - offsets from offset-count to strings */
'\n', 0, /* 2 */
'\t', 0, /* 2 */
'%', 'm', '/', '%', 'd', '/', '%', 'y', 0, /* 9 - %D */
'%', 'Y', '-', '%', 'm', '-', '%', 'd', 0, /* 9 - %F (glibc extension) */
'%', 'H', ':', '%', 'M', 0, /* 6 - %R*/
'%', 'H', ':', '%', 'M', ':', '%', 'S', 0, /* 9 - %T */
#define STACKED_STRINGS_NL_ITEM_START (STACKED_STRINGS_START + 43)
_NL_ITEM_INDEX(D_T_FMT), /* c */
_NL_ITEM_INDEX(D_FMT), /* x */
_NL_ITEM_INDEX(T_FMT), /* X */
_NL_ITEM_INDEX(T_FMT_AMPM), /* r */
#ifdef ENABLE_ERA_CODE
_NL_ITEM_INDEX(ERA_D_T_FMT), /* Ec */
_NL_ITEM_INDEX(ERA_D_FMT), /* Ex */
_NL_ITEM_INDEX(ERA_T_FMT), /* EX */
#endif
};
static int load_field(int k, const struct tm *__restrict timeptr)
{
int r;
int r_max;
r = ((int *) timeptr)[k];
r_max = spec[FIELD_MAX + k];
if (k == 7) {
r_max = 365;
} else if (k == 5) {
r += 1900;
r_max = 9999;
}
if ((((unsigned int) r) > r_max) || ((k == 3) && !r)) {
r = -1;
}
return r;
}
#if defined __UCLIBC_HAS_WCHAR__ && (defined L_wcsftime || defined L_wcsftime_l)
static wchar_t* fmt_to_wc_1(const char *src)
{
mbstate_t mbstate;
size_t src_len = strlen(src);
wchar_t *dest = (wchar_t *)malloc((src_len + 1) * sizeof(wchar_t));
if (dest == NULL)
return NULL;
mbstate.__mask = 0;
if (mbsrtowcs(dest, &src, src_len + 1, &mbstate) == (size_t) -1) {
free(dest);
return NULL;
}
return dest;
}
# define fmt_to_wc(dest, src) \
dest = alloc[++allocno] = fmt_to_wc_1(src)
# define to_wc(dest, src) \
dest = fmt_to_wc_1(src)
#else
# define fmt_to_wc(dest, src) (dest) = (src)
# define to_wc(dest, src) (dest) = (src)
#endif
#define MAX_PUSH 4
size_t __XL_NPP(strftime)(CHAR_T *__restrict s, size_t maxsize,
const CHAR_T *__restrict format,
const struct tm *__restrict timeptr __LOCALE_PARAM )
{
long tzo;
register const CHAR_T *p;
const CHAR_T *o;
const char *ccp;
#ifndef __UCLIBC_HAS_TM_EXTENSIONS__
const rule_struct *rsp;
#endif
const CHAR_T *stack[MAX_PUSH];
#if defined __UCLIBC_HAS_WCHAR__ && (defined L_wcsftime || defined L_wcsftime_l)
const CHAR_T *alloc[MAX_PUSH];
int allocno = -1;
#endif
size_t count;
size_t o_count;
int field_val = 0, i = 0, j, lvl;
int x[3]; /* wday, yday, year */
int isofm, days;
char buf[__UIM_BUFLEN_LONG] = {0,};
unsigned char mod;
unsigned char code;
/* We'll, let's get this out of the way. */
_time_tzset(_time_mktime((struct tm *) timeptr, 0) < new_rule_starts);
lvl = 0;
p = format;
count = maxsize;
LOOP:
if (!count) {
return 0;
}
if (!*p) {
if (lvl == 0) {
*s = 0; /* nul-terminate */
return maxsize - count;
}
p = stack[--lvl];
goto LOOP;
}
o_count = 1;
if ((*(o = (CHAR_T *)p) == '%') && (*++p != '%')) {
#if 0 /* TODO, same for strptime */
/* POSIX.1-2008 allows %0xY %+nY %-nY etc. for certain formats.
* Just accept these for all (for now) */
const int plus = *p == '+';
CHAR_T *q = (CHAR_T *)p;
long int o_width = __XL_NPP(strtol)(p, &q, 0 __LOCALE_ARG);
if (o_width > 0 && o_width < 256) { /* arbitrary upper limit */
o_count = o_width;
if (plus) {
*s++ = '+';
--count;
}
p = q;
} else {
o_count = 2;
}
#else
o_count = 2;
#endif
mod = ILLEGAL_SPEC;
if ((*p == 'O') || (*p == 'E')) { /* modifier */
mod |= ((*p == 'O') ? NO_O_MOD : NO_E_MOD);
++o_count;
++p;
}
if ((((unsigned char)(((*p) | 0x20) - 'a')) >= 26)
|| (((code = spec[(int)(*p - 'A')]) & mod) >= ILLEGAL_SPEC)
) {
if (!*p) {
--p;
--o_count;
}
goto OUTPUT;
}
code &= ILLEGAL_SPEC; /* modifiers are preserved in mod var. */
if ((code & MASK_SPEC) == STACKED_SPEC) {
if (lvl == MAX_PUSH) {
goto OUTPUT; /* Stack full so treat as illegal spec. */
}
stack[lvl++] = ++p;
if ((code &= 0xf) < 8) {
ccp = (const char *)(spec + STACKED_STRINGS_START + code);
ccp += *ccp;
fmt_to_wc(p, ccp);
goto LOOP;
}
ccp = (const char *)spec + STACKED_STRINGS_NL_ITEM_START + (code & 7);
fmt_to_wc(p, ccp);
#ifdef ENABLE_ERA_CODE
if ((mod & NO_E_MOD) /* Actually, this means E modifier present. */
&& (*(ccp = __XL_NPP(nl_langinfo)(_NL_ITEM(LC_TIME,
(int)(((unsigned char *)p)[4]))
__LOCALE_ARG
)))
) {
fmt_to_wc(p, ccp);
goto LOOP;
}
#endif
ccp = __XL_NPP(nl_langinfo)(_NL_ITEM(LC_TIME,
(int)(*((unsigned char *)p)))
__LOCALE_ARG
);
fmt_to_wc(p, ccp);
goto LOOP;
}
ccp = (const char *)(spec + 26); /* set to "????" */
if ((code & MASK_SPEC) == CALC_SPEC) {
if (*p == 's') {
time_t t;
/* Use a cast to silence the warning since *timeptr won't
* be changed. */
if ((t = _time_mktime((struct tm *) timeptr, 0))
== ((time_t) -1)
) {
o_count = 1;
goto OUTPUT;
}
#ifdef TIME_T_IS_UNSIGNED
ccp = _uintmaxtostr(buf + sizeof(buf) - 1,
(uintmax_t) t,
10, __UIM_DECIMAL);
#else
ccp = _uintmaxtostr(buf + sizeof(buf) - 1,
(uintmax_t) t,
-10, __UIM_DECIMAL);
#endif
o_count = sizeof(buf);
fmt_to_wc(o, ccp);
goto OUTPUT;
} else if (((*p) | 0x20) == 'z') { /* 'z' or 'Z' */
if (timeptr->tm_isdst < 0) {
/* SUSv3 specifies this behavior for 'z', but we'll also
* treat it as "no timezone info" for 'Z' too. */
o_count = 0;
goto OUTPUT;
}
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
# ifdef __USE_BSD
# define RSP_TZNAME timeptr->tm_zone
# define RSP_GMT_OFFSET (-timeptr->tm_gmtoff)
# else
# define RSP_TZNAME timeptr->__tm_zone
# define RSP_GMT_OFFSET (-timeptr->__tm_gmtoff)
# endif
#else
#define RSP_TZNAME rsp->tzname
#define RSP_GMT_OFFSET rsp->gmt_offset
__UCLIBC_MUTEX_LOCK(_time_tzlock);
rsp = _time_tzinfo;
if (timeptr->tm_isdst > 0) {
++rsp;
}
#endif
if (*p == 'Z') {
ccp = RSP_TZNAME;
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
/* Sigh... blasted glibc extensions. Of course we can't
* count on the pointer being valid. Best we can do is
* handle NULL, which looks to be all that glibc does.
* At least that catches the memset() with 0 case.
* NOTE: We handle this case differently than glibc!
* It uses system timezone name (based on tm_isdst) in this
* case... although it always seems to use the embedded
* tm_gmtoff value. What we'll do instead is treat the
* timezone name as unknown/invalid and return "???". */
if (!ccp) {
ccp = (const char *)(spec + 27); /* "???" */
}
#endif
assert(ccp != NULL);
#if 0
if (!ccp) { /* PARANOIA */
ccp = spec+30; /* empty string */
}
#endif
o_count = SIZE_MAX;
fmt_to_wc(o, ccp);
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
goto OUTPUT;
#endif
} else { /* z */
*s = '+';
if ((tzo = -RSP_GMT_OFFSET) < 0) {
tzo = -tzo;
*s = '-';
}
++s;
--count;
i = tzo / 60;
field_val = ((i / 60) * 100) + (i % 60);
i = 16 + 6; /* 0-fill, width = 4 */
}
#ifndef __UCLIBC_HAS_TM_EXTENSIONS__
__UCLIBC_MUTEX_UNLOCK(_time_tzlock);
if (*p == 'Z') {
goto OUTPUT;
}
#endif
} else {
/* TODO: don't need year for U, W */
for (i=0 ; i < 3 ; i++) {
if ((x[i] = load_field(spec[CALC_OFFSETS+i],timeptr)) < 0) {
goto OUTPUT;
}
}
i = 16 + 2; /* 0-fill, width = 2 */
if ((*p == 'U') || (*p == 'W')) {
field_val = ((x[1] - x[0]) + 7);
if (*p == 'W') {
++field_val;
}
field_val /= 7;
if ((*p == 'W') && !x[0]) {
--field_val;
}
} else { /* ((*p == 'g') || (*p == 'G') || (*p == 'V')) */
ISO_LOOP:
isofm = (((x[1] - x[0]) + 11) % 7) - 3; /* [-3,3] */
if (x[1] < isofm) { /* belongs to previous year */
--x[2];
x[1] += 365 + __isleap(x[2]);
goto ISO_LOOP;
}
field_val = ((x[1] - isofm) / 7) + 1; /* week # */
days = 365 + __isleap(x[2]);
isofm = ((isofm + 7*53 + 3 - days)) % 7 + days - 3; /* next year */
if (x[1] >= isofm) { /* next year */
x[1] -= days;
++x[2];
goto ISO_LOOP;
}
if (*p != 'V') { /* need year */
field_val = x[2]; /* TODO: what if x[2] now 10000 ?? */
if (*p == 'g') {
field_val %= 100;
} else {
i = 16 + 6; /* 0-fill, width = 4 */
}
}
}
}
} else {
i = TP_OFFSETS + (code & 0x1f);
if ((field_val = load_field(spec[i], timeptr)) < 0) {
goto OUTPUT;
}
i = spec[i+(TP_CODES - TP_OFFSETS)];
j = (i & 128) ? 100: 12;
if (i & 64) {
field_val /= j;
}
if (i & 32) {
field_val %= j;
if (((i & 128) + field_val) == 0) { /* mod 12? == 0 */
field_val = j; /* set to 12 */
}
}
field_val += (i & 1);
if ((i & 8) && !field_val) {
field_val += 7;
}
}
if ((code & MASK_SPEC) == STRING_SPEC) {
o_count = SIZE_MAX;
field_val += spec[STRINGS_NL_ITEM_START + (code & 0xf)];
ccp = __XL_NPP(nl_langinfo)(_NL_ITEM(LC_TIME, field_val) __LOCALE_ARG);
fmt_to_wc(o, ccp);
} else {
#if 0 /* TODO, same for strptime */
size_t min_count = ((i >> 1) & 3) + 1;
if (o_count < min_count)
o_count = min_count;
#else
o_count = ((i >> 1) & 3) + 1;
#endif
ccp = buf + o_count;
do {
*(char *)(--ccp) = '0' + (field_val % 10);
field_val /= 10;
} while (ccp > buf);
if (*buf == '0') {
*buf = ' ' + (i & 16);
}
fmt_to_wc(o, ccp);
}
}
OUTPUT:
++p;
while (o_count && count && *o) {
*s++ = *o++;
--o_count;
--count;
}
#if defined __UCLIBC_HAS_WCHAR__ && (defined L_wcsftime || defined L_wcsftime_l)
if (allocno >= 0)
free((void *)alloc[allocno--]);
#endif
goto LOOP;
}
# ifdef L_strftime_l
libc_hidden_def(strftime_l)
# endif
#endif /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
#endif
/**********************************************************************/
#if defined(L_strptime) || defined(L_strptime_l)
#define ISDIGIT(C) __isdigit_char((C))
#ifdef __UCLIBC_DO_XLOCALE
#define ISSPACE(C) isspace_l((C), locale_arg)
#else
#define ISSPACE(C) isspace((C))
#endif
#if defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE)
char *strptime(const char *__restrict buf, const char *__restrict format,
struct tm *__restrict tm)
{
return strptime_l(buf, format, tm, __UCLIBC_CURLOCALE);
}
#else /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
/* TODO:
* 1) %l and %k are space-padded, so "%l" by itself fails while " %l" succeeds.
* Both work for glibc. So, should we always strip spaces?
* 2) %Z
*/
/* Notes:
* There are several differences between this strptime and glibc's strptime.
* 1) glibc strips leading space before numeric conversions.
* 2) glibc will read fields without whitespace in between. SUSv3 states
* that you must have whitespace between conversion operators. Besides,
* how do you know how long a number should be if there are leading 0s?
* 3) glibc attempts to compute some the struct tm fields based on the
* data retrieved; tm_wday in particular. I don't as I consider it
* another glibc attempt at mind-reading...
*/
#define NO_E_MOD 0x80
#define NO_O_MOD 0x40
#define ILLEGAL_SPEC 0x3f
#define INT_SPEC 0x00 /* must be 0x00!! */
#define STRING_SPEC 0x10 /* must be 0x10!! */
#define CALC_SPEC 0x20
#define STACKED_SPEC 0x30
#define MASK_SPEC 0x30
/* Warning: Assumes ASCII values! (as do lots of other things in the lib...) */
static const unsigned char spec[] = {
/* A */ 0x02 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* B */ 0x01 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* C */ 0x08 | INT_SPEC | NO_O_MOD,
/* D */ 0x01 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* E */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* F */ 0x02 | STACKED_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* G */ 0x0f | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* H */ 0x06 | INT_SPEC | NO_E_MOD,
/* I */ 0x07 | INT_SPEC | NO_E_MOD,
/* J */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* K */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* L */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* M */ 0x04 | INT_SPEC | NO_E_MOD,
/* N */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* O */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* P */ 0x00 | STRING_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* Q */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* R */ 0x03 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* S */ 0x05 | INT_SPEC | NO_E_MOD,
/* T */ 0x04 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* U */ 0x0c | INT_SPEC | NO_E_MOD,
/* V */ 0x0d | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* W */ 0x0c | INT_SPEC | NO_E_MOD,
/* X */ 0x0a | STACKED_SPEC | NO_O_MOD,
/* Y */ 0x0a | INT_SPEC | NO_O_MOD,
/* Z */ 0x02 | CALC_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* WARNING! This assumes orderings:
* AM,PM
* ABDAY_1-ABDAY-7,DAY_1-DAY_7
* ABMON_1-ABMON_12,MON_1-MON12
* Also, there are exactly 6 bytes between 'Z' and 'a'.
*/
#define STRINGS_NL_ITEM_START (26)
_NL_ITEM_INDEX(AM_STR), /* p (P) */
_NL_ITEM_INDEX(ABMON_1), /* B, b */
_NL_ITEM_INDEX(ABDAY_1), /* A, a */
2,
24,
14,
/* a */ 0x02 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* b */ 0x01 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* c */ 0x08 | STACKED_SPEC | NO_O_MOD,
/* d */ 0x00 | INT_SPEC | NO_E_MOD,
/* e */ 0x00 | INT_SPEC | NO_E_MOD,
/* f */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* g */ 0x0e | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* h */ 0x01 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* i */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* j */ 0x01 | INT_SPEC | NO_E_MOD | NO_O_MOD,
/* k */ 0x06 | INT_SPEC | NO_E_MOD, /* glibc */
/* l */ 0x07 | INT_SPEC | NO_E_MOD, /* glibc */
/* m */ 0x02 | INT_SPEC | NO_E_MOD,
/* n */ 0x00 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* o */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* p */ 0x00 | STRING_SPEC | NO_E_MOD | NO_O_MOD,
/* q */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* r */ 0x0b | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* s */ 0x00 | CALC_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* t */ 0x00 | STACKED_SPEC | NO_E_MOD | NO_O_MOD,
/* u */ 0x0b | INT_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
/* v */ ILLEGAL_SPEC | NO_E_MOD | NO_O_MOD,
/* w */ 0x03 | INT_SPEC | NO_E_MOD,
/* x */ 0x09 | STACKED_SPEC | NO_O_MOD,
/* y */ 0x09 | INT_SPEC,
/* z */ 0x01 | CALC_SPEC | NO_E_MOD | NO_O_MOD, /* glibc */
#define INT_FIELD_START (26+6+26)
/* (field #) << 3 + lower bound (0|1) + correction 0:none, 2:-1, 4:-1900
* followed by upper bound prior to correction with 1=>366 and 2=>9999. */
/* d, e */ (3 << 3) + 1 + 0, 31,
/* j */ (7 << 3) + 1 + 2, /* 366 */ 1,
/* m */ (4 << 3) + 1 + 2, 12,
/* w */ (6 << 3) + 0 + 0, 6,
/* M */ (1 << 3) + 0 + 0, 59,
/* S */ 0 + 0 + 0, 60,
/* H (k) */ (2 << 3) + 0 + 0, 23,
/* I (l) */ (9 << 3) + 1 + 0, 12, /* goes with 8 -- am/pm */
/* C */ (10<< 3) + 0 + 0, 99,
/* y */ (11<< 3) + 0 + 0, 99,
/* Y */ (5 << 3) + 0 + 4, /* 9999 */ 2,
/* u */ (6 << 3) + 1 + 0, 7,
/* The following are processed and range-checked, but ignored otherwise. */
/* U, W */ (12<< 3) + 0 + 0, 53,
/* V */ (12<< 3) + 1 + 0, 53,
/* g */ (12<< 3) + 0 + 0, 99,
/* G */ (12<< 3) + 0 /*+ 4*/, /* 9999 */ 2, /* Note: -1 or 10000? */
#define STACKED_STRINGS_START (INT_FIELD_START+32)
5, 6, 14, 22, 27, /* 5 - offsets from offset-count to strings */
' ', 0, /* 2 - %n or %t */
'%', 'm', '/', '%', 'd', '/', '%', 'y', 0, /* 9 - %D */
'%', 'Y', '-', '%', 'm', '-', '%', 'd', 0, /* 9 - %F (glibc extension) */
'%', 'H', ':', '%', 'M', 0, /* 6 - %R*/
'%', 'H', ':', '%', 'M', ':', '%', 'S', 0, /* 9 - %T */
#define STACKED_STRINGS_NL_ITEM_START (STACKED_STRINGS_START + 40)
_NL_ITEM_INDEX(D_T_FMT), /* c */
_NL_ITEM_INDEX(D_FMT), /* x */
_NL_ITEM_INDEX(T_FMT), /* X */
_NL_ITEM_INDEX(T_FMT_AMPM), /* r */
#ifdef ENABLE_ERA_CODE
_NL_ITEM_INDEX(ERA_D_T_FMT), /* Ec */
_NL_ITEM_INDEX(ERA_D_FMT), /* Ex */
_NL_ITEM_INDEX(ERA_T_FMT), /* EX */
#endif
};
#define MAX_PUSH 4
char *__XL_NPP(strptime)(const char *__restrict buf, const char *__restrict format,
struct tm *__restrict tm __LOCALE_PARAM)
{
register const char *p;
char *o;
const char *stack[MAX_PUSH];
int i, j, lvl;
int fields[13];
unsigned char mod;
unsigned char code;
i = 0;
do {
fields[i] = INT_MIN;
} while (++i < 13);
lvl = 0;
p = format;
LOOP:
if (!*p) {
if (lvl == 0) { /* Done. */
if (fields[6] == 7) { /* Cleanup for %u here since just once. */
fields[6] = 0; /* Don't use mod in case unset. */
}
i = 0;
do { /* Store the values into tm. */
if (fields[i] != INT_MIN) {
((int *) tm)[i] = fields[i];
}
} while (++i < 8);
return (char *) buf; /* Success. */
}
p = stack[--lvl];
goto LOOP;
}
if ((*p == '%') && (*++p != '%')) {
mod = ILLEGAL_SPEC;
if ((*p == 'O') || (*p == 'E')) { /* Modifier? */
mod |= ((*p == 'O') ? NO_O_MOD : NO_E_MOD);
++p;
}
if (!*p
|| (((unsigned char)(((*p) | 0x20) - 'a')) >= 26)
|| (((code = spec[(int)(*p - 'A')]) & mod) >= ILLEGAL_SPEC)
) {
return NULL; /* Illegal spec. */
}
if ((code & MASK_SPEC) == STACKED_SPEC) {
if (lvl == MAX_PUSH) {
return NULL; /* Stack full so treat as illegal spec. */
}
stack[lvl++] = ++p;
if ((code &= 0xf) < 8) {
p = ((const char *) spec) + STACKED_STRINGS_START + code;
p += *((unsigned char *)p);
goto LOOP;
}
p = ((const char *) spec) + STACKED_STRINGS_NL_ITEM_START
+ (code & 7);
#ifdef ENABLE_ERA_CODE
if ((mod & NO_E_MOD) /* Actually, this means E modifier present. */
&& (*(o = __XL_NPP(nl_langinfo)(_NL_ITEM(LC_TIME,
(int)(((unsigned char *)p)[4]))
__LOCALE_ARG
)))
) {
p = o;
goto LOOP;
}
#endif
p = __XL_NPP(nl_langinfo)(_NL_ITEM(LC_TIME,
(int)(*((unsigned char *)p)))
__LOCALE_ARG
);
goto LOOP;
}
++p;
if ((code & MASK_SPEC) == STRING_SPEC) {
code &= 0xf;
j = spec[STRINGS_NL_ITEM_START + 3 + code];
i = _NL_ITEM(LC_TIME, spec[STRINGS_NL_ITEM_START + code]);
/* Go backwards to check full names before abreviations. */
do {
--j;
o = __XL_NPP(nl_langinfo)(i+j __LOCALE_ARG);
if (!__XL_NPP(strncasecmp)(buf, o, strlen(o) __LOCALE_ARG) && *o) {
do { /* Found a match. */
++buf;
} while (*++o);
if (!code) { /* am/pm */
fields[8] = j * 12;
if (fields[9] >= 0) { /* We have a previous %I or %l. */
fields[2] = fields[9] + fields[8];
}
} else { /* day (4) or month (6) */
fields[2 + (code << 1)]
= j % (spec[STRINGS_NL_ITEM_START + 3 + code] >> 1);
}
goto LOOP;
}
} while (j);
return NULL; /* Failed to match. */
}
if ((code & MASK_SPEC) == CALC_SPEC) {
if ((code &= 0xf) < 1) { /* s or z*/
time_t t;
o = (char *) buf;
i = errno;
__set_errno(0);
if (!ISSPACE(*buf)) { /* Signal an error if whitespace. */
#ifdef TIME_T_IS_UNSIGNED
t = __XL_NPP(strtoul)(buf, &o, 10 __LOCALE_ARG);
#else
t = __XL_NPP(strtol)(buf, &o, 10 __LOCALE_ARG);
#endif
}
if ((o == buf) || errno) { /* Not a number or overflow. */
return NULL;
}
__set_errno(i); /* Restore errno. */
buf = o;
if (!code) { /* s */
localtime_r(&t, tm); /* TODO: check for failure? */
i = 0;
do { /* Now copy values from tm to fields. */
fields[i] = ((int *) tm)[i];
} while (++i < 8);
}
}
/* TODO: glibc treats %Z as a nop. For now, do the same. */
goto LOOP;
}
assert((code & MASK_SPEC) == INT_SPEC);
{
register const unsigned char *x;
code &= 0xf;
x = spec + INT_FIELD_START + (code << 1);
if ((j = x[1]) < 3) { /* upper bound (inclusive) */
j = ((j==1) ? 366 : 9999);
}
i = -1;
while (ISDIGIT(*buf)) {
if (i < 0) {
i = 0;
}
if ((i = 10*i + (*buf - '0')) > j) { /* Overflow. */
return NULL;
}
++buf;
}
if (i < (*x & 1)) { /* This catches no-digit case too. */
return NULL;
}
if (*x & 2) {
--i;
}
if (*x & 4) {
i -= 1900;
}
if (*x == (9 << 3) + 1 + 0) { /* %I or %l */
if (i == 12) {
i = 0;
}
if (fields[8] >= 0) { /* We have a previous %p or %P. */
fields[2] = i + fields[8];
}
}
fields[(*x) >> 3] = i;
if (((unsigned char)(*x - (10 << 3) + 0 + 0)) <= 8) { /* %C or %y */
if ((j = fields[10]) < 0) { /* No %C, so i must be %y data. */
if (i <= 68) { /* Map [0-68] to 2000+i */
i += 100;
}
} else { /* Have %C data, but what about %y? */
if ((i = fields[11]) < 0) { /* No %y data. */
i = 0; /* Treat %y val as 0 following glibc's example. */
}
i += 100*(j - 19);
}
fields[5] = i;
}
}
goto LOOP;
} else if (ISSPACE(*p)) {
++p;
while (ISSPACE(*buf)) {
++buf;
}
goto LOOP;
} else if (*buf++ == *p++) {
goto LOOP;
}
return NULL;
}
# ifdef L_strptime_l
libc_hidden_def(strptime_l)
# endif
#endif /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
#endif
/**********************************************************************/
#ifdef L_time
#ifndef __BCC__
#error The uClibc version of time is in sysdeps/linux/common.
#endif
time_t time(register time_t *tloc)
{
struct timeval tv;
register struct timeval *p = &tv;
gettimeofday(p, NULL); /* This should never fail... */
if (tloc) {
*tloc = p->tv_sec;
}
return p->tv_sec;
}
#endif
/**********************************************************************/
#ifdef L_tzset
static const char vals[] = {
'T', 'Z', 0, /* 3 */
'U', 'T', 'C', 0, /* 4 */
25, 60, 60, 1, /* 4 */
'.', 1, /* M */
5, '.', 1,
6, 0, 0, /* Note: overloaded for non-M non-J case... */
0, 1, 0, /* J */
',', 'M', '4', '.', '1', '.', '0',
',', 'M', '1', '0', '.', '5', '.', '0', 0,
',', 'M', '3', '.', '2', '.', '0',
',', 'M', '1', '1', '.', '1', '.', '0', 0
};
#define TZ vals
#define UTC (vals + 3)
#define RANGE (vals + 7)
#define RULE (vals + 11 - 1)
#define DEFAULT_RULES (vals + 22)
#define DEFAULT_2007_RULES (vals + 38)
/* Initialize to UTC. */
int daylight = 0;
long timezone = 0;
char *tzname[2] = { (char *) UTC, (char *) (UTC-1) };
__UCLIBC_MUTEX_INIT(_time_tzlock, PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP);
rule_struct _time_tzinfo[2];
static const char *getoffset(register const char *e, long *pn)
{
register const char *s = RANGE-1;
long n;
int f;
n = 0;
f = -1;
do {
++s;
if (__isdigit_char(*e)) {
f = *e++ - '0';
}
if (__isdigit_char(*e)) {
f = 10 * f + (*e++ - '0');
}
if (((unsigned int)f) >= *s) {
return NULL;
}
n = (*s) * n + f;
f = 0;
if (*e == ':') {
++e;
--f;
}
} while (*s > 1);
*pn = n;
return e;
}
static const char *getnumber(register const char *e, int *pn)
{
#ifdef __BCC__
/* bcc can optimize the counter if it thinks it is a pointer... */
register const char *n = (const char *) 3;
int f;
f = 0;
while (n && __isdigit_char(*e)) {
f = 10 * f + (*e++ - '0');
--n;
}
*pn = f;
return (n == (const char *) 3) ? NULL : e;
#else /* __BCC__ */
int n, f;
n = 3;
f = 0;
while (n && __isdigit_char(*e)) {
f = 10 * f + (*e++ - '0');
--n;
}
*pn = f;
return (n == 3) ? NULL : e;
#endif /* __BCC__ */
}
#ifdef __UCLIBC_HAS_TZ_FILE__
#ifndef __UCLIBC_HAS_TZ_FILE_READ_MANY__
static smallint TZ_file_read; /* Let BSS initialization set this to 0. */
#endif
static char *read_TZ_file(char *buf)
{
int r;
int fd;
char *p = NULL;
fd = open(__UCLIBC_TZ_FILE_PATH__, O_RDONLY);
if (fd >= 0) {
#if 0
/* TZ are small *files*. On files, short reads
* only occur on EOF (unlike, say, pipes).
* The code below is pedanticallly more correct,
* but this way we always read at least twice:
* 1st read is short, 2nd one is zero bytes.
*/
size_t todo = TZ_BUFLEN;
p = buf;
do {
r = read(fd, p, todo);
if (r < 0)
goto ERROR;
if (r == 0)
break;
p += r;
todo -= r;
} while (todo);
#else
/* Shorter, and does one fewer read syscall */
r = read(fd, buf, TZ_BUFLEN);
if (r < 0)
goto ERROR;
p = buf + r;
#endif
if ((p > buf) && (p[-1] == '\n')) { /* Must end with newline */
p[-1] = 0;
p = buf;
#ifndef __UCLIBC_HAS_TZ_FILE_READ_MANY__
TZ_file_read = 1;
#endif
} else {
ERROR:
p = NULL;
}
close(fd);
}
#ifdef __UCLIBC_FALLBACK_TO_ETC_LOCALTIME__
else {
fd = open("/etc/localtime", O_RDONLY);
if (fd >= 0) {
r = read(fd, buf, TZ_BUFLEN);
if (r != TZ_BUFLEN
|| strncmp(buf, "TZif", 4) != 0
|| (unsigned char)buf[4] < 2
|| lseek(fd, -TZ_BUFLEN, SEEK_END) < 0
) {
goto ERROR;
}
/* tzfile.h from tzcode database says about TZif2+ files:
**
** If tzh_version is '2' or greater, the above is followed by a second instance
** of tzhead and a second instance of the data in which each coded transition
** time uses 8 rather than 4 chars,
** then a POSIX-TZ-environment-variable-style string for use in handling
** instants after the last transition time stored in the file
** (with nothing between the newlines if there is no POSIX representation for
** such instants).
*/
r = read(fd, buf, TZ_BUFLEN);
if (r <= 0 || buf[--r] != '\n')
goto ERROR;
buf[r] = 0;
while (r != 0) {
if (buf[--r] == '\n') {
p = buf + r + 1;
#ifndef __UCLIBC_HAS_TZ_FILE_READ_MANY__
TZ_file_read = 1;
#endif
break;
}
} /* else ('\n' not found): p remains NULL */
close(fd);
}
}
#endif /* __UCLIBC_FALLBACK_TO_ETC_LOCALTIME__ */
return p;
}
#endif /* __UCLIBC_HAS_TZ_FILE__ */
void tzset(void)
{
_time_tzset((time(NULL)) < new_rule_starts);
}
void _time_tzset(int use_old_rules)
{
register const char *e;
register char *s;
long off = 0;
short *p;
rule_struct new_rules[2];
int n, count, f;
char c;
#ifdef __UCLIBC_HAS_TZ_FILE__
char buf[TZ_BUFLEN];
#endif
#ifdef __UCLIBC_HAS_TZ_CACHING__
static char oldval[TZ_BUFLEN]; /* BSS-zero'd. */
#endif
/* Put this inside the lock to prevent the possibility of two different
* timezones being used in a threaded app. */
__UCLIBC_MUTEX_LOCK(_time_tzlock);
e = getenv(TZ); /* TZ env var always takes precedence. */
#if defined(__UCLIBC_HAS_TZ_FILE__) && !defined(__UCLIBC_HAS_TZ_FILE_READ_MANY__)
if (e) {
/* Never use TZfile if TZ env var is set. */
TZ_file_read = 0;
}
if (TZ_file_read) {
/* We already parsed TZfile before, skip everything. */
goto FAST_DONE;
}
#endif
/* Warning!!! Since uClibc doesn't do lib locking, the following is
* potentially unsafe in a multi-threaded program since it is remotely
* possible that another thread could call setenv() for TZ and overwrite
* the string being parsed. So, don't do that... */
#ifdef __UCLIBC_HAS_TZ_FILE__
if (!e)
e = read_TZ_file(buf);
#endif
if (!e /* TZ env var not set and no TZfile (or bad TZfile) */
|| !*e /* or set to empty string. */
) {
goto ILLEGAL;
}
if (*e == ':') { /* Ignore leading ':'. */
++e;
}
#ifdef __UCLIBC_HAS_TZ_CACHING__
if (strcmp(e, oldval) == 0) {
/* Same string as last time... nothing to do. */
goto FAST_DONE;
}
/* Make a copy of the TZ env string. It won't be nul-terminated if
* it is too long, but it that case it will be illegal and will be reset
* to the empty string anyway. */
strncpy(oldval, e, TZ_BUFLEN);
#endif
count = 0;
new_rules[1].tzname[0] = 0;
LOOP:
/* Get std or dst name. */
c = 0;
if (*e == '<') {
++e;
c = '>';
}
s = new_rules[count].tzname;
n = 0;
while (*e
&& isascii(*e) /* SUSv3 requires char in portable char set. */
&& (isalpha(*e)
|| (c && (isalnum(*e) || (*e == '+') || (*e == '-')))
)
) {
*s++ = *e++;
if (++n > TZNAME_MAX) {
goto ILLEGAL;
}
}
*s = 0;
if ((n < 3) /* Check for minimum length. */
|| (c && (*e++ != c)) /* Match any quoting '<'. */
) {
goto ILLEGAL;
}
/* Get offset */
s = (char *) e;
if ((*e != '-') && (*e != '+')) {
if (count && !__isdigit_char(*e)) {
off -= 3600; /* Default to 1 hour ahead of std. */
goto SKIP_OFFSET;
}
--e;
}
++e;
e = getoffset(e, &off);
if (!e) {
goto ILLEGAL;
}
if (*s == '-') {
off = -off; /* Save off in case needed for dst default. */
}
SKIP_OFFSET:
new_rules[count].gmt_offset = off;
if (!count) {
new_rules[1].gmt_offset = off; /* Shouldn't be needed... */
if (*e) {
++count;
goto LOOP;
}
} else { /* OK, we have dst, so get some rules. */
count = 0;
if (!*e) { /* No rules so default to US rules. */
e = use_old_rules ? DEFAULT_RULES : DEFAULT_2007_RULES;
#ifdef DEBUG_TZSET
if (e == DEFAULT_RULES)
printf("tzset: Using old rules.\n");
else if (e == DEFAULT_2007_RULES)
printf("tzset: Using new rules\n");
else
printf("tzset: Using undefined rules\n");
#endif
}
do {
if (*e++ != ',') {
goto ILLEGAL;
}
n = 365;
s = (char *) RULE;
c = *e++;
if (c == 'M') {
n = 12;
} else if (c == 'J') {
s += 8;
} else {
--e;
c = 0;
s += 6;
}
p = &new_rules[count].rule_type;
*p = c;
if (c != 'M') {
p -= 2;
}
do {
++s;
e = getnumber(e, &f);
if (!e
|| ((unsigned int)(f - s[1]) > n)
|| (*s && (*e++ != *s))
) {
goto ILLEGAL;
}
*--p = f;
s += 2;
n = *s;
} while (n > 0);
off = 2 * 60 * 60; /* Default to 2:00:00 */
if (*e == '/') {
++e;
e = getoffset(e, &off);
if (!e) {
goto ILLEGAL;
}
}
new_rules[count].dst_offset = off;
} while (++count < 2);
if (*e) {
ILLEGAL:
#ifdef __UCLIBC_HAS_TZ_CACHING__
oldval[0] = 0; /* oldval = "" */
#endif
memset(_time_tzinfo, 0, sizeof(_time_tzinfo));
strcpy(_time_tzinfo[0].tzname, UTC);
goto DONE;
}
}
memcpy(_time_tzinfo, new_rules, sizeof(new_rules));
DONE:
tzname[0] = _time_tzinfo[0].tzname;
tzname[1] = _time_tzinfo[1].tzname;
daylight = !!_time_tzinfo[1].tzname[0];
timezone = _time_tzinfo[0].gmt_offset;
#if (defined(__UCLIBC_HAS_TZ_FILE__) && !defined(__UCLIBC_HAS_TZ_FILE_READ_MANY__)) || \
defined(__UCLIBC_HAS_TZ_CACHING__)
FAST_DONE:
#endif
__UCLIBC_MUTEX_UNLOCK(_time_tzlock);
}
libc_hidden_def(tzset)
#endif
/**********************************************************************/
/* #ifdef L_utime */
/* utime is a syscall in both linux and elks. */
/* int utime(const char *path, const struct utimbuf *times) */
/* #endif */
/**********************************************************************/
/* Non-SUSv3 */
/**********************************************************************/
#ifdef L_utimes
#ifndef __BCC__
#error The uClibc version of utimes is in sysdeps/linux/common.
#endif
#include <utime.h>
int utimes(const char *filename, register const struct timeval *tvp)
{
register struct utimbuf *p = NULL;
struct utimbuf utb;
if (tvp) {
p = &utb;
p->actime = tvp[0].tv_sec;
p->modtime = tvp[1].tv_sec;
}
return utime(filename, p);
}
#endif
/**********************************************************************/
#ifdef L__time_t2tm
static const uint16_t _vals[] = {
60, 60, 24, 7 /* special */, 36524, 1461, 365, 0
};
static const unsigned char days[] = {
31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, /* non-leap */
29,
};
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
static const char utc_string[] = "UTC";
#endif
/* Notes:
* If time_t is 32 bits, then no overflow is possible.
* It time_t is > 32 bits, this needs to be adjusted to deal with overflow.
*/
/* Note: offset is the correction in _days_ to *timer! */
struct tm attribute_hidden *_time_t2tm(const time_t *__restrict timer,
int offset, struct tm *__restrict result)
{
register int *p;
time_t t1, t, v;
int wday = wday; /* ok to be uninitialized, shutting up warning */
{
register const uint16_t *vp;
t = *timer;
p = (int *) result;
p[7] = 0;
vp = _vals;
do {
if ((v = *vp) == 7) {
/* Overflow checking, assuming time_t is long int... */
#if (LONG_MAX > INT_MAX) && (LONG_MAX > 2147483647L)
#if (INT_MAX == 2147483647L) && (LONG_MAX == 9223372036854775807L)
/* Valid range for t is [-784223472856L, 784223421720L].
* Outside of this range, the tm_year field will overflow. */
if (((unsigned long)(t + offset- -784223472856L))
> (784223421720L - -784223472856L)
) {
return NULL;
}
#else
#error overflow conditions unknown
#endif
#endif
/* We have days since the epoch, so caluclate the weekday. */
#if defined(__BCC__) && TIME_T_IS_UNSIGNED
wday = (t + 4) % (*vp); /* t is unsigned */
#else
wday = ((int)((t % (*vp)) + 11)) % ((int)(*vp)); /* help bcc */
#endif
/* Set divisor to days in 400 years. Be kind to bcc... */
v = ((time_t)(vp[1])) << 2;
++v;
/* Change to days since 1/1/1601 so that for 32 bit time_t
* values, we'll have t >= 0. This should be changed for
* archs with larger time_t types.
* Also, correct for offset since a multiple of 7. */
/* TODO: Does this still work on archs with time_t > 32 bits? */
t += (135140L - 366) + offset; /* 146097 - (365*30 + 7) -366 */
}
#if defined(__BCC__) && TIME_T_IS_UNSIGNED
t -= ((t1 = t / v) * v);
#else
if ((t -= ((t1 = t / v) * v)) < 0) {
t += v;
--t1;
}
#endif
if ((*vp == 7) && (t == v-1)) {
--t; /* Correct for 400th year leap case */
++p[4]; /* Stash the extra day... */
}
#if defined(__BCC__) && 0
*p = t1;
if (v <= 60) {
*p = t;
t = t1;
}
++p;
#else
if (v <= 60) {
*p++ = t;
t = t1;
} else {
*p++ = t1;
}
#endif
} while (*++vp);
}
if (p[-1] == 4) {
--p[-1];
t = 365;
}
*p += ((int) t); /* result[7] .. tm_yday */
p -= 2; /* at result[5] */
#if (LONG_MAX > INT_MAX) && (LONG_MAX > 2147483647L)
/* Protect against overflow. TODO: Unecessary if int arith wraps? */
*p = ((((p[-2]<<2) + p[-1])*25 + p[0])<< 2) + (p[1] - 299); /* tm_year */
#else
*p = ((((p[-2]<<2) + p[-1])*25 + p[0])<< 2) + p[1] - 299; /* tm_year */
#endif
p[1] = wday; /* result[6] .. tm_wday */
{
register const unsigned char *d = days;
wday = 1900 + *p;
if (__isleap(wday)) {
d += 11;
}
wday = p[2] + 1; /* result[7] .. tm_yday */
*--p = 0; /* at result[4] .. tm_mon */
while (wday > *d) {
wday -= *d;
if (*d == 29) {
d -= 11; /* Backup to non-leap Feb. */
}
++d;
++*p; /* Increment tm_mon. */
}
p[-1] = wday; /* result[3] .. tm_mday */
}
/* TODO -- should this be 0? */
p[4] = 0; /* result[8] .. tm_isdst */
#ifdef __UCLIBC_HAS_TM_EXTENSIONS__
# ifdef __USE_BSD
result->tm_gmtoff = 0;
result->tm_zone = utc_string;
# else
result->__tm_gmtoff = 0;
result->__tm_zone = utc_string;
# endif
#endif /* __UCLIBC_HAS_TM_EXTENSIONS__ */
return result;
}
#endif
/**********************************************************************/
#ifdef L___time_tm
struct tm __time_tm; /* Global shared by gmtime() and localtime(). */
#endif
/**********************************************************************/
#ifdef L__time_mktime
time_t attribute_hidden _time_mktime(struct tm *timeptr, int store_on_success)
{
time_t t;
__UCLIBC_MUTEX_LOCK(_time_tzlock);
tzset();
t = _time_mktime_tzi(timeptr, store_on_success, _time_tzinfo);
__UCLIBC_MUTEX_UNLOCK(_time_tzlock);
return t;
}
#endif
/**********************************************************************/
#ifdef L__time_mktime_tzi
static const unsigned char __vals[] = {
31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, /* non-leap */
29,
};
time_t attribute_hidden _time_mktime_tzi(struct tm *timeptr, int store_on_success,
rule_struct *tzi)
{
#ifdef __BCC__
long days, secs;
#else
long long secs;
#endif
time_t t;
struct tm x;
/* 0:sec 1:min 2:hour 3:mday 4:mon 5:year 6:wday 7:yday 8:isdst */
register int *p = (int *) &x;
register const unsigned char *s;
int d, default_dst;
memcpy(p, timeptr, sizeof(struct tm));
if (!tzi[1].tzname[0]) { /* No dst in this timezone, */
p[8] = 0; /* so set tm_isdst to 0. */
}
default_dst = 0;
if (p[8]) { /* Either dst or unknown? */
default_dst = 1; /* Assume advancing (even if unknown). */
p[8] = ((p[8] > 0) ? 1 : -1); /* Normalize so abs() <= 1. */
}
d = 400;
p[5] = (p[5] - ((p[6] = p[5]/d) * d)) + (p[7] = p[4]/12);
if ((p[4] -= 12 * p[7]) < 0) {
p[4] += 12;
--p[5];
}
s = __vals;
d = (p[5] += 1900); /* Correct year. Now between 1900 and 2300. */
if (__isleap(d)) {
s += 11;
}
p[7] = 0;
d = p[4];
while (d) {
p[7] += *s;
if (*s == 29) {
s -= 11; /* Backup to non-leap Feb. */
}
++s;
--d;
}
_time_tzset (x.tm_year < 2007); /* tm_year was expanded above */
#ifdef __BCC__
d = p[5] - 1;
days = -719163L + ((long)d)*365 + ((d/4) - (d/100) + (d/400) + p[3] + p[7]);
secs = p[0] + 60*( p[1] + 60*((long)(p[2])) )
+ tzi[default_dst].gmt_offset;
DST_CORRECT:
if (secs < 0) {
secs += 120009600L;
days -= 1389;
}
if ( ((unsigned long)(days + secs/86400L)) > 49710L) {
t = ((time_t)(-1));
goto DONE;
}
secs += (days * 86400L);
#else
d = p[5] - 1;
d = -719163L + d*365 + (d/4) - (d/100) + (d/400);
secs = p[0]
+ tzi[default_dst].gmt_offset
+ 60*( p[1]
+ 60*(p[2]
+ 24*(((146073L * ((long long)(p[6])) + d)
+ p[3]) + p[7])));
DST_CORRECT:
#if defined(__UCLIBC_USE_TIME64__)
if (((unsigned long long)(secs - LLONG_MIN))
> (((unsigned long long)LLONG_MAX) - LLONG_MIN)
)
#else
if (((unsigned long long)(secs - LONG_MIN))
> (((unsigned long long)LONG_MAX) - LONG_MIN)
)
#endif
{
t = ((time_t)(-1));
goto DONE;
}
#endif
d = ((struct tm *)p)->tm_isdst;
t = secs;
__time_localtime_tzi(&t, (struct tm *)p, tzi);
if (t == ((time_t)(-1))) { /* Remember, time_t can be unsigned. */
goto DONE;
}
if ((d < 0) && (((struct tm *)p)->tm_isdst != default_dst)) {
#ifdef __BCC__
secs -= (days * 86400L);
#endif
secs += (tzi[1-default_dst].gmt_offset
- tzi[default_dst].gmt_offset);
goto DST_CORRECT;
}
if (store_on_success) {
memcpy(timeptr, p, sizeof(struct tm));
}
DONE:
return t;
}
#endif
/**********************************************************************/
#if (defined(L_wcsftime) || defined(L_wcsftime_l))
/* Implemented via strftime / strftime_l wchar_t variants */
#endif
/**********************************************************************/
#ifdef L_dysize
/* Return the number of days in YEAR. */
int dysize(int year)
{
return __isleap(year) ? 366 : 365;
}
#endif
/**********************************************************************/
|