glibc/time/tzfile.c

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/* Copyright (C) 1991-1993,1995-2001,2003,2004,2006, 2007
Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, write to the Free
Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA. */
#include <assert.h>
#include <limits.h>
#include <stdio.h>
#include <stdio_ext.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <sys/stat.h>
#define NOID
#include <timezone/tzfile.h>
int __use_tzfile;
static dev_t tzfile_dev;
static ino64_t tzfile_ino;
static time_t tzfile_mtime;
struct ttinfo
{
long int offset; /* Seconds east of GMT. */
unsigned char isdst; /* Used to set tm_isdst. */
unsigned char idx; /* Index into `zone_names'. */
unsigned char isstd; /* Transition times are in standard time. */
unsigned char isgmt; /* Transition times are in GMT. */
};
struct leap
{
time_t transition; /* Time the transition takes effect. */
long int change; /* Seconds of correction to apply. */
};
static void compute_tzname_max (size_t) internal_function;
static size_t num_transitions;
libc_freeres_ptr (static time_t *transitions);
static unsigned char *type_idxs;
static size_t num_types;
static struct ttinfo *types;
static char *zone_names;
static long int rule_stdoff;
static long int rule_dstoff;
static size_t num_leaps;
static struct leap *leaps;
static char *tzspec;
#include <endian.h>
#include <byteswap.h>
/* Decode the four bytes at PTR as a signed integer in network byte order. */
static inline int
__attribute ((always_inline))
decode (const void *ptr)
{
if (BYTE_ORDER == BIG_ENDIAN && sizeof (int) == 4)
return *(const int *) ptr;
if (sizeof (int) == 4)
return bswap_32 (*(const int *) ptr);
const unsigned char *p = ptr;
int result = *p & (1 << (CHAR_BIT - 1)) ? ~0 : 0;
result = (result << 8) | *p++;
result = (result << 8) | *p++;
result = (result << 8) | *p++;
result = (result << 8) | *p++;
return result;
}
static inline int64_t
__attribute ((always_inline))
decode64 (const void *ptr)
{
if ((BYTE_ORDER == BIG_ENDIAN))
return *(const int64_t *) ptr;
return bswap_64 (*(const int64_t *) ptr);
}
void
__tzfile_read (const char *file, size_t extra, char **extrap)
{
static const char default_tzdir[] = TZDIR;
size_t num_isstd, num_isgmt;
register FILE *f;
struct tzhead tzhead;
size_t chars;
register size_t i;
size_t total_size;
size_t types_idx;
size_t leaps_idx;
int was_using_tzfile = __use_tzfile;
int trans_width = 4;
size_t tzspec_len;
if (sizeof (time_t) != 4 && sizeof (time_t) != 8)
abort ();
__use_tzfile = 0;
if (file == NULL)
/* No user specification; use the site-wide default. */
file = TZDEFAULT;
else if (*file == '\0')
/* User specified the empty string; use UTC with no leap seconds. */
goto ret_free_transitions;
else
{
/* We must not allow to read an arbitrary file in a setuid
program. So we fail for any file which is not in the
directory hierachy starting at TZDIR
and which is not the system wide default TZDEFAULT. */
if (__libc_enable_secure
&& ((*file == '/'
&& memcmp (file, TZDEFAULT, sizeof TZDEFAULT)
&& memcmp (file, default_tzdir, sizeof (default_tzdir) - 1))
|| strstr (file, "../") != NULL))
/* This test is certainly a bit too restrictive but it should
catch all critical cases. */
goto ret_free_transitions;
}
if (*file != '/')
{
const char *tzdir;
unsigned int len, tzdir_len;
char *new, *tmp;
tzdir = getenv ("TZDIR");
if (tzdir == NULL || *tzdir == '\0')
{
tzdir = default_tzdir;
tzdir_len = sizeof (default_tzdir) - 1;
}
else
tzdir_len = strlen (tzdir);
len = strlen (file) + 1;
new = (char *) __alloca (tzdir_len + 1 + len);
tmp = __mempcpy (new, tzdir, tzdir_len);
*tmp++ = '/';
memcpy (tmp, file, len);
file = new;
}
/* If we were already using tzfile, check whether the file changed. */
struct stat64 st;
if (was_using_tzfile
&& stat64 (file, &st) == 0
&& tzfile_ino == st.st_ino && tzfile_dev == st.st_dev
&& tzfile_mtime == st.st_mtime)
{
/* Nothing to do. */
__use_tzfile = 1;
return;
}
/* Note the file is opened with cancellation in the I/O functions
disabled. */
f = fopen (file, "rc");
if (f == NULL)
goto ret_free_transitions;
/* Get information about the file we are actually using. */
if (fstat64 (fileno (f), &st) != 0)
{
fclose (f);
goto ret_free_transitions;
}
free ((void *) transitions);
transitions = NULL;
/* Remember the inode and device number and modification time. */
tzfile_dev = st.st_dev;
tzfile_ino = st.st_ino;
tzfile_mtime = st.st_mtime;
/* No threads reading this stream. */
__fsetlocking (f, FSETLOCKING_BYCALLER);
read_again:
if (__builtin_expect (fread_unlocked ((void *) &tzhead, sizeof (tzhead),
1, f) != 1, 0)
|| memcmp (tzhead.tzh_magic, TZ_MAGIC, sizeof (tzhead.tzh_magic)) != 0)
goto lose;
num_transitions = (size_t) decode (tzhead.tzh_timecnt);
num_types = (size_t) decode (tzhead.tzh_typecnt);
chars = (size_t) decode (tzhead.tzh_charcnt);
num_leaps = (size_t) decode (tzhead.tzh_leapcnt);
num_isstd = (size_t) decode (tzhead.tzh_ttisstdcnt);
num_isgmt = (size_t) decode (tzhead.tzh_ttisgmtcnt);
/* For platforms with 64-bit time_t we use the new format if available. */
if (sizeof (time_t) == 8 && trans_width == 4
&& tzhead.tzh_version[0] != '\0')
{
/* We use the 8-byte format. */
trans_width = 8;
/* Position the stream before the second header. */
size_t to_skip = (num_transitions * (4 + 1)
+ num_types * 6
+ chars
+ num_leaps * 8
+ num_isstd
+ num_isgmt);
if (fseek (f, to_skip, SEEK_CUR) != 0)
goto lose;
goto read_again;
}
total_size = num_transitions * (sizeof (time_t) + 1);
total_size = ((total_size + __alignof__ (struct ttinfo) - 1)
& ~(__alignof__ (struct ttinfo) - 1));
types_idx = total_size;
total_size += num_types * sizeof (struct ttinfo) + chars;
total_size = ((total_size + __alignof__ (struct leap) - 1)
& ~(__alignof__ (struct leap) - 1));
leaps_idx = total_size;
total_size += num_leaps * sizeof (struct leap);
tzspec_len = (trans_width == 8
? st.st_size - (ftello (f)
+ num_transitions * (8 + 1)
+ num_types * 6
+ chars
+ num_leaps * 8
+ num_isstd
+ num_isgmt) - 1 : 0);
/* Allocate enough memory including the extra block requested by the
caller. */
transitions = (time_t *) malloc (total_size + tzspec_len + extra);
if (transitions == NULL)
goto lose;
type_idxs = (unsigned char *) transitions + (num_transitions
* sizeof (time_t));
types = (struct ttinfo *) ((char *) transitions + types_idx);
zone_names = (char *) types + num_types * sizeof (struct ttinfo);
leaps = (struct leap *) ((char *) transitions + leaps_idx);
if (trans_width == 8)
tzspec = (char *) leaps + num_leaps * sizeof (struct leap);
else
tzspec = NULL;
if (extra > 0)
*extrap = (char *) &leaps[num_leaps];
if (sizeof (time_t) == 4 || trans_width == 8)
{
if (__builtin_expect (fread_unlocked (transitions, trans_width + 1,
num_transitions, f)
!= num_transitions, 0))
goto lose;
}
else
{
if (__builtin_expect (fread_unlocked (transitions, 4, num_transitions, f)
!= num_transitions, 0)
|| __builtin_expect (fread_unlocked (type_idxs, 1, num_transitions,
f) != num_transitions, 0))
goto lose;
}
/* Check for bogus indices in the data file, so we can hereafter
safely use type_idxs[T] as indices into `types' and never crash. */
for (i = 0; i < num_transitions; ++i)
if (__builtin_expect (type_idxs[i] >= num_types, 0))
goto lose;
if ((BYTE_ORDER != BIG_ENDIAN && (sizeof (time_t) == 4 || trans_width == 4))
|| (BYTE_ORDER == BIG_ENDIAN && sizeof (time_t) == 8
&& trans_width == 4))
{
/* Decode the transition times, stored as 4-byte integers in
network (big-endian) byte order. We work from the end of
the array so as not to clobber the next element to be
processed when sizeof (time_t) > 4. */
i = num_transitions;
while (i-- > 0)
transitions[i] = decode ((char *) transitions + i * 4);
}
else if (BYTE_ORDER != BIG_ENDIAN && sizeof (time_t) == 8)
{
/* Decode the transition times, stored as 8-byte integers in
network (big-endian) byte order. */
for (i = 0; i < num_transitions; ++i)
transitions[i] = decode64 ((char *) transitions + i * 8);
}
for (i = 0; i < num_types; ++i)
{
unsigned char x[4];
int c;
if (__builtin_expect (fread_unlocked (x, 1, sizeof (x), f) != sizeof (x),
0))
goto lose;
c = getc_unlocked (f);
if (__builtin_expect ((unsigned int) c > 1u, 0))
goto lose;
types[i].isdst = c;
c = getc_unlocked (f);
if (__builtin_expect ((size_t) c > chars, 0))
/* Bogus index in data file. */
goto lose;
types[i].idx = c;
types[i].offset = (long int) decode (x);
}
if (__builtin_expect (fread_unlocked (zone_names, 1, chars, f) != chars, 0))
goto lose;
for (i = 0; i < num_leaps; ++i)
{
unsigned char x[8];
if (__builtin_expect (fread_unlocked (x, 1, trans_width, f)
!= trans_width, 0))
goto lose;
if (sizeof (time_t) == 4 || trans_width == 4)
leaps[i].transition = (time_t) decode (x);
else
leaps[i].transition = (time_t) decode64 (x);
if (__builtin_expect (fread_unlocked (x, 1, 4, f) != 4, 0))
goto lose;
leaps[i].change = (long int) decode (x);
}
for (i = 0; i < num_isstd; ++i)
{
int c = getc_unlocked (f);
if (__builtin_expect (c == EOF, 0))
goto lose;
types[i].isstd = c != 0;
}
while (i < num_types)
types[i++].isstd = 0;
for (i = 0; i < num_isgmt; ++i)
{
int c = getc_unlocked (f);
if (__builtin_expect (c == EOF, 0))
goto lose;
types[i].isgmt = c != 0;
}
while (i < num_types)
types[i++].isgmt = 0;
/* Read the POSIX TZ-style information if possible. */
if (tzspec != NULL)
{
/* Skip over the newline first. */
if (getc_unlocked (f) != '\n'
|| fread_unlocked (tzspec, 1, tzspec_len - 1, f) != tzspec_len - 1)
tzspec = NULL;
else
tzspec[tzspec_len - 1] = '\0';
}
fclose (f);
/* First "register" all timezone names. */
for (i = 0; i < num_types; ++i)
(void) __tzstring (&zone_names[types[i].idx]);
/* Find the standard and daylight time offsets used by the rule file.
We choose the offsets in the types of each flavor that are
transitioned to earliest in time. */
__tzname[0] = NULL;
__tzname[1] = NULL;
for (i = num_transitions; i > 0; )
{
int type = type_idxs[--i];
int dst = types[type].isdst;
if (__tzname[dst] == NULL)
{
int idx = types[type].idx;
__tzname[dst] = __tzstring (&zone_names[idx]);
if (__tzname[1 - dst] != NULL)
break;
}
}
if (__tzname[0] == NULL)
{
/* This should only happen if there are no transition rules.
In this case there should be only one single type. */
assert (num_types == 1);
__tzname[0] = __tzstring (zone_names);
}
if (__tzname[1] == NULL)
__tzname[1] = __tzname[0];
compute_tzname_max (chars);
if (num_transitions == 0)
/* Use the first rule (which should also be the only one). */
rule_stdoff = rule_dstoff = types[0].offset;
else
{
int stdoff_set = 0, dstoff_set = 0;
rule_stdoff = rule_dstoff = 0;
i = num_transitions - 1;
do
{
if (!stdoff_set && !types[type_idxs[i]].isdst)
{
stdoff_set = 1;
rule_stdoff = types[type_idxs[i]].offset;
}
else if (!dstoff_set && types[type_idxs[i]].isdst)
{
dstoff_set = 1;
rule_dstoff = types[type_idxs[i]].offset;
}
if (stdoff_set && dstoff_set)
break;
}
while (i-- > 0);
if (!dstoff_set)
rule_dstoff = rule_stdoff;
}
__daylight = rule_stdoff != rule_dstoff;
__timezone = -rule_stdoff;
__use_tzfile = 1;
return;
lose:
fclose (f);
ret_free_transitions:
free ((void *) transitions);
transitions = NULL;
}
/* The user specified a hand-made timezone, but not its DST rules.
We will use the names and offsets from the user, and the rules
from the TZDEFRULES file. */
void
__tzfile_default (const char *std, const char *dst,
long int stdoff, long int dstoff)
{
size_t stdlen = strlen (std) + 1;
size_t dstlen = strlen (dst) + 1;
size_t i;
int isdst;
char *cp;
__tzfile_read (TZDEFRULES, stdlen + dstlen, &cp);
if (!__use_tzfile)
return;
if (num_types < 2)
{
__use_tzfile = 0;
return;
}
/* Ignore the zone names read from the file and use the given ones
instead. */
__mempcpy (__mempcpy (cp, std, stdlen), dst, dstlen);
zone_names = cp;
/* Now there are only two zones, regardless of what the file contained. */
num_types = 2;
/* Now correct the transition times for the user-specified standard and
daylight offsets from GMT. */
isdst = 0;
for (i = 0; i < num_transitions; ++i)
{
struct ttinfo *trans_type = &types[type_idxs[i]];
/* We will use only types 0 (standard) and 1 (daylight).
Fix up this transition to point to whichever matches
the flavor of its original type. */
type_idxs[i] = trans_type->isdst;
if (trans_type->isgmt)
/* The transition time is in GMT. No correction to apply. */ ;
else if (isdst && !trans_type->isstd)
/* The type says this transition is in "local wall clock time", and
wall clock time as of the previous transition was DST. Correct
for the difference between the rule's DST offset and the user's
DST offset. */
transitions[i] += dstoff - rule_dstoff;
else
/* This transition is in "local wall clock time", and wall clock
time as of this iteration is non-DST. Correct for the
difference between the rule's standard offset and the user's
standard offset. */
transitions[i] += stdoff - rule_stdoff;
/* The DST state of "local wall clock time" for the next iteration is
as specified by this transition. */
isdst = trans_type->isdst;
}
/* Now that we adjusted the transitions to the requested offsets,
reset the rule_stdoff and rule_dstoff values appropriately. They
are used elsewhere. */
rule_stdoff = stdoff;
rule_dstoff = dstoff;
/* Reset types 0 and 1 to describe the user's settings. */
types[0].idx = 0;
types[0].offset = stdoff;
types[0].isdst = 0;
types[1].idx = stdlen;
types[1].offset = dstoff;
types[1].isdst = 1;
/* Reset the zone names to point to the user's names. */
__tzname[0] = (char *) std;
__tzname[1] = (char *) dst;
/* Set the timezone. */
__timezone = -types[0].offset;
compute_tzname_max (stdlen + dstlen);
}
void
__tzfile_compute (time_t timer, int use_localtime,
long int *leap_correct, int *leap_hit,
struct tm *tp)
{
register size_t i;
if (use_localtime)
{
__tzname[0] = NULL;
__tzname[1] = NULL;
if (num_transitions == 0 || timer < transitions[0])
{
/* TIMER is before any transition (or there are no transitions).
Choose the first non-DST type
(or the first if they're all DST types). */
i = 0;
while (i < num_types && types[i].isdst)
{
if (__tzname[1] == NULL)
__tzname[1] = __tzstring (&zone_names[types[i].idx]);
++i;
}
if (i == num_types)
i = 0;
__tzname[0] = __tzstring (&zone_names[types[i].idx]);
if (__tzname[1] == NULL)
{
size_t j = i;
while (j < num_types)
if (types[j].isdst)
{
__tzname[1] = __tzstring (&zone_names[types[j].idx]);
break;
}
else
++j;
}
}
else if (timer >= transitions[num_transitions - 1])
{
if (tzspec == NULL)
{
use_last:
i = num_transitions;
goto found;
}
/* Parse the POSIX TZ-style string. */
__tzset_parse_tz (tzspec);
/* Convert to broken down structure. If this fails do not
use the string. */
if (! __offtime (&timer, 0, tp))
goto use_last;
/* Use the rules from the TZ string to compute the change. */
__tz_compute (timer, tp, 1);
*leap_correct = 0L;
*leap_hit = 0;
return;
}
else
{
/* Find the first transition after TIMER, and
then pick the type of the transition before it. */
size_t lo = 0;
size_t hi = num_transitions - 1;
/* Assume that DST is changing twice a year and guess initial
search spot from it.
Half of a gregorian year has on average 365.2425 * 86400 / 2
= 15778476 seconds. */
i = (transitions[num_transitions - 1] - timer) / 15778476;
if (i < num_transitions)
{
i = num_transitions - 1 - i;
if (timer < transitions[i])
{
if (i < 10 || timer >= transitions[i - 10])
{
/* Linear search. */
while (timer < transitions[i - 1])
--i;
goto found;
}
hi = i - 10;
}
else
{
if (i + 10 >= num_transitions || timer < transitions[i + 10])
{
/* Linear search. */
while (timer >= transitions[i])
++i;
goto found;
}
lo = i + 10;
}
}
/* Binary search. */
/* assert (timer >= transitions[lo] && timer < transitions[hi]); */
while (lo + 1 < hi)
{
i = (lo + hi) / 2;
if (timer < transitions[i])
hi = i;
else
lo = i;
}
i = hi;
found:
/* assert (timer >= transitions[i - 1]
&& (i == num_transitions || timer < transitions[i])); */
__tzname[types[type_idxs[i - 1]].isdst]
= __tzstring (&zone_names[types[type_idxs[i - 1]].idx]);
size_t j = i;
while (j < num_transitions)
{
int type = type_idxs[j];
int dst = types[type].isdst;
int idx = types[type].idx;
if (__tzname[dst] == NULL)
{
__tzname[dst] = __tzstring (&zone_names[idx]);
if (__tzname[1 - dst] != NULL)
break;
}
++j;
}
i = type_idxs[i - 1];
}
struct ttinfo *info = &types[i];
__daylight = rule_stdoff != rule_dstoff;
__timezone = -rule_stdoff;
if (__tzname[0] == NULL)
{
/* This should only happen if there are no transition rules.
In this case there should be only one single type. */
assert (num_types == 1);
__tzname[0] = __tzstring (zone_names);
}
if (__tzname[1] == NULL)
/* There is no daylight saving time. */
__tzname[1] = __tzname[0];
tp->tm_isdst = info->isdst;
assert (strcmp (&zone_names[info->idx], __tzname[tp->tm_isdst]) == 0);
tp->tm_zone = __tzname[tp->tm_isdst];
tp->tm_gmtoff = info->offset;
}
*leap_correct = 0L;
*leap_hit = 0;
/* Find the last leap second correction transition time before TIMER. */
i = num_leaps;
do
if (i-- == 0)
return;
while (timer < leaps[i].transition);
/* Apply its correction. */
*leap_correct = leaps[i].change;
if (timer == leaps[i].transition && /* Exactly at the transition time. */
((i == 0 && leaps[i].change > 0) ||
leaps[i].change > leaps[i - 1].change))
{
*leap_hit = 1;
while (i > 0
&& leaps[i].transition == leaps[i - 1].transition + 1
&& leaps[i].change == leaps[i - 1].change + 1)
{
++*leap_hit;
--i;
}
}
}
static void
internal_function
compute_tzname_max (size_t chars)
{
const char *p;
p = zone_names;
do
{
const char *start = p;
while (*p != '\0')
++p;
if ((size_t) (p - start) > __tzname_cur_max)
__tzname_cur_max = p - start;
}
while (++p < &zone_names[chars]);
}