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|
/*
Copyright (c) 2004, 2010, Oracle and/or its affiliates.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */
/*
Most of the following code and structures were derived from
public domain code from ftp://elsie.nci.nih.gov/pub
(We will refer to this code as to elsie-code further.)
*/
/*
We should not include sql_priv.h in mysql_tzinfo_to_sql utility since
it creates unsolved link dependencies on some platforms.
*/
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#include "mariadb.h"
#if !defined(TZINFO2SQL) && !defined(TESTTIME)
#include "sql_priv.h"
#include "unireg.h"
#include "sql_time.h" // localtime_to_TIME
#include "sql_base.h" // open_system_tables_for_read,
// close_system_tables
#else
#include <my_time.h>
#include <my_sys.h>
#include <mysql_version.h>
#include <my_getopt.h>
#endif
#include "tztime.h"
#include "tzfile.h"
#include <m_string.h>
#include <my_dir.h>
#include <mysql/psi/mysql_file.h>
#include "lock.h" // MYSQL_LOCK_IGNORE_FLUSH,
// MYSQL_LOCK_IGNORE_TIMEOUT
/*
Now we don't use abbreviations in server but we will do this in future.
*/
#if defined(TZINFO2SQL) || defined(TESTTIME)
#define ABBR_ARE_USED
#else
#if !defined(DBUG_OFF)
/* Let use abbreviations for debug purposes */
#undef ABBR_ARE_USED
#define ABBR_ARE_USED
#endif /* !defined(DBUG_OFF) */
#endif /* defined(TZINFO2SQL) || defined(TESTTIME) */
#define PROGRAM_VERSION "1.1"
/* Structure describing local time type (e.g. Moscow summer time (MSD)) */
typedef struct ttinfo
{
long tt_gmtoff; // Offset from UTC in seconds
uint tt_isdst; // Is daylight saving time or not. Used to set tm_isdst
#ifdef ABBR_ARE_USED
uint tt_abbrind; // Index of start of abbreviation for this time type.
#endif
/*
We don't use tt_ttisstd and tt_ttisgmt members of original elsie-code
struct since we don't support POSIX-style TZ descriptions in variables.
*/
} TRAN_TYPE_INFO;
/* Structure describing leap-second corrections. */
typedef struct lsinfo
{
my_time_t ls_trans; // Transition time
long ls_corr; // Correction to apply
} LS_INFO;
/*
Structure with information describing ranges of my_time_t shifted to local
time (my_time_t + offset). Used for local MYSQL_TIME -> my_time_t conversion.
See comments for TIME_to_gmt_sec() for more info.
*/
typedef struct revtinfo
{
long rt_offset; // Offset of local time from UTC in seconds
uint rt_type; // Type of period 0 - Normal period. 1 - Spring time-gap
} REVT_INFO;
#ifdef TZNAME_MAX
#define MY_TZNAME_MAX TZNAME_MAX
#endif
#ifndef TZNAME_MAX
#define MY_TZNAME_MAX 255
#endif
/*
Structure which fully describes time zone which is
described in our db or in zoneinfo files.
*/
typedef struct st_time_zone_info
{
uint leapcnt; // Number of leap-second corrections
uint timecnt; // Number of transitions between time types
uint typecnt; // Number of local time types
uint charcnt; // Number of characters used for abbreviations
uint revcnt; // Number of transition descr. for TIME->my_time_t conversion
/* The following are dynamical arrays are allocated in MEM_ROOT */
my_time_t *ats; // Times of transitions between time types
uchar *types; // Local time types for transitions
TRAN_TYPE_INFO *ttis; // Local time types descriptions
#ifdef ABBR_ARE_USED
/* Storage for local time types abbreviations. They are stored as ASCIIZ */
char *chars;
#endif
/*
Leap seconds corrections descriptions, this array is shared by
all time zones who use leap seconds.
*/
LS_INFO *lsis;
/*
Starting points and descriptions of shifted my_time_t (my_time_t + offset)
ranges on which shifted my_time_t -> my_time_t mapping is linear or undefined.
Used for tm -> my_time_t conversion.
*/
my_time_t *revts;
REVT_INFO *revtis;
/*
Time type which is used for times smaller than first transition or if
there are no transitions at all.
*/
TRAN_TYPE_INFO *fallback_tti;
} TIME_ZONE_INFO;
static my_bool prepare_tz_info(TIME_ZONE_INFO *sp, MEM_ROOT *storage);
my_bool opt_leap, opt_verbose, opt_skip_write_binlog;
#if defined(TZINFO2SQL) || defined(TESTTIME)
/*
Load time zone description from zoneinfo (TZinfo) file.
SYNOPSIS
tz_load()
name - path to zoneinfo file
sp - TIME_ZONE_INFO structure to fill
RETURN VALUES
0 - Ok
1 - Error
*/
static my_bool
tz_load(const char *name, TIME_ZONE_INFO *sp, MEM_ROOT *storage)
{
uchar *p;
ssize_t read_from_file;
uint i;
MYSQL_FILE *file;
if (!(file= mysql_file_fopen(0, name, O_RDONLY|O_BINARY, MYF(MY_WME))))
return 1;
{
union
{
struct tzhead tzhead;
uchar buf[sizeof(struct tzhead) + sizeof(my_time_t) * TZ_MAX_TIMES +
TZ_MAX_TIMES + sizeof(TRAN_TYPE_INFO) * TZ_MAX_TYPES +
#ifdef ABBR_ARE_USED
MY_MAX(TZ_MAX_CHARS + 1, (2 * (MY_TZNAME_MAX + 1))) +
#endif
sizeof(LS_INFO) * TZ_MAX_LEAPS];
} u;
uint ttisstdcnt;
uint ttisgmtcnt;
char *tzinfo_buf;
read_from_file= (ssize_t)mysql_file_fread(file, u.buf, sizeof(u.buf), MYF(MY_WME));
if (mysql_file_fclose(file, MYF(MY_WME)) != 0)
return 1;
if (read_from_file < (int)sizeof(struct tzhead))
return 1;
ttisstdcnt= int4net(u.tzhead.tzh_ttisgmtcnt);
ttisgmtcnt= int4net(u.tzhead.tzh_ttisstdcnt);
sp->leapcnt= int4net(u.tzhead.tzh_leapcnt);
sp->timecnt= int4net(u.tzhead.tzh_timecnt);
sp->typecnt= int4net(u.tzhead.tzh_typecnt);
sp->charcnt= int4net(u.tzhead.tzh_charcnt);
p= u.tzhead.tzh_charcnt + sizeof(u.tzhead.tzh_charcnt);
if (sp->leapcnt > TZ_MAX_LEAPS ||
sp->typecnt == 0 || sp->typecnt > TZ_MAX_TYPES ||
sp->timecnt > TZ_MAX_TIMES ||
sp->charcnt > TZ_MAX_CHARS ||
(ttisstdcnt != sp->typecnt && ttisstdcnt != 0) ||
(ttisgmtcnt != sp->typecnt && ttisgmtcnt != 0))
return 1;
if ((uint)(read_from_file - (p - u.buf)) <
sp->timecnt * 4 + /* ats */
sp->timecnt + /* types */
sp->typecnt * (4 + 2) + /* ttinfos */
sp->charcnt + /* chars */
sp->leapcnt * (4 + 4) + /* lsinfos */
ttisstdcnt + /* ttisstds */
ttisgmtcnt) /* ttisgmts */
return 1;
if (!(tzinfo_buf= (char *)alloc_root(storage,
ALIGN_SIZE(sp->timecnt *
sizeof(my_time_t)) +
ALIGN_SIZE(sp->timecnt) +
ALIGN_SIZE(sp->typecnt *
sizeof(TRAN_TYPE_INFO)) +
#ifdef ABBR_ARE_USED
ALIGN_SIZE(sp->charcnt+1) +
#endif
sp->leapcnt * sizeof(LS_INFO))))
return 1;
sp->ats= (my_time_t *)tzinfo_buf;
tzinfo_buf+= ALIGN_SIZE(sp->timecnt * sizeof(my_time_t));
sp->types= (uchar *)tzinfo_buf;
tzinfo_buf+= ALIGN_SIZE(sp->timecnt);
sp->ttis= (TRAN_TYPE_INFO *)tzinfo_buf;
tzinfo_buf+= ALIGN_SIZE(sp->typecnt * sizeof(TRAN_TYPE_INFO));
#ifdef ABBR_ARE_USED
sp->chars= tzinfo_buf;
tzinfo_buf+= ALIGN_SIZE(sp->charcnt+1);
#endif
sp->lsis= (LS_INFO *)tzinfo_buf;
for (i= 0; i < sp->timecnt; i++, p+= 4)
sp->ats[i]= int4net(p);
for (i= 0; i < sp->timecnt; i++)
{
sp->types[i]= (uchar) *p++;
if (sp->types[i] >= sp->typecnt)
return 1;
}
for (i= 0; i < sp->typecnt; i++)
{
TRAN_TYPE_INFO * ttisp;
ttisp= &sp->ttis[i];
ttisp->tt_gmtoff= int4net(p);
p+= 4;
ttisp->tt_isdst= (uchar) *p++;
if (ttisp->tt_isdst != 0 && ttisp->tt_isdst != 1)
return 1;
ttisp->tt_abbrind= (uchar) *p++;
if (ttisp->tt_abbrind > sp->charcnt)
return 1;
}
for (i= 0; i < sp->charcnt; i++)
sp->chars[i]= *p++;
sp->chars[i]= '\0'; /* ensure '\0' at end */
for (i= 0; i < sp->leapcnt; i++)
{
LS_INFO *lsisp;
lsisp= &sp->lsis[i];
lsisp->ls_trans= int4net(p);
p+= 4;
lsisp->ls_corr= int4net(p);
p+= 4;
}
/*
Since we don't support POSIX style TZ definitions in variables we
don't read further like glibc or elsie code.
*/
}
return prepare_tz_info(sp, storage);
}
#endif /* defined(TZINFO2SQL) || defined(TESTTIME) */
/*
Finish preparation of time zone description for use in TIME_to_gmt_sec()
and gmt_sec_to_TIME() functions.
SYNOPSIS
prepare_tz_info()
sp - pointer to time zone description
storage - pointer to MEM_ROOT where arrays for map allocated
DESCRIPTION
First task of this function is to find fallback time type which will
be used if there are no transitions or we have moment in time before
any transitions.
Second task is to build "shifted my_time_t" -> my_time_t map used in
MYSQL_TIME -> my_time_t conversion.
Note: See description of TIME_to_gmt_sec() function first.
In order to perform MYSQL_TIME -> my_time_t conversion we need to build table
which defines "shifted by tz offset and leap seconds my_time_t" ->
my_time_t function which is almost the same (except ranges of ambiguity)
as reverse function to piecewise linear function used for my_time_t ->
"shifted my_time_t" conversion and which is also specified as table in
zoneinfo file or in our db (It is specified as start of time type ranges
and time type offsets). So basic idea is very simple - let us iterate
through my_time_t space from one point of discontinuity of my_time_t ->
"shifted my_time_t" function to another and build our approximation of
reverse function. (Actually we iterate through ranges on which
my_time_t -> "shifted my_time_t" is linear function).
RETURN VALUES
0 Ok
1 Error
*/
static my_bool
prepare_tz_info(TIME_ZONE_INFO *sp, MEM_ROOT *storage)
{
my_time_t cur_t= MY_TIME_T_MIN;
my_time_t cur_l, end_t, UNINIT_VAR(end_l);
my_time_t cur_max_seen_l= MY_TIME_T_MIN;
long cur_offset, cur_corr, cur_off_and_corr;
uint next_trans_idx, next_leap_idx;
uint i;
/*
Temporary arrays where we will store tables. Needed because
we don't know table sizes ahead. (Well we can estimate their
upper bound but this will take extra space.)
*/
my_time_t revts[TZ_MAX_REV_RANGES];
REVT_INFO revtis[TZ_MAX_REV_RANGES];
/*
Let us setup fallback time type which will be used if we have not any
transitions or if we have moment of time before first transition.
We will find first non-DST local time type and use it (or use first
local time type if all of them are DST types).
*/
for (i= 0; i < sp->typecnt && sp->ttis[i].tt_isdst; i++)
/* no-op */ ;
if (i == sp->typecnt)
i= 0;
sp->fallback_tti= &(sp->ttis[i]);
/*
Let us build shifted my_time_t -> my_time_t map.
*/
sp->revcnt= 0;
/* Let us find initial offset */
if (sp->timecnt == 0 || cur_t < sp->ats[0])
{
/*
If we have not any transitions or t is before first transition we are using
already found fallback time type which index is already in i.
*/
next_trans_idx= 0;
}
else
{
/* cur_t == sp->ats[0] so we found transition */
i= sp->types[0];
next_trans_idx= 1;
}
cur_offset= sp->ttis[i].tt_gmtoff;
/* let us find leap correction... unprobable, but... */
for (next_leap_idx= 0; next_leap_idx < sp->leapcnt &&
cur_t >= sp->lsis[next_leap_idx].ls_trans;
++next_leap_idx)
continue;
if (next_leap_idx > 0)
cur_corr= sp->lsis[next_leap_idx - 1].ls_corr;
else
cur_corr= 0;
/* Iterate trough t space */
while (sp->revcnt < TZ_MAX_REV_RANGES - 1)
{
cur_off_and_corr= cur_offset - cur_corr;
/*
We assuming that cur_t could be only overflowed downwards,
we also assume that end_t won't be overflowed in this case.
*/
if (cur_off_and_corr < 0 &&
cur_t < MY_TIME_T_MIN - cur_off_and_corr)
cur_t= MY_TIME_T_MIN - cur_off_and_corr;
cur_l= cur_t + cur_off_and_corr;
/*
Let us choose end_t as point before next time type change or leap
second correction.
*/
end_t= MY_MIN((next_trans_idx < sp->timecnt) ? sp->ats[next_trans_idx] - 1:
MY_TIME_T_MAX,
(next_leap_idx < sp->leapcnt) ?
sp->lsis[next_leap_idx].ls_trans - 1: MY_TIME_T_MAX);
/*
again assuming that end_t can be overlowed only in positive side
we also assume that end_t won't be overflowed in this case.
*/
if (cur_off_and_corr > 0 &&
end_t > MY_TIME_T_MAX - cur_off_and_corr)
end_t= MY_TIME_T_MAX - cur_off_and_corr;
end_l= end_t + cur_off_and_corr;
if (end_l > cur_max_seen_l)
{
/* We want special handling in the case of first range */
if (cur_max_seen_l == MY_TIME_T_MIN)
{
revts[sp->revcnt]= cur_l;
revtis[sp->revcnt].rt_offset= cur_off_and_corr;
revtis[sp->revcnt].rt_type= 0;
sp->revcnt++;
cur_max_seen_l= end_l;
}
else
{
if (cur_l > cur_max_seen_l + 1)
{
/* We have a spring time-gap and we are not at the first range */
revts[sp->revcnt]= cur_max_seen_l + 1;
revtis[sp->revcnt].rt_offset= revtis[sp->revcnt-1].rt_offset;
revtis[sp->revcnt].rt_type= 1;
sp->revcnt++;
if (sp->revcnt == TZ_MAX_TIMES + TZ_MAX_LEAPS + 1)
break; /* That was too much */
cur_max_seen_l= cur_l - 1;
}
/* Assume here end_l > cur_max_seen_l (because end_l>=cur_l) */
revts[sp->revcnt]= cur_max_seen_l + 1;
revtis[sp->revcnt].rt_offset= cur_off_and_corr;
revtis[sp->revcnt].rt_type= 0;
sp->revcnt++;
cur_max_seen_l= end_l;
}
}
if (end_t == MY_TIME_T_MAX ||
((cur_off_and_corr > 0) &&
(end_t >= MY_TIME_T_MAX - cur_off_and_corr)))
/* end of t space */
break;
cur_t= end_t + 1;
/*
Let us find new offset and correction. Because of our choice of end_t
cur_t can only be point where new time type starts or/and leap
correction is performed.
*/
if (sp->timecnt != 0 && cur_t >= sp->ats[0]) /* else reuse old offset */
if (next_trans_idx < sp->timecnt &&
cur_t == sp->ats[next_trans_idx])
{
/* We are at offset point */
cur_offset= sp->ttis[sp->types[next_trans_idx]].tt_gmtoff;
++next_trans_idx;
}
if (next_leap_idx < sp->leapcnt &&
cur_t == sp->lsis[next_leap_idx].ls_trans)
{
/* we are at leap point */
cur_corr= sp->lsis[next_leap_idx].ls_corr;
++next_leap_idx;
}
}
/* check if we have had enough space */
if (sp->revcnt == TZ_MAX_REV_RANGES - 1)
return 1;
/* set maximum end_l as finisher */
revts[sp->revcnt]= end_l;
/* Allocate arrays of proper size in sp and copy result there */
if (!(sp->revts= (my_time_t *)alloc_root(storage,
sizeof(my_time_t) * (sp->revcnt + 1))) ||
!(sp->revtis= (REVT_INFO *)alloc_root(storage,
sizeof(REVT_INFO) * sp->revcnt)))
return 1;
memcpy(sp->revts, revts, sizeof(my_time_t) * (sp->revcnt + 1));
memcpy(sp->revtis, revtis, sizeof(REVT_INFO) * sp->revcnt);
return 0;
}
#if !defined(TZINFO2SQL)
static const uint mon_lengths[2][MONS_PER_YEAR]=
{
{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 },
{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }
};
static const uint mon_starts[2][MONS_PER_YEAR]=
{
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 },
{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335 }
};
static const uint year_lengths[2]=
{
DAYS_PER_NYEAR, DAYS_PER_LYEAR
};
#define LEAPS_THRU_END_OF(y) ((y) / 4 - (y) / 100 + (y) / 400)
/*
Converts time from my_time_t representation (seconds in UTC since Epoch)
to broken down representation using given local time zone offset.
SYNOPSIS
sec_to_TIME()
tmp - pointer to structure for broken down representation
t - my_time_t value to be converted
offset - local time zone offset
DESCRIPTION
Convert my_time_t with offset to MYSQL_TIME struct. Differs from timesub
(from elsie code) because doesn't contain any leap correction and
TM_GMTOFF and is_dst setting and contains some MySQL specific
initialization. Funny but with removing of these we almost have
glibc's offtime function.
*/
static void
sec_to_TIME(MYSQL_TIME * tmp, my_time_t t, long offset)
{
long days;
long rem;
int y;
int yleap;
const uint *ip;
days= (long) (t / SECS_PER_DAY);
rem= (long) (t % SECS_PER_DAY);
/*
We do this as separate step after dividing t, because this
allows us handle times near my_time_t bounds without overflows.
*/
rem+= offset;
while (rem < 0)
{
rem+= SECS_PER_DAY;
days--;
}
while (rem >= SECS_PER_DAY)
{
rem -= SECS_PER_DAY;
days++;
}
tmp->hour= (uint)(rem / SECS_PER_HOUR);
rem= rem % SECS_PER_HOUR;
tmp->minute= (uint)(rem / SECS_PER_MIN);
/*
A positive leap second requires a special
representation. This uses "... ??:59:60" et seq.
*/
tmp->second= (uint)(rem % SECS_PER_MIN);
y= EPOCH_YEAR;
while (days < 0 || days >= (long)year_lengths[yleap= isleap(y)])
{
int newy;
newy= y + days / DAYS_PER_NYEAR;
if (days < 0)
newy--;
days-= (newy - y) * DAYS_PER_NYEAR +
LEAPS_THRU_END_OF(newy - 1) -
LEAPS_THRU_END_OF(y - 1);
y= newy;
}
tmp->year= y;
ip= mon_lengths[yleap];
for (tmp->month= 0; days >= (long) ip[tmp->month]; tmp->month++)
days= days - (long) ip[tmp->month];
tmp->month++;
tmp->day= (uint)(days + 1);
/* filling MySQL specific MYSQL_TIME members */
tmp->neg= 0; tmp->second_part= 0;
tmp->time_type= MYSQL_TIMESTAMP_DATETIME;
}
/*
Find time range which contains given my_time_t value
SYNOPSIS
find_time_range()
t - my_time_t value for which we looking for range
range_boundaries - sorted array of range starts.
higher_bound - number of ranges
DESCRIPTION
Performs binary search for range which contains given my_time_t value.
It has sense if number of ranges is greater than zero and my_time_t value
is greater or equal than beginning of first range. It also assumes that
t belongs to some range specified or end of last is MY_TIME_T_MAX.
With this localtime_r on real data may takes less time than with linear
search (I've seen 30% speed up).
RETURN VALUE
Index of range to which t belongs
*/
static uint
find_time_range(my_time_t t, const my_time_t *range_boundaries,
uint higher_bound)
{
uint i, lower_bound= 0;
/*
Function will work without this assertion but result would be meaningless.
*/
DBUG_ASSERT(higher_bound > 0 && t >= range_boundaries[0]);
/*
Do binary search for minimal interval which contain t. We preserve:
range_boundaries[lower_bound] <= t < range_boundaries[higher_bound]
invariant and decrease this higher_bound - lower_bound gap twice
times on each step.
*/
while (higher_bound - lower_bound > 1)
{
i= (lower_bound + higher_bound) >> 1;
if (range_boundaries[i] <= t)
lower_bound= i;
else
higher_bound= i;
}
return lower_bound;
}
/*
Find local time transition for given my_time_t.
SYNOPSIS
find_transition_type()
t - my_time_t value to be converted
sp - pointer to struct with time zone description
RETURN VALUE
Pointer to structure in time zone description describing
local time type for given my_time_t.
*/
static
const TRAN_TYPE_INFO *
find_transition_type(my_time_t t, const TIME_ZONE_INFO *sp)
{
if (unlikely(sp->timecnt == 0 || t < sp->ats[0]))
{
/*
If we have not any transitions or t is before first transition let
us use fallback time type.
*/
return sp->fallback_tti;
}
/*
Do binary search for minimal interval between transitions which
contain t. With this localtime_r on real data may takes less
time than with linear search (I've seen 30% speed up).
*/
return &(sp->ttis[sp->types[find_time_range(t, sp->ats, sp->timecnt)]]);
}
/*
Converts time in my_time_t representation (seconds in UTC since Epoch) to
broken down MYSQL_TIME representation in local time zone.
SYNOPSIS
gmt_sec_to_TIME()
tmp - pointer to structure for broken down represenatation
sec_in_utc - my_time_t value to be converted
sp - pointer to struct with time zone description
TODO
We can improve this function by creating joined array of transitions and
leap corrections. This will require adding extra field to TRAN_TYPE_INFO
for storing number of "extra" seconds to minute occurred due to correction
(60th and 61st second, look how we calculate them as "hit" in this
function).
Under realistic assumptions about frequency of transitions the same array
can be used fot MYSQL_TIME -> my_time_t conversion. For this we need to
implement tweaked binary search which will take into account that some
MYSQL_TIME has two matching my_time_t ranges and some of them have none.
*/
static void
gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t sec_in_utc, const TIME_ZONE_INFO *sp)
{
const TRAN_TYPE_INFO *ttisp;
const LS_INFO *lp;
long corr= 0;
int hit= 0;
int i;
/*
Find proper transition (and its local time type) for our sec_in_utc value.
Funny but again by separating this step in function we receive code
which very close to glibc's code. No wonder since they obviously use
the same base and all steps are sensible.
*/
ttisp= find_transition_type(sec_in_utc, sp);
/*
Let us find leap correction for our sec_in_utc value and number of extra
secs to add to this minute.
This loop is rarely used because most users will use time zones without
leap seconds, and even in case when we have such time zone there won't
be many iterations (we have about 22 corrections at this moment (2004)).
*/
for ( i= sp->leapcnt; i-- > 0; )
{
lp= &sp->lsis[i];
if (sec_in_utc >= lp->ls_trans)
{
if (sec_in_utc == lp->ls_trans)
{
hit= ((i == 0 && lp->ls_corr > 0) ||
lp->ls_corr > sp->lsis[i - 1].ls_corr);
if (hit)
{
while (i > 0 &&
sp->lsis[i].ls_trans == sp->lsis[i - 1].ls_trans + 1 &&
sp->lsis[i].ls_corr == sp->lsis[i - 1].ls_corr + 1)
{
hit++;
i--;
}
}
}
corr= lp->ls_corr;
break;
}
}
sec_to_TIME(tmp, sec_in_utc, ttisp->tt_gmtoff - corr);
tmp->second+= hit;
}
/*
Converts local time in broken down representation to local
time zone analog of my_time_t represenation.
SYNOPSIS
sec_since_epoch()
year, mon, mday, hour, min, sec - broken down representation.
DESCRIPTION
Converts time in broken down representation to my_time_t representation
ignoring time zone. Note that we cannot convert back some valid _local_
times near ends of my_time_t range because of my_time_t overflow. But we
ignore this fact now since MySQL will never pass such argument.
RETURN VALUE
Seconds since epoch time representation.
*/
static my_time_t
sec_since_epoch(int year, int mon, int mday, int hour, int min ,int sec)
{
/* Guard against my_time_t overflow(on system with 32 bit my_time_t) */
DBUG_ASSERT(!(year == TIMESTAMP_MAX_YEAR && mon == 1 && mday > 17));
#ifndef WE_WANT_TO_HANDLE_UNORMALIZED_DATES
/*
It turns out that only whenever month is normalized or unnormalized
plays role.
*/
DBUG_ASSERT(mon > 0 && mon < 13);
long days= year * DAYS_PER_NYEAR - EPOCH_YEAR * DAYS_PER_NYEAR +
LEAPS_THRU_END_OF(year - 1) -
LEAPS_THRU_END_OF(EPOCH_YEAR - 1);
days+= mon_starts[isleap(year)][mon - 1];
#else
long norm_month= (mon - 1) % MONS_PER_YEAR;
long a_year= year + (mon - 1)/MONS_PER_YEAR - (int)(norm_month < 0);
long days= a_year * DAYS_PER_NYEAR - EPOCH_YEAR * DAYS_PER_NYEAR +
LEAPS_THRU_END_OF(a_year - 1) -
LEAPS_THRU_END_OF(EPOCH_YEAR - 1);
days+= mon_starts[isleap(a_year)]
[norm_month + (norm_month < 0 ? MONS_PER_YEAR : 0)];
#endif
days+= mday - 1;
return ((days * HOURS_PER_DAY + hour) * MINS_PER_HOUR + min) *
SECS_PER_MIN + sec;
}
/*
Converts local time in broken down MYSQL_TIME representation to my_time_t
representation.
SYNOPSIS
TIME_to_gmt_sec()
t - pointer to structure for broken down represenatation
sp - pointer to struct with time zone description
error_code - 0, if the conversion was successful;
ER_WARN_DATA_OUT_OF_RANGE, if t contains datetime value
which is out of TIMESTAMP range;
ER_WARN_INVALID_TIMESTAMP, if t represents value which
doesn't exists (falls into the spring time-gap).
DESCRIPTION
This is mktime analog for MySQL. It is essentially different
from mktime (or hypotetical my_mktime) because:
- It has no idea about tm_isdst member so if it
has two answers it will give the smaller one
- If we are in spring time gap then it will return
beginning of the gap
- It can give wrong results near the ends of my_time_t due to
overflows, but we are safe since in MySQL we will never
call this function for such dates (its restriction for year
between 1970 and 2038 gives us several days of reserve).
- By default it doesn't support un-normalized input. But if
sec_since_epoch() function supports un-normalized dates
then this function should handle un-normalized input right,
altough it won't normalize structure TIME.
Traditional approach to problem of conversion from broken down
representation to time_t is iterative. Both elsie's and glibc
implementation try to guess what time_t value should correspond to
this broken-down value. They perform localtime_r function on their
guessed value and then calculate the difference and try to improve
their guess. Elsie's code guesses time_t value in bit by bit manner,
Glibc's code tries to add difference between broken-down value
corresponding to guess and target broken-down value to current guess.
It also uses caching of last found correction... So Glibc's approach
is essentially faster but introduces some undetermenism (in case if
is_dst member of broken-down representation (tm struct) is not known
and we have two possible answers).
We use completely different approach. It is better since it is both
faster than iterative implementations and fully determenistic. If you
look at my_time_t to MYSQL_TIME conversion then you'll find that it consist
of two steps:
The first is calculating shifted my_time_t value and the second - TIME
calculation from shifted my_time_t value (well it is a bit simplified
picture). The part in which we are interested in is my_time_t -> shifted
my_time_t conversion. It is piecewise linear function which is defined
by combination of transition times as break points and times offset
as changing function parameter. The possible inverse function for this
converison would be ambiguos but with MySQL's restrictions we can use
some function which is the same as inverse function on unambigiuos
ranges and coincides with one of branches of inverse function in
other ranges. Thus we just need to build table which will determine
this shifted my_time_t -> my_time_t conversion similar to existing
(my_time_t -> shifted my_time_t table). We do this in
prepare_tz_info function.
TODO
If we can even more improve this function. For doing this we will need to
build joined map of transitions and leap corrections for gmt_sec_to_TIME()
function (similar to revts/revtis). Under realistic assumptions about
frequency of transitions we can use the same array for TIME_to_gmt_sec().
We need to implement special version of binary search for this. Such step
will be beneficial to CPU cache since we will decrease data-set used for
conversion twice.
RETURN VALUE
Seconds in UTC since Epoch.
0 in case of error.
*/
static my_time_t
TIME_to_gmt_sec(const MYSQL_TIME *t, const TIME_ZONE_INFO *sp, uint *error_code)
{
my_time_t local_t;
uint saved_seconds;
uint i;
int shift= 0;
DBUG_ENTER("TIME_to_gmt_sec");
if (!validate_timestamp_range(t))
{
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
DBUG_RETURN(0);
}
*error_code= 0;
/* We need this for correct leap seconds handling */
if (t->second < SECS_PER_MIN)
saved_seconds= 0;
else
saved_seconds= t->second;
/*
NOTE: to convert full my_time_t range we do a shift of the
boundary dates here to avoid overflow of my_time_t.
We use alike approach in my_system_gmt_sec().
However in that function we also have to take into account
overflow near 0 on some platforms. That's because my_system_gmt_sec
uses localtime_r(), which doesn't work with negative values correctly
on platforms with unsigned time_t (QNX). Here we don't use localtime()
=> we negative values of local_t are ok.
*/
if ((t->year == TIMESTAMP_MAX_YEAR) && (t->month == 1) && t->day > 4)
{
/*
We will pass (t->day - shift) to sec_since_epoch(), and
want this value to be a positive number, so we shift
only dates > 4.01.2038 (to avoid owerflow).
*/
shift= 2;
}
local_t= sec_since_epoch(t->year, t->month, (t->day - shift),
t->hour, t->minute,
saved_seconds ? 0 : t->second);
/* We have at least one range */
DBUG_ASSERT(sp->revcnt >= 1);
if (local_t < sp->revts[0] || local_t > sp->revts[sp->revcnt])
{
/*
This means that source time can't be represented as my_time_t due to
limited my_time_t range.
*/
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
DBUG_RETURN(0);
}
/* binary search for our range */
i= find_time_range(local_t, sp->revts, sp->revcnt);
/*
As there are no offset switches at the end of TIMESTAMP range,
we could simply check for overflow here (and don't need to bother
about DST gaps etc)
*/
if (shift)
{
if (local_t > (my_time_t) (TIMESTAMP_MAX_VALUE - shift * SECS_PER_DAY +
sp->revtis[i].rt_offset - saved_seconds))
{
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
DBUG_RETURN(0); /* my_time_t overflow */
}
local_t+= shift * SECS_PER_DAY;
}
if (sp->revtis[i].rt_type)
{
/*
Oops! We are in spring time gap.
May be we should return error here?
Now we are returning my_time_t value corresponding to the
beginning of the gap.
*/
*error_code= ER_WARN_INVALID_TIMESTAMP;
local_t= sp->revts[i] - sp->revtis[i].rt_offset + saved_seconds;
}
else
local_t= local_t - sp->revtis[i].rt_offset + saved_seconds;
/* check for TIMESTAMP_MAX_VALUE was already done above */
if (local_t < TIMESTAMP_MIN_VALUE)
{
local_t= 0;
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
}
DBUG_RETURN(local_t);
}
/*
End of elsie derived code.
*/
#endif /* !defined(TZINFO2SQL) */
#if !defined(TESTTIME) && !defined(TZINFO2SQL)
/*
String with names of SYSTEM time zone.
*/
static const String tz_SYSTEM_name("SYSTEM", 6, &my_charset_latin1);
/*
Instance of this class represents local time zone used on this system
(specified by TZ environment variable or via any other system mechanism).
It uses system functions (localtime_r, my_system_gmt_sec) for conversion
and is always available. Because of this it is used by default - if there
were no explicit time zone specified. On the other hand because of this
conversion methods provided by this class is significantly slower and
possibly less multi-threaded-friendly than corresponding Time_zone_db
methods so the latter should be preffered there it is possible.
*/
class Time_zone_system : public Time_zone
{
public:
Time_zone_system() {} /* Remove gcc warning */
virtual my_time_t TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const;
virtual void gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const;
virtual const String * get_name() const;
};
/*
Converts local time in system time zone in MYSQL_TIME representation
to its my_time_t representation.
SYNOPSIS
TIME_to_gmt_sec()
t - pointer to MYSQL_TIME structure with local time in
broken-down representation.
error_code - 0, if the conversion was successful;
ER_WARN_DATA_OUT_OF_RANGE, if t contains datetime value
which is out of TIMESTAMP range;
ER_WARN_INVALID_TIMESTAMP, if t represents value which
doesn't exists (falls into the spring time-gap).
DESCRIPTION
This method uses system function (localtime_r()) for conversion
local time in system time zone in MYSQL_TIME structure to its my_time_t
representation. Unlike the same function for Time_zone_db class
it it won't handle unnormalized input properly. Still it will
return lowest possible my_time_t in case of ambiguity or if we
provide time corresponding to the time-gap.
You should call my_init_time() function before using this function.
RETURN VALUE
Corresponding my_time_t value or 0 in case of error
*/
my_time_t
Time_zone_system::TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const
{
long not_used;
return my_system_gmt_sec(t, ¬_used, error_code);
}
/*
Converts time from UTC seconds since Epoch (my_time_t) representation
to system local time zone broken-down representation.
SYNOPSIS
gmt_sec_to_TIME()
tmp - pointer to MYSQL_TIME structure to fill-in
t - my_time_t value to be converted
NOTE
We assume that value passed to this function will fit into time_t range
supported by localtime_r. This conversion is putting restriction on
TIMESTAMP range in MySQL. If we can get rid of SYSTEM time zone at least
for interaction with client then we can extend TIMESTAMP range down to
the 1902 easily.
*/
void
Time_zone_system::gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const
{
struct tm tmp_tm;
time_t tmp_t= (time_t)t;
localtime_r(&tmp_t, &tmp_tm);
localtime_to_TIME(tmp, &tmp_tm);
tmp->time_type= MYSQL_TIMESTAMP_DATETIME;
adjust_leap_second(tmp);
}
/*
Get name of time zone
SYNOPSIS
get_name()
RETURN VALUE
Name of time zone as String
*/
const String *
Time_zone_system::get_name() const
{
return &tz_SYSTEM_name;
}
/*
Instance of this class represents UTC time zone. It uses system gmtime_r
function for conversions and is always available. It is used only for
my_time_t -> MYSQL_TIME conversions in various UTC_... functions, it is not
intended for MYSQL_TIME -> my_time_t conversions and shouldn't be exposed to user.
*/
class Time_zone_utc : public Time_zone
{
public:
Time_zone_utc() {} /* Remove gcc warning */
virtual my_time_t TIME_to_gmt_sec(const MYSQL_TIME *t,
uint *error_code) const;
virtual void gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const;
virtual const String * get_name() const;
};
/*
Convert UTC time from MYSQL_TIME representation to its my_time_t representation.
DESCRIPTION
Since Time_zone_utc is used only internally for my_time_t -> TIME
conversions, this function of Time_zone interface is not implemented for
this class and should not be called.
RETURN VALUE
0
*/
my_time_t
Time_zone_utc::TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const
{
/* Should be never called */
DBUG_ASSERT(0);
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
return 0;
}
/*
Converts time from UTC seconds since Epoch (my_time_t) representation
to broken-down representation (also in UTC).
SYNOPSIS
gmt_sec_to_TIME()
tmp - pointer to MYSQL_TIME structure to fill-in
t - my_time_t value to be converted
NOTE
See note for apropriate Time_zone_system method.
*/
void
Time_zone_utc::gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const
{
struct tm tmp_tm;
time_t tmp_t= (time_t)t;
gmtime_r(&tmp_t, &tmp_tm);
localtime_to_TIME(tmp, &tmp_tm);
tmp->time_type= MYSQL_TIMESTAMP_DATETIME;
adjust_leap_second(tmp);
}
/*
Get name of time zone
SYNOPSIS
get_name()
DESCRIPTION
Since Time_zone_utc is used only internally by SQL's UTC_* functions it
is not accessible directly, and hence this function of Time_zone
interface is not implemented for this class and should not be called.
RETURN VALUE
0
*/
const String *
Time_zone_utc::get_name() const
{
/* Should be never called */
DBUG_ASSERT(0);
return 0;
}
/*
Instance of this class represents some time zone which is
described in mysql.time_zone family of tables.
*/
class Time_zone_db : public Time_zone
{
public:
Time_zone_db(TIME_ZONE_INFO *tz_info_arg, const String * tz_name_arg);
virtual my_time_t TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const;
virtual void gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const;
virtual const String * get_name() const;
private:
TIME_ZONE_INFO *tz_info;
const String *tz_name;
};
/*
Initializes object representing time zone described by mysql.time_zone
tables.
SYNOPSIS
Time_zone_db()
tz_info_arg - pointer to TIME_ZONE_INFO structure which is filled
according to db or other time zone description
(for example by my_tz_init()).
Several Time_zone_db instances can share one
TIME_ZONE_INFO structure.
tz_name_arg - name of time zone.
*/
Time_zone_db::Time_zone_db(TIME_ZONE_INFO *tz_info_arg,
const String *tz_name_arg):
tz_info(tz_info_arg), tz_name(tz_name_arg)
{
}
/*
Converts local time in time zone described from TIME
representation to its my_time_t representation.
SYNOPSIS
TIME_to_gmt_sec()
t - pointer to MYSQL_TIME structure with local time
in broken-down representation.
error_code - 0, if the conversion was successful;
ER_WARN_DATA_OUT_OF_RANGE, if t contains datetime value
which is out of TIMESTAMP range;
ER_WARN_INVALID_TIMESTAMP, if t represents value which
doesn't exists (falls into the spring time-gap).
DESCRIPTION
Please see ::TIME_to_gmt_sec for function description and
parameter restrictions.
RETURN VALUE
Corresponding my_time_t value or 0 in case of error
*/
my_time_t
Time_zone_db::TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const
{
return ::TIME_to_gmt_sec(t, tz_info, error_code);
}
/*
Converts time from UTC seconds since Epoch (my_time_t) representation
to local time zone described in broken-down representation.
SYNOPSIS
gmt_sec_to_TIME()
tmp - pointer to MYSQL_TIME structure to fill-in
t - my_time_t value to be converted
*/
void
Time_zone_db::gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const
{
::gmt_sec_to_TIME(tmp, t, tz_info);
adjust_leap_second(tmp);
}
/*
Get name of time zone
SYNOPSIS
get_name()
RETURN VALUE
Name of time zone as ASCIIZ-string
*/
const String *
Time_zone_db::get_name() const
{
return tz_name;
}
/*
Instance of this class represents time zone which
was specified as offset from UTC.
*/
class Time_zone_offset : public Time_zone
{
public:
Time_zone_offset(long tz_offset_arg);
virtual my_time_t TIME_to_gmt_sec(const MYSQL_TIME *t,
uint *error_code) const;
virtual void gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const;
virtual const String * get_name() const;
/*
This have to be public because we want to be able to access it from
my_offset_tzs_get_key() function
*/
long offset;
private:
/* Extra reserve because of snprintf */
char name_buff[7+16];
String name;
};
/*
Initializes object representing time zone described by its offset from UTC.
SYNOPSIS
Time_zone_offset()
tz_offset_arg - offset from UTC in seconds.
Positive for direction to east.
*/
Time_zone_offset::Time_zone_offset(long tz_offset_arg):
offset(tz_offset_arg)
{
uint hours= abs((int)(offset / SECS_PER_HOUR));
uint minutes= abs((int)(offset % SECS_PER_HOUR / SECS_PER_MIN));
size_t length= my_snprintf(name_buff, sizeof(name_buff), "%s%02d:%02d",
(offset>=0) ? "+" : "-", hours, minutes);
name.set(name_buff, length, &my_charset_latin1);
}
/*
Converts local time in time zone described as offset from UTC
from MYSQL_TIME representation to its my_time_t representation.
SYNOPSIS
TIME_to_gmt_sec()
t - pointer to MYSQL_TIME structure with local time
in broken-down representation.
error_code - 0, if the conversion was successful;
ER_WARN_DATA_OUT_OF_RANGE, if t contains datetime value
which is out of TIMESTAMP range;
ER_WARN_INVALID_TIMESTAMP, if t represents value which
doesn't exists (falls into the spring time-gap).
RETURN VALUE
Corresponding my_time_t value or 0 in case of error.
*/
my_time_t
Time_zone_offset::TIME_to_gmt_sec(const MYSQL_TIME *t, uint *error_code) const
{
my_time_t local_t;
int shift= 0;
/*
Check timestamp range.we have to do this as calling function relies on
us to make all validation checks here.
*/
if (!validate_timestamp_range(t))
{
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
return 0;
}
*error_code= 0;
/*
Do a temporary shift of the boundary dates to avoid
overflow of my_time_t if the time value is near it's
maximum range
*/
if ((t->year == TIMESTAMP_MAX_YEAR) && (t->month == 1) && t->day > 4)
shift= 2;
local_t= sec_since_epoch(t->year, t->month, (t->day - shift),
t->hour, t->minute, t->second) -
offset;
if (shift)
{
/* Add back the shifted time */
local_t+= shift * SECS_PER_DAY;
}
if (local_t >= TIMESTAMP_MIN_VALUE && local_t <= TIMESTAMP_MAX_VALUE)
return local_t;
/* range error*/
*error_code= ER_WARN_DATA_OUT_OF_RANGE;
return 0;
}
/*
Converts time from UTC seconds since Epoch (my_time_t) representation
to local time zone described as offset from UTC and in broken-down
representation.
SYNOPSIS
gmt_sec_to_TIME()
tmp - pointer to MYSQL_TIME structure to fill-in
t - my_time_t value to be converted
*/
void
Time_zone_offset::gmt_sec_to_TIME(MYSQL_TIME *tmp, my_time_t t) const
{
sec_to_TIME(tmp, t, offset);
}
/*
Get name of time zone
SYNOPSIS
get_name()
RETURN VALUE
Name of time zone as pointer to String object
*/
const String *
Time_zone_offset::get_name() const
{
return &name;
}
static Time_zone_utc tz_UTC;
static Time_zone_system tz_SYSTEM;
static Time_zone_offset tz_OFFSET0(0);
Time_zone *my_tz_OFFSET0= &tz_OFFSET0;
Time_zone *my_tz_UTC= &tz_UTC;
Time_zone *my_tz_SYSTEM= &tz_SYSTEM;
static HASH tz_names;
static HASH offset_tzs;
static MEM_ROOT tz_storage;
/*
These mutex protects offset_tzs and tz_storage.
These protection needed only when we are trying to set
time zone which is specified as offset, and searching for existing
time zone in offset_tzs or creating if it didn't existed before in
tz_storage. So contention is low.
*/
static mysql_mutex_t tz_LOCK;
static bool tz_inited= 0;
/*
This two static variables are inteded for holding info about leap seconds
shared by all time zones.
*/
static uint tz_leapcnt= 0;
static LS_INFO *tz_lsis= 0;
/*
Shows whenever we have found time zone tables during start-up.
Used for avoiding of putting those tables to global table list
for queries that use time zone info.
*/
static bool time_zone_tables_exist= 1;
/*
Names of tables (with their lengths) that are needed
for dynamical loading of time zone descriptions.
*/
static const LEX_CSTRING tz_tables_names[MY_TZ_TABLES_COUNT]=
{
{ STRING_WITH_LEN("time_zone_name")},
{ STRING_WITH_LEN("time_zone")},
{ STRING_WITH_LEN("time_zone_transition_type")},
{ STRING_WITH_LEN("time_zone_transition")}
};
class Tz_names_entry: public Sql_alloc
{
public:
String name;
Time_zone *tz;
};
/*
We are going to call both of these functions from C code so
they should obey C calling conventions.
*/
extern "C" uchar *
my_tz_names_get_key(Tz_names_entry *entry, size_t *length,
my_bool not_used __attribute__((unused)))
{
*length= entry->name.length();
return (uchar*) entry->name.ptr();
}
extern "C" uchar *
my_offset_tzs_get_key(Time_zone_offset *entry,
size_t *length,
my_bool not_used __attribute__((unused)))
{
*length= sizeof(long);
return (uchar*) &entry->offset;
}
/*
Prepare table list with time zone related tables from preallocated array.
SYNOPSIS
tz_init_table_list()
tz_tabs - pointer to preallocated array of MY_TZ_TABLES_COUNT
TABLE_LIST objects
DESCRIPTION
This function prepares list of TABLE_LIST objects which can be used
for opening of time zone tables from preallocated array.
*/
static void
tz_init_table_list(TABLE_LIST *tz_tabs)
{
for (int i= 0; i < MY_TZ_TABLES_COUNT; i++)
{
tz_tabs[i].init_one_table(&MYSQL_SCHEMA_NAME, tz_tables_names + i,
NULL, TL_READ);
if (i != MY_TZ_TABLES_COUNT - 1)
tz_tabs[i].next_global= tz_tabs[i].next_local= &tz_tabs[i+1];
if (i != 0)
tz_tabs[i].prev_global= &tz_tabs[i-1].next_global;
}
}
#ifdef HAVE_PSI_INTERFACE
static PSI_mutex_key key_tz_LOCK;
static PSI_mutex_info all_tz_mutexes[]=
{
{ & key_tz_LOCK, "tz_LOCK", PSI_FLAG_GLOBAL}
};
static void init_tz_psi_keys(void)
{
const char* category= "sql";
int count;
if (PSI_server == NULL)
return;
count= array_elements(all_tz_mutexes);
PSI_server->register_mutex(category, all_tz_mutexes, count);
}
#endif /* HAVE_PSI_INTERFACE */
/*
Initialize time zone support infrastructure.
SYNOPSIS
my_tz_init()
thd - current thread object
default_tzname - default time zone or 0 if none.
bootstrap - indicates whenever we are in bootstrap mode
DESCRIPTION
This function will init memory structures needed for time zone support,
it will register mandatory SYSTEM time zone in them. It will try to open
mysql.time_zone* tables and load information about default time zone and
information which further will be shared among all time zones loaded.
If system tables with time zone descriptions don't exist it won't fail
(unless default_tzname is time zone from tables). If bootstrap parameter
is true then this routine assumes that we are in bootstrap mode and won't
load time zone descriptions unless someone specifies default time zone
which is supposedly stored in those tables.
It'll also set default time zone if it is specified.
RETURN VALUES
0 - ok
1 - Error
*/
my_bool
my_tz_init(THD *org_thd, const char *default_tzname, my_bool bootstrap)
{
THD *thd;
TABLE_LIST tz_tables[1+MY_TZ_TABLES_COUNT];
TABLE *table;
const LEX_CSTRING tmp_table_name= { STRING_WITH_LEN("time_zone_leap_second") };
Tz_names_entry *tmp_tzname;
my_bool return_val= 1;
int res;
DBUG_ENTER("my_tz_init");
#ifdef HAVE_PSI_INTERFACE
init_tz_psi_keys();
#endif
/*
To be able to run this from boot, we allocate a temporary THD
*/
if (!(thd= new THD(0)))
DBUG_RETURN(1);
thd->thread_stack= (char*) &thd;
thd->store_globals();
/* Init all memory structures that require explicit destruction */
if (my_hash_init(&tz_names, &my_charset_latin1, 20,
0, 0, (my_hash_get_key) my_tz_names_get_key, 0, 0))
{
sql_print_error("Fatal error: OOM while initializing time zones");
goto end;
}
if (my_hash_init(&offset_tzs, &my_charset_latin1, 26, 0, 0,
(my_hash_get_key)my_offset_tzs_get_key, 0, 0))
{
sql_print_error("Fatal error: OOM while initializing time zones");
my_hash_free(&tz_names);
goto end;
}
init_sql_alloc(&tz_storage, "timezone_storage", 32 * 1024, 0, MYF(0));
mysql_mutex_init(key_tz_LOCK, &tz_LOCK, MY_MUTEX_INIT_FAST);
tz_inited= 1;
/* Add 'SYSTEM' time zone to tz_names hash */
if (!(tmp_tzname= new (&tz_storage) Tz_names_entry()))
{
sql_print_error("Fatal error: OOM while initializing time zones");
goto end_with_cleanup;
}
tmp_tzname->name.set(STRING_WITH_LEN("SYSTEM"), &my_charset_latin1);
tmp_tzname->tz= my_tz_SYSTEM;
if (my_hash_insert(&tz_names, (const uchar *)tmp_tzname))
{
sql_print_error("Fatal error: OOM while initializing time zones");
goto end_with_cleanup;
}
if (bootstrap)
{
/* If we are in bootstrap mode we should not load time zone tables */
return_val= time_zone_tables_exist= 0;
goto end_with_cleanup;
}
/*
After this point all memory structures are inited and we even can live
without time zone description tables. Now try to load information about
leap seconds shared by all time zones.
*/
thd->set_db(&MYSQL_SCHEMA_NAME);
bzero((char*) &tz_tables[0], sizeof(TABLE_LIST));
tz_tables[0].alias= tz_tables[0].table_name= tmp_table_name;
tz_tables[0].db= MYSQL_SCHEMA_NAME;
tz_tables[0].lock_type= TL_READ;
tz_init_table_list(tz_tables+1);
tz_tables[0].next_global= tz_tables[0].next_local= &tz_tables[1];
tz_tables[1].prev_global= &tz_tables[0].next_global;
init_mdl_requests(tz_tables);
/*
We need to open only mysql.time_zone_leap_second, but we try to
open all time zone tables to see if they exist.
*/
if (open_and_lock_tables(thd, tz_tables, FALSE,
MYSQL_OPEN_IGNORE_FLUSH | MYSQL_LOCK_IGNORE_TIMEOUT))
{
sql_print_warning("Can't open and lock time zone table: %s "
"trying to live without them",
thd->get_stmt_da()->message());
/* We will try emulate that everything is ok */
return_val= time_zone_tables_exist= 0;
goto end_with_setting_default_tz;
}
for (TABLE_LIST *tl= tz_tables; tl; tl= tl->next_global)
{
tl->table->use_all_columns();
/* Force close at the end of the function to free memory. */
tl->table->m_needs_reopen= TRUE;
}
/*
Now we are going to load leap seconds descriptions that are shared
between all time zones that use them. We are using index for getting
records in proper order. Since we share the same MEM_ROOT between
all time zones we just allocate enough memory for it first.
*/
if (!(tz_lsis= (LS_INFO*) alloc_root(&tz_storage,
sizeof(LS_INFO) * TZ_MAX_LEAPS)))
{
sql_print_error("Fatal error: Out of memory while loading "
"mysql.time_zone_leap_second table");
goto end_with_close;
}
table= tz_tables[0].table;
if (table->file->ha_index_init(0, 1))
goto end_with_close;
table->use_all_columns();
tz_leapcnt= 0;
res= table->file->ha_index_first(table->record[0]);
while (!res)
{
if (tz_leapcnt + 1 > TZ_MAX_LEAPS)
{
sql_print_error("Fatal error: While loading mysql.time_zone_leap_second"
" table: too much leaps");
table->file->ha_index_end();
goto end_with_close;
}
tz_lsis[tz_leapcnt].ls_trans= (my_time_t)table->field[0]->val_int();
tz_lsis[tz_leapcnt].ls_corr= (long)table->field[1]->val_int();
tz_leapcnt++;
DBUG_PRINT("info",
("time_zone_leap_second table: tz_leapcnt: %u tt_time: %lu offset: %ld",
tz_leapcnt, (ulong) tz_lsis[tz_leapcnt-1].ls_trans,
tz_lsis[tz_leapcnt-1].ls_corr));
res= table->file->ha_index_next(table->record[0]);
}
(void)table->file->ha_index_end();
if (res != HA_ERR_END_OF_FILE)
{
sql_print_error("Fatal error: Error while loading "
"mysql.time_zone_leap_second table");
goto end_with_close;
}
/*
Loading of info about leap seconds succeeded
*/
return_val= 0;
end_with_setting_default_tz:
/* If we have default time zone try to load it */
if (default_tzname)
{
String tmp_tzname2(default_tzname, &my_charset_latin1);
/*
Time zone tables may be open here, and my_tz_find() may open
most of them once more, but this is OK for system tables open
for READ.
*/
if (unlikely(!(global_system_variables.time_zone=
my_tz_find(thd, &tmp_tzname2))))
{
sql_print_error("Fatal error: Illegal or unknown default time zone '%s'",
default_tzname);
return_val= 1;
}
}
end_with_close:
if (time_zone_tables_exist)
close_mysql_tables(thd);
end_with_cleanup:
/* if there were error free time zone describing structs */
if (unlikely(return_val))
my_tz_free();
end:
delete thd;
if (org_thd)
org_thd->store_globals(); /* purecov: inspected */
default_tz= default_tz_name ? global_system_variables.time_zone
: my_tz_SYSTEM;
DBUG_RETURN(return_val);
}
/*
Free resources used by time zone support infrastructure.
SYNOPSIS
my_tz_free()
*/
void my_tz_free()
{
if (tz_inited)
{
tz_inited= 0;
mysql_mutex_destroy(&tz_LOCK);
my_hash_free(&offset_tzs);
my_hash_free(&tz_names);
free_root(&tz_storage, MYF(0));
}
}
/*
Load time zone description from system tables.
SYNOPSIS
tz_load_from_open_tables()
tz_name - name of time zone that should be loaded.
tz_tables - list of tables from which time zone description
should be loaded
DESCRIPTION
This function will try to load information about time zone specified
from the list of the already opened and locked tables (first table in
tz_tables should be time_zone_name, next time_zone, then
time_zone_transition_type and time_zone_transition should be last).
It will also update information in hash used for time zones lookup.
RETURN VALUES
Returns pointer to newly created Time_zone object or 0 in case of error.
*/
static Time_zone*
tz_load_from_open_tables(const String *tz_name, TABLE_LIST *tz_tables)
{
TABLE *table= 0;
TIME_ZONE_INFO *tz_info= NULL;
Tz_names_entry *tmp_tzname;
Time_zone *return_val= 0;
int res;
uint tzid, ttid;
my_time_t ttime;
char buff[MAX_FIELD_WIDTH];
uchar keybuff[32];
Field *field;
String abbr(buff, sizeof(buff), &my_charset_latin1);
char *alloc_buff= NULL;
char *tz_name_buff= NULL;
/*
Temporary arrays that are used for loading of data for filling
TIME_ZONE_INFO structure
*/
my_time_t ats[TZ_MAX_TIMES];
uchar types[TZ_MAX_TIMES];
TRAN_TYPE_INFO ttis[TZ_MAX_TYPES];
#ifdef ABBR_ARE_USED
char chars[MY_MAX(TZ_MAX_CHARS + 1, (2 * (MY_TZNAME_MAX + 1)))];
#endif
/*
Used as a temporary tz_info until we decide that we actually want to
allocate and keep the tz info and tz name in tz_storage.
*/
TIME_ZONE_INFO tmp_tz_info;
memset(&tmp_tz_info, 0, sizeof(TIME_ZONE_INFO));
DBUG_ENTER("tz_load_from_open_tables");
/*
Let us find out time zone id by its name (there is only one index
and it is specifically for this purpose).
*/
table= tz_tables->table;
tz_tables= tz_tables->next_local;
table->field[0]->store(tz_name->ptr(), tz_name->length(),
&my_charset_latin1);
if (table->file->ha_index_init(0, 1))
goto end;
if (table->file->ha_index_read_map(table->record[0], table->field[0]->ptr,
HA_WHOLE_KEY, HA_READ_KEY_EXACT))
{
#ifdef EXTRA_DEBUG
/*
Most probably user has mistyped time zone name, so no need to bark here
unless we need it for debugging.
*/
sql_print_error("Can't find description of time zone '%.*s'",
tz_name->length(), tz_name->ptr());
#endif
goto end;
}
tzid= (uint)table->field[1]->val_int();
(void)table->file->ha_index_end();
/*
Now we need to lookup record in mysql.time_zone table in order to
understand whenever this timezone uses leap seconds (again we are
using the only index in this table).
*/
table= tz_tables->table;
tz_tables= tz_tables->next_local;
field= table->field[0];
field->store((longlong) tzid, TRUE);
DBUG_ASSERT(field->key_length() <= sizeof(keybuff));
field->get_key_image(keybuff,
MY_MIN(field->key_length(), sizeof(keybuff)),
Field::itRAW);
if (table->file->ha_index_init(0, 1))
goto end;
if (table->file->ha_index_read_map(table->record[0], keybuff,
HA_WHOLE_KEY, HA_READ_KEY_EXACT))
{
sql_print_error("Can't find description of time zone '%u'", tzid);
goto end;
}
/* If Uses_leap_seconds == 'Y' */
if (table->field[1]->val_int() == 1)
{
tmp_tz_info.leapcnt= tz_leapcnt;
tmp_tz_info.lsis= tz_lsis;
}
(void)table->file->ha_index_end();
/*
Now we will iterate through records for out time zone in
mysql.time_zone_transition_type table. Because we want records
only for our time zone guess what are we doing?
Right - using special index.
*/
table= tz_tables->table;
tz_tables= tz_tables->next_local;
field= table->field[0];
field->store((longlong) tzid, TRUE);
DBUG_ASSERT(field->key_length() <= sizeof(keybuff));
field->get_key_image(keybuff,
MY_MIN(field->key_length(), sizeof(keybuff)),
Field::itRAW);
if (table->file->ha_index_init(0, 1))
goto end;
res= table->file->ha_index_read_map(table->record[0], keybuff,
(key_part_map)1, HA_READ_KEY_EXACT);
while (!res)
{
ttid= (uint)table->field[1]->val_int();
if (ttid >= TZ_MAX_TYPES)
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition_type table: too big "
"transition type id");
goto end;
}
ttis[ttid].tt_gmtoff= (long)table->field[2]->val_int();
ttis[ttid].tt_isdst= (table->field[3]->val_int() > 0);
#ifdef ABBR_ARE_USED
// FIXME should we do something with duplicates here ?
table->field[4]->val_str(&abbr, &abbr);
if (tmp_tz_info.charcnt + abbr.length() + 1 > sizeof(chars))
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition_type table: not enough "
"room for abbreviations");
goto end;
}
ttis[ttid].tt_abbrind= tmp_tz_info.charcnt;
memcpy(chars + tmp_tz_info.charcnt, abbr.ptr(), abbr.length());
tmp_tz_info.charcnt+= abbr.length();
chars[tmp_tz_info.charcnt]= 0;
tmp_tz_info.charcnt++;
DBUG_PRINT("info",
("time_zone_transition_type table: tz_id=%u tt_id=%u tt_gmtoff=%ld "
"abbr='%s' tt_isdst=%u", tzid, ttid, ttis[ttid].tt_gmtoff,
chars + ttis[ttid].tt_abbrind, ttis[ttid].tt_isdst));
#else
DBUG_PRINT("info",
("time_zone_transition_type table: tz_id=%u tt_id=%u tt_gmtoff=%ld "
"tt_isdst=%u", tzid, ttid, ttis[ttid].tt_gmtoff, ttis[ttid].tt_isdst));
#endif
/* ttid is increasing because we are reading using index */
DBUG_ASSERT(ttid >= tmp_tz_info.typecnt);
tmp_tz_info.typecnt= ttid + 1;
res= table->file->ha_index_next_same(table->record[0], keybuff, 4);
}
if (res != HA_ERR_END_OF_FILE)
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition_type table");
goto end;
}
(void)table->file->ha_index_end();
/*
At last we are doing the same thing for records in
mysql.time_zone_transition table. Here we additionally need records
in ascending order by index scan also satisfies us.
*/
table= tz_tables->table;
table->field[0]->store((longlong) tzid, TRUE);
if (table->file->ha_index_init(0, 1))
goto end;
res= table->file->ha_index_read_map(table->record[0], keybuff,
(key_part_map)1, HA_READ_KEY_EXACT);
while (!res)
{
ttime= (my_time_t)table->field[1]->val_int();
ttid= (uint)table->field[2]->val_int();
if (tmp_tz_info.timecnt + 1 > TZ_MAX_TIMES)
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition table: "
"too much transitions");
goto end;
}
if (ttid + 1 > tmp_tz_info.typecnt)
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition table: "
"bad transition type id");
goto end;
}
ats[tmp_tz_info.timecnt]= ttime;
types[tmp_tz_info.timecnt]= ttid;
tmp_tz_info.timecnt++;
DBUG_PRINT("info",
("time_zone_transition table: tz_id: %u tt_time: %lu tt_id: %u",
tzid, (ulong) ttime, ttid));
res= table->file->ha_index_next_same(table->record[0], keybuff, 4);
}
/*
We have to allow HA_ERR_KEY_NOT_FOUND because some time zones
for example UTC have no transitons.
*/
if (res != HA_ERR_END_OF_FILE && res != HA_ERR_KEY_NOT_FOUND)
{
sql_print_error("Error while loading time zone description from "
"mysql.time_zone_transition table");
goto end;
}
(void)table->file->ha_index_end();
table= 0;
/*
Let us check how correct our time zone description is. We don't check for
tz->timecnt < 1 since it is ok for GMT.
*/
if (tmp_tz_info.typecnt < 1)
{
sql_print_error("loading time zone without transition types");
goto end;
}
/* Allocate memory for the timezone info and timezone name in tz_storage. */
if (!(alloc_buff= (char*) alloc_root(&tz_storage, sizeof(TIME_ZONE_INFO) +
tz_name->length() + 1)))
{
sql_print_error("Out of memory while loading time zone description");
return 0;
}
/* Move the temporary tz_info into the allocated area */
tz_info= (TIME_ZONE_INFO *)alloc_buff;
memcpy(tz_info, &tmp_tz_info, sizeof(TIME_ZONE_INFO));
tz_name_buff= alloc_buff + sizeof(TIME_ZONE_INFO);
/*
By writing zero to the end we guarantee that we can call ptr()
instead of c_ptr() for time zone name.
*/
strmake(tz_name_buff, tz_name->ptr(), tz_name->length());
/*
Now we will allocate memory and init TIME_ZONE_INFO structure.
*/
if (!(alloc_buff= (char*) alloc_root(&tz_storage,
ALIGN_SIZE(sizeof(my_time_t) *
tz_info->timecnt) +
ALIGN_SIZE(tz_info->timecnt) +
#ifdef ABBR_ARE_USED
ALIGN_SIZE(tz_info->charcnt) +
#endif
sizeof(TRAN_TYPE_INFO) *
tz_info->typecnt)))
{
sql_print_error("Out of memory while loading time zone description");
goto end;
}
tz_info->ats= (my_time_t *) alloc_buff;
memcpy(tz_info->ats, ats, tz_info->timecnt * sizeof(my_time_t));
alloc_buff+= ALIGN_SIZE(sizeof(my_time_t) * tz_info->timecnt);
tz_info->types= (uchar *)alloc_buff;
memcpy(tz_info->types, types, tz_info->timecnt);
alloc_buff+= ALIGN_SIZE(tz_info->timecnt);
#ifdef ABBR_ARE_USED
tz_info->chars= alloc_buff;
memcpy(tz_info->chars, chars, tz_info->charcnt);
alloc_buff+= ALIGN_SIZE(tz_info->charcnt);
#endif
tz_info->ttis= (TRAN_TYPE_INFO *)alloc_buff;
memcpy(tz_info->ttis, ttis, tz_info->typecnt * sizeof(TRAN_TYPE_INFO));
/* Build reversed map. */
if (prepare_tz_info(tz_info, &tz_storage))
{
sql_print_error("Unable to build mktime map for time zone");
goto end;
}
if (!(tmp_tzname= new (&tz_storage) Tz_names_entry()) ||
!(tmp_tzname->tz= new (&tz_storage) Time_zone_db(tz_info,
&(tmp_tzname->name))) ||
(tmp_tzname->name.set(tz_name_buff, tz_name->length(),
&my_charset_latin1),
my_hash_insert(&tz_names, (const uchar *)tmp_tzname)))
{
sql_print_error("Out of memory while loading time zone");
goto end;
}
/*
Loading of time zone succeeded
*/
return_val= tmp_tzname->tz;
end:
if (table && table->file->inited)
(void) table->file->ha_index_end();
DBUG_RETURN(return_val);
}
/*
Parse string that specifies time zone as offset from UTC.
SYNOPSIS
str_to_offset()
str - pointer to string which contains offset
length - length of string
offset - out parameter for storing found offset in seconds.
DESCRIPTION
This function parses string which contains time zone offset
in form similar to '+10:00' and converts found value to
seconds from UTC form (east is positive).
RETURN VALUE
0 - Ok
1 - String doesn't contain valid time zone offset
*/
my_bool
str_to_offset(const char *str, uint length, long *offset)
{
const char *end= str + length;
my_bool negative;
ulong number_tmp;
long offset_tmp;
if (length < 4)
return 1;
if (*str == '+')
negative= 0;
else if (*str == '-')
negative= 1;
else
return 1;
str++;
number_tmp= 0;
while (str < end && my_isdigit(&my_charset_latin1, *str))
{
number_tmp= number_tmp*10 + *str - '0';
str++;
}
if (str + 1 >= end || *str != ':')
return 1;
str++;
offset_tmp = number_tmp * MINS_PER_HOUR; number_tmp= 0;
while (str < end && my_isdigit(&my_charset_latin1, *str))
{
number_tmp= number_tmp * 10 + *str - '0';
str++;
}
if (str != end)
return 1;
offset_tmp= (offset_tmp + number_tmp) * SECS_PER_MIN;
if (negative)
offset_tmp= -offset_tmp;
/*
Check if offset is in range prescribed by standard
(from -12:59 to 13:00).
*/
if (number_tmp > 59 || offset_tmp < -13 * SECS_PER_HOUR + 1 ||
offset_tmp > 13 * SECS_PER_HOUR)
return 1;
*offset= offset_tmp;
return 0;
}
/*
Get Time_zone object for specified time zone.
SYNOPSIS
my_tz_find()
thd - pointer to thread THD structure
name - time zone specification
DESCRIPTION
This function checks if name is one of time zones described in db,
predefined SYSTEM time zone or valid time zone specification as
offset from UTC (In last case it will create proper Time_zone_offset
object if there were not any.). If name is ok it returns corresponding
Time_zone object.
Clients of this function are not responsible for releasing resources
occupied by returned Time_zone object so they can just forget pointers
to Time_zone object if they are not needed longer.
Other important property of this function: if some Time_zone found once
it will be for sure found later, so this function can also be used for
checking if proper Time_zone object exists (and if there will be error
it will be reported during first call).
If name pointer is 0 then this function returns 0 (this allows to pass 0
values as parameter without additional external check and this property
is used by @@time_zone variable handling code).
It will perform lookup in system tables (mysql.time_zone*),
opening and locking them, and closing afterwards. It won't perform
such lookup if no time zone describing tables were found during
server start up.
RETURN VALUE
Pointer to corresponding Time_zone object. 0 - in case of bad time zone
specification or other error.
*/
Time_zone *
my_tz_find(THD *thd, const String *name)
{
Tz_names_entry *tmp_tzname;
Time_zone *result_tz= 0;
long offset;
DBUG_ENTER("my_tz_find");
DBUG_PRINT("enter", ("time zone name='%s'",
name ? ((String *)name)->c_ptr_safe() : "NULL"));
if (!name || name->is_empty())
DBUG_RETURN(0);
mysql_mutex_lock(&tz_LOCK);
if (!str_to_offset(name->ptr(), name->length(), &offset))
{
if (!(result_tz= (Time_zone_offset *)my_hash_search(&offset_tzs,
(const uchar *)&offset,
sizeof(long))))
{
DBUG_PRINT("info", ("Creating new Time_zone_offset object"));
if (!(result_tz= new (&tz_storage) Time_zone_offset(offset)) ||
my_hash_insert(&offset_tzs, (const uchar *) result_tz))
{
result_tz= 0;
sql_print_error("Fatal error: Out of memory "
"while setting new time zone");
}
}
}
else
{
result_tz= 0;
if ((tmp_tzname= (Tz_names_entry *)my_hash_search(&tz_names,
(const uchar *)
name->ptr(),
name->length())))
result_tz= tmp_tzname->tz;
else if (time_zone_tables_exist)
{
TABLE_LIST tz_tables[MY_TZ_TABLES_COUNT];
Open_tables_backup open_tables_state_backup;
tz_init_table_list(tz_tables);
init_mdl_requests(tz_tables);
if (!open_system_tables_for_read(thd, tz_tables,
&open_tables_state_backup))
{
result_tz= tz_load_from_open_tables(name, tz_tables);
close_system_tables(thd, &open_tables_state_backup);
}
}
}
mysql_mutex_unlock(&tz_LOCK);
if (result_tz && result_tz != my_tz_SYSTEM && result_tz != my_tz_UTC)
status_var_increment(thd->status_var.feature_timezone);
DBUG_RETURN(result_tz);
}
/**
Convert leap seconds into non-leap
This function will convert the leap seconds added by the OS to
non-leap seconds, e.g. 23:59:59, 23:59:60 -> 23:59:59, 00:00:01 ...
This check is not checking for years on purpose : although it's not a
complete check this way it doesn't require looking (and having installed)
the leap seconds table.
@param[in,out] broken down time structure as filled in by the OS
*/
void Time_zone::adjust_leap_second(MYSQL_TIME *t)
{
if (t->second == 60 || t->second == 61)
t->second= 59;
}
#endif /* !defined(TESTTIME) && !defined(TZINFO2SQL) */
#ifdef TZINFO2SQL
/*
This code belongs to mysql_tzinfo_to_sql converter command line utility.
This utility should be used by db admin for populating mysql.time_zone
tables.
*/
/*
Print info about time zone described by TIME_ZONE_INFO struct as
SQL statements populating mysql.time_zone* tables.
SYNOPSIS
print_tz_as_sql()
tz_name - name of time zone
sp - structure describing time zone
*/
void
print_tz_as_sql(const char* tz_name, const TIME_ZONE_INFO *sp)
{
uint i;
/* Here we assume that all time zones have same leap correction tables */
printf("INSERT INTO time_zone (Use_leap_seconds) VALUES ('%s');\n",
sp->leapcnt ? "Y" : "N");
printf("SET @time_zone_id= LAST_INSERT_ID();\n");
printf("INSERT INTO time_zone_name (Name, Time_zone_id) VALUES \
('%s', @time_zone_id);\n", tz_name);
if (sp->timecnt)
{
printf("INSERT INTO time_zone_transition \
(Time_zone_id, Transition_time, Transition_type_id) VALUES\n");
for (i= 0; i < sp->timecnt; i++)
printf("%s(@time_zone_id, %ld, %u)\n", (i == 0 ? " " : ","), sp->ats[i],
(uint)sp->types[i]);
printf(";\n");
}
printf("INSERT INTO time_zone_transition_type \
(Time_zone_id, Transition_type_id, Offset, Is_DST, Abbreviation) VALUES\n");
for (i= 0; i < sp->typecnt; i++)
printf("%s(@time_zone_id, %u, %ld, %d, '%s')\n", (i == 0 ? " " : ","), i,
sp->ttis[i].tt_gmtoff, sp->ttis[i].tt_isdst,
sp->chars + sp->ttis[i].tt_abbrind);
printf(";\n");
}
/*
Print info about leap seconds in time zone as SQL statements
populating mysql.time_zone_leap_second table.
SYNOPSIS
print_tz_leaps_as_sql()
sp - structure describing time zone
*/
void
print_tz_leaps_as_sql(const TIME_ZONE_INFO *sp)
{
uint i;
/*
We are assuming that there are only one list of leap seconds
For all timezones.
*/
if (!opt_skip_write_binlog)
printf("\\d |\n"
"IF (select count(*) from information_schema.global_variables where\n"
"variable_name='wsrep_on' and variable_value='ON') = 1 THEN\n"
"ALTER TABLE time_zone_leap_second ENGINE=InnoDB;\n"
"END IF|\n"
"\\d ;\n");
printf("TRUNCATE TABLE time_zone_leap_second;\n");
if (sp->leapcnt)
{
printf("INSERT INTO time_zone_leap_second \
(Transition_time, Correction) VALUES\n");
for (i= 0; i < sp->leapcnt; i++)
printf("%s(%ld, %ld)\n", (i == 0 ? " " : ","),
sp->lsis[i].ls_trans, sp->lsis[i].ls_corr);
printf(";\n");
}
if (!opt_skip_write_binlog)
printf("\\d |\n"
"IF (select count(*) from information_schema.global_variables where\n"
"variable_name='wsrep_on' and variable_value='ON') = 1 THEN\n"
"ALTER TABLE time_zone_leap_second ENGINE=MyISAM;\n"
"END IF|\n"
"\\d ;\n");
printf("ALTER TABLE time_zone_leap_second ORDER BY Transition_time;\n");
}
/*
Some variables used as temporary or as parameters
in recursive scan_tz_dir() code.
*/
TIME_ZONE_INFO tz_info;
MEM_ROOT tz_storage;
char fullname[FN_REFLEN + 1];
char *root_name_end;
/*
known file types that exist in the zoneinfo directory that are safe to
silently skip
*/
const char *known_extensions[]= {
".tab",
NullS
};
/*
Recursively scan zoneinfo directory and print all found time zone
descriptions as SQL.
SYNOPSIS
scan_tz_dir()
name_end - pointer to end of path to directory to be searched.
symlink_recursion_level How many symlink directory levels are used
verbose >0 if we should print warnings
DESCRIPTION
This auxiliary recursive function also uses several global
variables as in parameters and for storing temporary values.
fullname - path to directory that should be scanned.
root_name_end - pointer to place in fullname where part with
path to initial directory ends.
current_tz_id - last used time zone id
RETURN VALUE
0 - Ok, 1 - Fatal error
*/
my_bool
scan_tz_dir(char * name_end, uint symlink_recursion_level, uint verbose)
{
MY_DIR *cur_dir;
char *name_end_tmp;
uint i;
/* Sort directory data, to pass mtr tests on different platforms. */
if (!(cur_dir= my_dir(fullname, MYF(MY_WANT_STAT|MY_WANT_SORT))))
return 1;
name_end= strmake(name_end, "/", FN_REFLEN - (name_end - fullname));
for (i= 0; i < cur_dir->number_of_files; i++)
{
if (cur_dir->dir_entry[i].name[0] != '.' &&
strcmp(cur_dir->dir_entry[i].name, "Factory"))
{
name_end_tmp= strmake(name_end, cur_dir->dir_entry[i].name,
FN_REFLEN - (name_end - fullname));
if (MY_S_ISDIR(cur_dir->dir_entry[i].mystat->st_mode))
{
my_bool is_symlink;
if ((is_symlink= my_is_symlink(fullname)) &&
symlink_recursion_level > 0)
{
/*
The timezone definition data in some Linux distributions
(e.g. the "timezone-data-2013f" package in Gentoo)
may have synlimks like:
/usr/share/zoneinfo/posix/ -> /usr/share/zoneinfo/,
so the same timezone files are available under two names
(e.g. "CET" and "posix/CET").
We allow one level of symlink recursion for backward
compatibility with earlier timezone data packages that have
duplicate copies of the same timezone files inside the root
directory and the "posix" subdirectory (instead of symlinking).
This makes "posix/CET" still available, but helps to avoid
following such symlinks infinitely:
/usr/share/zoneinfo/posix/posix/posix/.../posix/
*/
/*
This is a normal case and not critical. only print warning if
verbose mode is choosen.
*/
if (verbose > 0)
{
fflush(stdout);
fprintf(stderr, "Warning: Skipping directory '%s': "
"to avoid infinite symlink recursion.\n", fullname);
}
continue;
}
if (scan_tz_dir(name_end_tmp, symlink_recursion_level + is_symlink,
verbose))
{
my_dirend(cur_dir);
return 1;
}
}
else if (MY_S_ISREG(cur_dir->dir_entry[i].mystat->st_mode))
{
init_alloc_root(&tz_storage, "timezone_storage", 32768, 0,
MYF(MY_THREAD_SPECIFIC));
if (!tz_load(fullname, &tz_info, &tz_storage))
print_tz_as_sql(root_name_end + 1, &tz_info);
else
{
/*
Some systems (like debian, opensuse etc) have description
files (.tab). We skip these silently if verbose is > 0
*/
const char *current_ext= fn_ext(fullname);
my_bool known_ext= 0;
for (const char **ext= known_extensions ; *ext ; ext++)
{
if (!strcmp(*ext, current_ext))
{
known_ext= 1;
break;
}
}
if (verbose > 0 || !known_ext)
{
fflush(stdout);
fprintf(stderr,
"Warning: Unable to load '%s' as time zone. Skipping it.\n",
fullname);
}
}
free_root(&tz_storage, MYF(0));
}
else
{
fflush(stdout);
fprintf(stderr, "Warning: '%s' is not regular file or directory\n",
fullname);
}
}
}
my_dirend(cur_dir);
return 0;
}
static const char *load_default_groups[]=
{ "mysql_tzinfo_to_sql", 0};
static struct my_option my_long_options[] =
{
{"help", '?', "Display this help and exit.", 0, 0, 0, GET_NO_ARG, NO_ARG,
0, 0, 0, 0, 0, 0},
#ifdef DBUG_OFF
{"debug", '#', "This is a non-debug version. Catch this and exit",
0,0, 0, GET_DISABLED, OPT_ARG, 0, 0, 0, 0, 0, 0},
#else
{"debug", '#', "Output debug log. Often this is 'd:t:o,filename'.",
0, 0, 0, GET_STR, OPT_ARG, 0, 0, 0, 0, 0, 0},
#endif
{"leap", 'l', "Print the leap second information from the given time zone file. By convention, when --leap is used the next argument is the timezonefile",
&opt_leap, &opt_leap, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0},
{"verbose", 'v', "Write non critical warnings",
&opt_verbose, &opt_verbose, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0},
{"version", 'V', "Output version information and exit.",
0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0},
{"skip-write-binlog", 'S', "Do not replicate changes to time zone tables to other nodes in a Galera cluster",
&opt_skip_write_binlog,&opt_skip_write_binlog, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0},
{ 0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}
};
C_MODE_START
static my_bool get_one_option(int optid, const struct my_option *,
char *argument);
C_MODE_END
static void print_version(void)
{
printf("%s Ver %s Distrib %s, for %s (%s)\n",my_progname, PROGRAM_VERSION,
MYSQL_SERVER_VERSION,SYSTEM_TYPE,MACHINE_TYPE);
}
static void print_usage(void)
{
fprintf(stderr, "Usage:\n");
fprintf(stderr, " %s [options] timezonedir\n", my_progname);
fprintf(stderr, " %s [options] timezonefile timezonename\n", my_progname);
print_defaults("my",load_default_groups);
puts("");
my_print_help(my_long_options);
my_print_variables(my_long_options);
}
static my_bool
get_one_option(int optid, const struct my_option *opt, char *argument)
{
switch(optid) {
case '#':
#ifndef DBUG_OFF
DBUG_PUSH(argument ? argument : "d:t:S:i:O,/tmp/mysq_tzinfo_to_sql.trace");
#endif
break;
case '?':
print_version();
puts("");
print_usage();
exit(0);
case 'V':
print_version();
exit(0);
}
return 0;
}
int
main(int argc, char **argv)
{
char **default_argv;
MY_INIT(argv[0]);
load_defaults_or_exit("my", load_default_groups, &argc, &argv);
default_argv= argv;
if ((handle_options(&argc, &argv, my_long_options, get_one_option)))
exit(1);
if ((argc != 1 && argc != 2) || (opt_leap && argc != 1))
{
print_usage();
free_defaults(default_argv);
return 1;
}
if (opt_skip_write_binlog)
/* If skip_write_binlog is set and wsrep is compiled in we disable
sql_log_bin and wsrep_on to avoid Galera replicating below
truncate table clauses. This will allow user to set different
time zones to nodes in Galera cluster. */
printf("set @prep1=if((select count(*) from information_schema.global_variables where variable_name='wsrep_on' and variable_value='ON'), 'SET SESSION SQL_LOG_BIN=?, WSREP_ON=OFF;', 'do ?');\n"
"prepare set_wsrep_write_binlog from @prep1;\n"
"set @toggle=0; execute set_wsrep_write_binlog using @toggle;\n");
if (argc == 1 && !opt_leap)
{
/* Argument is timezonedir */
root_name_end= strmake_buf(fullname, argv[0]);
if(!opt_skip_write_binlog)
{
// Alter time zone tables to InnoDB if wsrep_on is enabled
// to allow changes to them to replicate with Galera
printf("\\d |\n"
"IF (select count(*) from information_schema.global_variables where\n"
"variable_name='wsrep_on' and variable_value='ON') = 1 THEN\n"
"ALTER TABLE time_zone ENGINE=InnoDB;\n"
"ALTER TABLE time_zone_name ENGINE=InnoDB;\n"
"ALTER TABLE time_zone_transition ENGINE=InnoDB;\n"
"ALTER TABLE time_zone_transition_type ENGINE=InnoDB;\n"
"END IF|\n"
"\\d ;\n");
}
printf("TRUNCATE TABLE time_zone;\n");
printf("TRUNCATE TABLE time_zone_name;\n");
printf("TRUNCATE TABLE time_zone_transition;\n");
printf("TRUNCATE TABLE time_zone_transition_type;\n");
if (scan_tz_dir(root_name_end, 0, opt_verbose))
{
fflush(stdout);
fprintf(stderr,
"There were fatal errors during processing "
"of zoneinfo directory '%s'\n", fullname);
return 1;
}
printf("ALTER TABLE time_zone_transition "
"ORDER BY Time_zone_id, Transition_time;\n");
printf("ALTER TABLE time_zone_transition_type "
"ORDER BY Time_zone_id, Transition_type_id;\n");
}
else
{
/*
First argument is timezonefile.
The second is timezonename if opt_leap is not given
*/
init_alloc_root(&tz_storage, "timezone_storage", 32768, 0, MYF(0));
if (tz_load(argv[0], &tz_info, &tz_storage))
{
fflush(stdout);
fprintf(stderr, "Problems with zoneinfo file '%s'\n", argv[0]);
return 1;
}
if (opt_leap)
print_tz_leaps_as_sql(&tz_info);
else
print_tz_as_sql(argv[1], &tz_info);
free_root(&tz_storage, MYF(0));
}
if(!opt_skip_write_binlog)
{
// Fall back to MyISAM
printf("\\d |\n"
"IF (select count(*) from information_schema.global_variables where\n"
"variable_name='wsrep_on' and variable_value='ON') = 1 THEN\n"
"ALTER TABLE time_zone ENGINE=MyISAM;\n"
"ALTER TABLE time_zone_name ENGINE=MyISAM;\n"
"ALTER TABLE time_zone_transition ENGINE=MyISAM;\n"
"ALTER TABLE time_zone_transition_type ENGINE=MyISAM;\n"
"END IF|\n"
"\\d ;\n");
}
free_defaults(default_argv);
my_end(0);
return 0;
}
#endif /* defined(TZINFO2SQL) */
#ifdef TESTTIME
/*
Some simple brute-force test which allowed to catch a pair of bugs.
Also can provide interesting facts about system's time zone support
implementation.
*/
#ifndef CHAR_BIT
#define CHAR_BIT 8
#endif
#ifndef TYPE_BIT
#define TYPE_BIT(type) (sizeof (type) * CHAR_BIT)
#endif
#ifndef TYPE_SIGNED
#define TYPE_SIGNED(type) (((type) -1) < 0)
#endif
my_bool
is_equal_TIME_tm(const TIME* time_arg, const struct tm * tm_arg)
{
return (time_arg->year == (uint)tm_arg->tm_year+TM_YEAR_BASE) &&
(time_arg->month == (uint)tm_arg->tm_mon+1) &&
(time_arg->day == (uint)tm_arg->tm_mday) &&
(time_arg->hour == (uint)tm_arg->tm_hour) &&
(time_arg->minute == (uint)tm_arg->tm_min) &&
(time_arg->second == (uint)tm_arg->tm_sec) &&
time_arg->second_part == 0;
}
int
main(int argc, char **argv)
{
my_bool localtime_negative;
TIME_ZONE_INFO tz_info;
struct tm tmp;
MYSQL_TIME time_tmp;
time_t t, t1, t2;
char fullname[FN_REFLEN+1];
char *str_end;
MEM_ROOT tz_storage;
MY_INIT(argv[0]);
init_alloc_root(&tz_storage, "timezone_storage", 32768, MYF(0));
/* let us set some well known timezone */
setenv("TZ", "MET", 1);
tzset();
/* Some initial time zone related system info */
printf("time_t: %s %u bit\n", TYPE_SIGNED(time_t) ? "signed" : "unsigned",
(uint)TYPE_BIT(time_t));
if (TYPE_SIGNED(time_t))
{
t= -100;
localtime_negative= MY_TEST(localtime_r(&t, &tmp) != 0);
printf("localtime_r %s negative params \
(time_t=%d is %d-%d-%d %d:%d:%d)\n",
(localtime_negative ? "supports" : "doesn't support"), (int)t,
TM_YEAR_BASE + tmp.tm_year, tmp.tm_mon + 1, tmp.tm_mday,
tmp.tm_hour, tmp.tm_min, tmp.tm_sec);
printf("mktime %s negative results (%d)\n",
(t == mktime(&tmp) ? "doesn't support" : "supports"),
(int)mktime(&tmp));
}
tmp.tm_year= 103; tmp.tm_mon= 2; tmp.tm_mday= 30;
tmp.tm_hour= 2; tmp.tm_min= 30; tmp.tm_sec= 0; tmp.tm_isdst= -1;
t= mktime(&tmp);
printf("mktime returns %s for spring time gap (%d)\n",
(t != (time_t)-1 ? "something" : "error"), (int)t);
tmp.tm_year= 103; tmp.tm_mon= 8; tmp.tm_mday= 1;
tmp.tm_hour= 0; tmp.tm_min= 0; tmp.tm_sec= 0; tmp.tm_isdst= 0;
t= mktime(&tmp);
printf("mktime returns %s for non existing date (%d)\n",
(t != (time_t)-1 ? "something" : "error"), (int)t);
tmp.tm_year= 103; tmp.tm_mon= 8; tmp.tm_mday= 1;
tmp.tm_hour= 25; tmp.tm_min=0; tmp.tm_sec=0; tmp.tm_isdst=1;
t= mktime(&tmp);
printf("mktime %s unnormalized input (%d)\n",
(t != (time_t)-1 ? "handles" : "doesn't handle"), (int)t);
tmp.tm_year= 103; tmp.tm_mon= 9; tmp.tm_mday= 26;
tmp.tm_hour= 0; tmp.tm_min= 30; tmp.tm_sec= 0; tmp.tm_isdst= 1;
mktime(&tmp);
tmp.tm_hour= 2; tmp.tm_isdst= -1;
t= mktime(&tmp);
tmp.tm_hour= 4; tmp.tm_isdst= 0;
mktime(&tmp);
tmp.tm_hour= 2; tmp.tm_isdst= -1;
t1= mktime(&tmp);
printf("mktime is %s (%d %d)\n",
(t == t1 ? "determenistic" : "is non-determenistic"),
(int)t, (int)t1);
/* Let us load time zone description */
str_end= strmake_buf(fullname, TZDIR);
strmake(str_end, "/MET", FN_REFLEN - (str_end - fullname));
if (tz_load(fullname, &tz_info, &tz_storage))
{
printf("Unable to load time zone info from '%s'\n", fullname);
free_root(&tz_storage, MYF(0));
return 1;
}
printf("Testing our implementation\n");
if (TYPE_SIGNED(time_t) && localtime_negative)
{
for (t= -40000; t < 20000; t++)
{
localtime_r(&t, &tmp);
gmt_sec_to_TIME(&time_tmp, (my_time_t)t, &tz_info);
if (!is_equal_TIME_tm(&time_tmp, &tmp))
{
printf("Problem with negative time_t = %d\n", (int)t);
free_root(&tz_storage, MYF(0));
return 1;
}
}
printf("gmt_sec_to_TIME = localtime for time_t in [-40000,20000) range\n");
}
for (t= 1000000000; t < 1100000000; t+= 13)
{
localtime_r(&t,&tmp);
gmt_sec_to_TIME(&time_tmp, (my_time_t)t, &tz_info);
if (!is_equal_TIME_tm(&time_tmp, &tmp))
{
printf("Problem with time_t = %d\n", (int)t);
free_root(&tz_storage, MYF(0));
return 1;
}
}
printf("gmt_sec_to_TIME = localtime for time_t in [1000000000,1100000000) range\n");
my_init_time();
/*
Be careful here! my_system_gmt_sec doesn't fully handle unnormalized
dates.
*/
for (time_tmp.year= 1980; time_tmp.year < 2010; time_tmp.year++)
{
for (time_tmp.month= 1; time_tmp.month < 13; time_tmp.month++)
{
for (time_tmp.day= 1;
time_tmp.day < mon_lengths[isleap(time_tmp.year)][time_tmp.month-1];
time_tmp.day++)
{
for (time_tmp.hour= 0; time_tmp.hour < 24; time_tmp.hour++)
{
for (time_tmp.minute= 0; time_tmp.minute < 60; time_tmp.minute+= 5)
{
for (time_tmp.second=0; time_tmp.second<60; time_tmp.second+=25)
{
long not_used;
uint not_used_2;
t= (time_t)my_system_gmt_sec(&time_tmp, ¬_used, ¬_used_2);
t1= (time_t)TIME_to_gmt_sec(&time_tmp, &tz_info, ¬_used_2);
if (t != t1)
{
/*
We need special handling during autumn since my_system_gmt_sec
prefers greater time_t values (in MET) for ambiguity.
And BTW that is a bug which should be fixed !!!
*/
tmp.tm_year= time_tmp.year - TM_YEAR_BASE;
tmp.tm_mon= time_tmp.month - 1;
tmp.tm_mday= time_tmp.day;
tmp.tm_hour= time_tmp.hour;
tmp.tm_min= time_tmp.minute;
tmp.tm_sec= time_tmp.second;
tmp.tm_isdst= 1;
t2= mktime(&tmp);
if (t1 == t2)
continue;
printf("Problem: %u/%u/%u %u:%u:%u with times t=%d, t1=%d\n",
time_tmp.year, time_tmp.month, time_tmp.day,
time_tmp.hour, time_tmp.minute, time_tmp.second,
(int)t,(int)t1);
free_root(&tz_storage, MYF(0));
return 1;
}
}
}
}
}
}
}
printf("TIME_to_gmt_sec = my_system_gmt_sec for test range\n");
free_root(&tz_storage, MYF(0));
return 0;
}
#endif /* defined(TESTTIME) */
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