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|
/* Copyright (C) 2004-2006 MySQL AB
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <my_time.h>
#include <mystrings/m_string.h>
#include <mystrings/m_ctype.h>
/* Windows version of localtime_r() is declared in my_ptrhead.h */
uint64_t log_10_int[20]=
{
1, 10, 100, 1000, 10000UL, 100000UL, 1000000UL, 10000000UL,
100000000ULL, 1000000000ULL, 10000000000ULL, 100000000000ULL,
1000000000000ULL, 10000000000000ULL, 100000000000000ULL,
1000000000000000ULL, 10000000000000000ULL, 100000000000000000ULL,
1000000000000000000ULL, 10000000000000000000ULL
};
/* Position for YYYY-DD-MM HH-MM-DD.FFFFFF AM in default format */
static uchar internal_format_positions[]=
{0, 1, 2, 3, 4, 5, 6, (uchar) 255};
static char time_separator=':';
static uint32_t const days_at_timestart=719528; /* daynr at 1970.01.01 */
uchar days_in_month[]= {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, 0};
/*
Offset of system time zone from UTC in seconds used to speed up
work of my_system_gmt_sec() function.
*/
static long my_time_zone=0;
/* Calc days in one year. works with 0 <= year <= 99 */
uint calc_days_in_year(uint year)
{
return ((year & 3) == 0 && (year%100 || (year%400 == 0 && year)) ?
366 : 365);
}
/**
@brief Check datetime value for validity according to flags.
@param[in] ltime Date to check.
@param[in] not_zero_date ltime is not the zero date
@param[in] flags flags to check
(see str_to_datetime() flags in my_time.h)
@param[out] was_cut set to 2 if value was invalid according to flags.
(Feb 29 in non-leap etc.) This remains unchanged
if value is not invalid.
@details Here we assume that year and month is ok!
If month is 0 we allow any date. (This only happens if we allow zero
date parts in str_to_datetime())
Disallow dates with zero year and non-zero month and/or day.
@return
0 OK
1 error
*/
bool check_date(const DRIZZLE_TIME *ltime, bool not_zero_date,
uint32_t flags, int *was_cut)
{
if (not_zero_date)
{
if ((((flags & TIME_NO_ZERO_IN_DATE) || !(flags & TIME_FUZZY_DATE)) &&
(ltime->month == 0 || ltime->day == 0)) ||
(!(flags & TIME_INVALID_DATES) &&
ltime->month && ltime->day > days_in_month[ltime->month-1] &&
(ltime->month != 2 || calc_days_in_year(ltime->year) != 366 ||
ltime->day != 29)))
{
*was_cut= 2;
return true;
}
}
else if (flags & TIME_NO_ZERO_DATE)
{
/*
We don't set *was_cut here to signal that the problem was a zero date
and not an invalid date
*/
return true;
}
return false;
}
/*
Convert a timestamp string to a DRIZZLE_TIME value.
SYNOPSIS
str_to_datetime()
str String to parse
length Length of string
l_time Date is stored here
flags Bitmap of following items
TIME_FUZZY_DATE Set if we should allow partial dates
TIME_DATETIME_ONLY Set if we only allow full datetimes.
TIME_NO_ZERO_IN_DATE Don't allow partial dates
TIME_NO_ZERO_DATE Don't allow 0000-00-00 date
TIME_INVALID_DATES Allow 2000-02-31
was_cut 0 Value OK
1 If value was cut during conversion
2 check_date(date,flags) considers date invalid
DESCRIPTION
At least the following formats are recogniced (based on number of digits)
YYMMDD, YYYYMMDD, YYMMDDHHMMSS, YYYYMMDDHHMMSS
YY-MM-DD, YYYY-MM-DD, YY-MM-DD HH.MM.SS
YYYYMMDDTHHMMSS where T is a the character T (ISO8601)
Also dates where all parts are zero are allowed
The second part may have an optional .###### fraction part.
NOTES
This function should work with a format position vector as long as the
following things holds:
- All date are kept together and all time parts are kept together
- Date and time parts must be separated by blank
- Second fractions must come after second part and be separated
by a '.'. (The second fractions are optional)
- AM/PM must come after second fractions (or after seconds if no fractions)
- Year must always been specified.
- If time is before date, then we will use datetime format only if
the argument consist of two parts, separated by space.
Otherwise we will assume the argument is a date.
- The hour part must be specified in hour-minute-second order.
RETURN VALUES
DRIZZLE_TIMESTAMP_NONE String wasn't a timestamp, like
[DD [HH:[MM:[SS]]]].fraction.
l_time is not changed.
DRIZZLE_TIMESTAMP_DATE DATE string (YY MM and DD parts ok)
DRIZZLE_TIMESTAMP_DATETIME Full timestamp
DRIZZLE_TIMESTAMP_ERROR Timestamp with wrong values.
All elements in l_time is set to 0
*/
#define MAX_DATE_PARTS 8
enum enum_drizzle_timestamp_type
str_to_datetime(const char *str, uint length, DRIZZLE_TIME *l_time,
uint flags, int *was_cut)
{
uint field_length, year_length=4, digits, i, number_of_fields;
uint date[MAX_DATE_PARTS], date_len[MAX_DATE_PARTS];
uint add_hours= 0, start_loop;
uint32_t not_zero_date, allow_space;
bool is_internal_format;
const char *pos, *last_field_pos=NULL;
const char *end=str+length;
const uchar *format_position;
bool found_delimitier= 0, found_space= 0;
uint frac_pos, frac_len;
*was_cut= 0;
/* Skip space at start */
for (; str != end && my_isspace(&my_charset_utf8_general_ci, *str) ; str++)
;
if (str == end || ! my_isdigit(&my_charset_utf8_general_ci, *str))
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE);
}
is_internal_format= 0;
/* This has to be changed if want to activate different timestamp formats */
format_position= internal_format_positions;
/*
Calculate number of digits in first part.
If length= 8 or >= 14 then year is of format YYYY.
(YYYY-MM-DD, YYYYMMDD, YYYYYMMDDHHMMSS)
*/
for (pos=str;
pos != end && (my_isdigit(&my_charset_utf8_general_ci,*pos) || *pos == 'T');
pos++)
;
digits= (uint) (pos-str);
start_loop= 0; /* Start of scan loop */
date_len[format_position[0]]= 0; /* Length of year field */
if (pos == end || *pos == '.')
{
/* Found date in internal format (only numbers like YYYYMMDD) */
year_length= (digits == 4 || digits == 8 || digits >= 14) ? 4 : 2;
field_length= year_length;
is_internal_format= 1;
format_position= internal_format_positions;
}
else
{
if (format_position[0] >= 3) /* If year is after HHMMDD */
{
/*
If year is not in first part then we have to determinate if we got
a date field or a datetime field.
We do this by checking if there is two numbers separated by
space in the input.
*/
while (pos < end && !my_isspace(&my_charset_utf8_general_ci, *pos))
pos++;
while (pos < end && !my_isdigit(&my_charset_utf8_general_ci, *pos))
pos++;
if (pos == end)
{
if (flags & TIME_DATETIME_ONLY)
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE); /* Can't be a full datetime */
}
/* Date field. Set hour, minutes and seconds to 0 */
date[0]= date[1]= date[2]= date[3]= date[4]= 0;
start_loop= 5; /* Start with first date part */
}
}
field_length= format_position[0] == 0 ? 4 : 2;
}
/*
Only allow space in the first "part" of the datetime field and:
- after days, part seconds
- before and after AM/PM (handled by code later)
2003-03-03 20:00:20 AM
20:00:20.000000 AM 03-03-2000
*/
i= cmax((uint) format_position[0], (uint) format_position[1]);
set_if_bigger(i, (uint) format_position[2]);
allow_space= ((1 << i) | (1 << format_position[6]));
allow_space&= (1 | 2 | 4 | 8);
not_zero_date= 0;
for (i = start_loop;
i < MAX_DATE_PARTS-1 && str != end &&
my_isdigit(&my_charset_utf8_general_ci,*str);
i++)
{
const char *start= str;
uint32_t tmp_value= (uint) (uchar) (*str++ - '0');
while (str != end && my_isdigit(&my_charset_utf8_general_ci,str[0]) &&
(!is_internal_format || --field_length))
{
tmp_value=tmp_value*10 + (uint32_t) (uchar) (*str - '0');
str++;
}
date_len[i]= (uint) (str - start);
if (tmp_value > 999999) /* Impossible date part */
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE);
}
date[i]=tmp_value;
not_zero_date|= tmp_value;
/* Length of next field */
field_length= format_position[i+1] == 0 ? 4 : 2;
if ((last_field_pos= str) == end)
{
i++; /* Register last found part */
break;
}
/* Allow a 'T' after day to allow CCYYMMDDT type of fields */
if (i == format_position[2] && *str == 'T')
{
str++; /* ISO8601: CCYYMMDDThhmmss */
continue;
}
if (i == format_position[5]) /* Seconds */
{
if (*str == '.') /* Followed by part seconds */
{
str++;
field_length= 6; /* 6 digits */
}
continue;
}
while (str != end &&
(my_ispunct(&my_charset_utf8_general_ci,*str) ||
my_isspace(&my_charset_utf8_general_ci,*str)))
{
if (my_isspace(&my_charset_utf8_general_ci,*str))
{
if (!(allow_space & (1 << i)))
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE);
}
found_space= 1;
}
str++;
found_delimitier= 1; /* Should be a 'normal' date */
}
/* Check if next position is AM/PM */
if (i == format_position[6]) /* Seconds, time for AM/PM */
{
i++; /* Skip AM/PM part */
if (format_position[7] != 255) /* If using AM/PM */
{
if (str+2 <= end && (str[1] == 'M' || str[1] == 'm'))
{
if (str[0] == 'p' || str[0] == 'P')
add_hours= 12;
else if (str[0] != 'a' || str[0] != 'A')
continue; /* Not AM/PM */
str+= 2; /* Skip AM/PM */
/* Skip space after AM/PM */
while (str != end && my_isspace(&my_charset_utf8_general_ci,*str))
str++;
}
}
}
last_field_pos= str;
}
if (found_delimitier && !found_space && (flags & TIME_DATETIME_ONLY))
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE); /* Can't be a datetime */
}
str= last_field_pos;
number_of_fields= i - start_loop;
while (i < MAX_DATE_PARTS)
{
date_len[i]= 0;
date[i++]= 0;
}
if (!is_internal_format)
{
year_length= date_len[(uint) format_position[0]];
if (!year_length) /* Year must be specified */
{
*was_cut= 1;
return(DRIZZLE_TIMESTAMP_NONE);
}
l_time->year= date[(uint) format_position[0]];
l_time->month= date[(uint) format_position[1]];
l_time->day= date[(uint) format_position[2]];
l_time->hour= date[(uint) format_position[3]];
l_time->minute= date[(uint) format_position[4]];
l_time->second= date[(uint) format_position[5]];
frac_pos= (uint) format_position[6];
frac_len= date_len[frac_pos];
if (frac_len < 6)
date[frac_pos]*= (uint) log_10_int[6 - frac_len];
l_time->second_part= date[frac_pos];
if (format_position[7] != (uchar) 255)
{
if (l_time->hour > 12)
{
*was_cut= 1;
goto err;
}
l_time->hour= l_time->hour%12 + add_hours;
}
}
else
{
l_time->year= date[0];
l_time->month= date[1];
l_time->day= date[2];
l_time->hour= date[3];
l_time->minute= date[4];
l_time->second= date[5];
if (date_len[6] < 6)
date[6]*= (uint) log_10_int[6 - date_len[6]];
l_time->second_part=date[6];
}
l_time->neg= 0;
if (year_length == 2 && not_zero_date)
l_time->year+= (l_time->year < YY_PART_YEAR ? 2000 : 1900);
if (number_of_fields < 3 ||
l_time->year > 9999 || l_time->month > 12 ||
l_time->day > 31 || l_time->hour > 23 ||
l_time->minute > 59 || l_time->second > 59)
{
/* Only give warning for a zero date if there is some garbage after */
if (!not_zero_date) /* If zero date */
{
for (; str != end ; str++)
{
if (!my_isspace(&my_charset_utf8_general_ci, *str))
{
not_zero_date= 1; /* Give warning */
break;
}
}
}
*was_cut= test(not_zero_date);
goto err;
}
if (check_date(l_time, not_zero_date != 0, flags, was_cut))
goto err;
l_time->time_type= (number_of_fields <= 3 ?
DRIZZLE_TIMESTAMP_DATE : DRIZZLE_TIMESTAMP_DATETIME);
for (; str != end ; str++)
{
if (!my_isspace(&my_charset_utf8_general_ci,*str))
{
*was_cut= 1;
break;
}
}
return(l_time->time_type=
(number_of_fields <= 3 ? DRIZZLE_TIMESTAMP_DATE :
DRIZZLE_TIMESTAMP_DATETIME));
err:
memset(l_time, 0, sizeof(*l_time));
return(DRIZZLE_TIMESTAMP_ERROR);
}
/*
Convert a time string to a DRIZZLE_TIME struct.
SYNOPSIS
str_to_time()
str A string in full TIMESTAMP format or
[-] DAYS [H]H:MM:SS, [H]H:MM:SS, [M]M:SS, [H]HMMSS,
[M]MSS or [S]S
There may be an optional [.second_part] after seconds
length Length of str
l_time Store result here
warning Set DRIZZLE_TIME_WARN_TRUNCATED flag if the input string
was cut during conversion, and/or
DRIZZLE_TIME_WARN_OUT_OF_RANGE flag, if the value is
out of range.
NOTES
Because of the extra days argument, this function can only
work with times where the time arguments are in the above order.
RETURN
0 ok
1 error
*/
bool str_to_time(const char *str, uint length, DRIZZLE_TIME *l_time,
int *warning)
{
uint32_t date[5];
uint64_t value;
const char *end=str+length, *end_of_days;
bool found_days,found_hours;
uint state;
l_time->neg=0;
*warning= 0;
for (; str != end && my_isspace(&my_charset_utf8_general_ci,*str) ; str++)
length--;
if (str != end && *str == '-')
{
l_time->neg=1;
str++;
length--;
}
if (str == end)
return 1;
/* Check first if this is a full TIMESTAMP */
if (length >= 12)
{ /* Probably full timestamp */
int was_cut;
enum enum_drizzle_timestamp_type
res= str_to_datetime(str, length, l_time,
(TIME_FUZZY_DATE | TIME_DATETIME_ONLY), &was_cut);
if ((int) res >= (int) DRIZZLE_TIMESTAMP_ERROR)
{
if (was_cut)
*warning|= DRIZZLE_TIME_WARN_TRUNCATED;
return res == DRIZZLE_TIMESTAMP_ERROR;
}
}
/* Not a timestamp. Try to get this as a DAYS_TO_SECOND string */
for (value=0; str != end && my_isdigit(&my_charset_utf8_general_ci,*str) ; str++)
value=value*10L + (long) (*str - '0');
/* Skip all space after 'days' */
end_of_days= str;
for (; str != end && my_isspace(&my_charset_utf8_general_ci, str[0]) ; str++)
;
found_days=found_hours=0;
if ((uint) (end-str) > 1 && str != end_of_days &&
my_isdigit(&my_charset_utf8_general_ci, *str))
{ /* Found days part */
date[0]= (uint32_t) value;
state= 1; /* Assume next is hours */
found_days= 1;
}
else if ((end-str) > 1 && *str == time_separator &&
my_isdigit(&my_charset_utf8_general_ci, str[1]))
{
date[0]= 0; /* Assume we found hours */
date[1]= (uint32_t) value;
state=2;
found_hours=1;
str++; /* skip ':' */
}
else
{
/* String given as one number; assume HHMMSS format */
date[0]= 0;
date[1]= (uint32_t) (value/10000);
date[2]= (uint32_t) (value/100 % 100);
date[3]= (uint32_t) (value % 100);
state=4;
goto fractional;
}
/* Read hours, minutes and seconds */
for (;;)
{
for (value=0; str != end && my_isdigit(&my_charset_utf8_general_ci,*str) ; str++)
value=value*10L + (long) (*str - '0');
date[state++]= (uint32_t) value;
if (state == 4 || (end-str) < 2 || *str != time_separator ||
!my_isdigit(&my_charset_utf8_general_ci,str[1]))
break;
str++; /* Skip time_separator (':') */
}
if (state != 4)
{ /* Not HH:MM:SS */
/* Fix the date to assume that seconds was given */
if (!found_hours && !found_days)
{
bmove_upp((uchar*) (date+4), (uchar*) (date+state),
sizeof(long)*(state-1));
memset(date, 0, sizeof(long)*(4-state));
}
else
memset(date+state, 0, sizeof(long)*(4-state));
}
fractional:
/* Get fractional second part */
if ((end-str) >= 2 && *str == '.' && my_isdigit(&my_charset_utf8_general_ci,str[1]))
{
int field_length= 5;
str++; value=(uint) (uchar) (*str - '0');
while (++str != end && my_isdigit(&my_charset_utf8_general_ci, *str))
{
if (field_length-- > 0)
value= value*10 + (uint) (uchar) (*str - '0');
}
if (field_length > 0)
value*= (long) log_10_int[field_length];
else if (field_length < 0)
*warning|= DRIZZLE_TIME_WARN_TRUNCATED;
date[4]= (uint32_t) value;
}
else
date[4]=0;
/* Check for exponent part: E<gigit> | E<sign><digit> */
/* (may occur as result of %g formatting of time value) */
if ((end - str) > 1 &&
(*str == 'e' || *str == 'E') &&
(my_isdigit(&my_charset_utf8_general_ci, str[1]) ||
((str[1] == '-' || str[1] == '+') &&
(end - str) > 2 &&
my_isdigit(&my_charset_utf8_general_ci, str[2]))))
return 1;
if (internal_format_positions[7] != 255)
{
/* Read a possible AM/PM */
while (str != end && my_isspace(&my_charset_utf8_general_ci, *str))
str++;
if (str+2 <= end && (str[1] == 'M' || str[1] == 'm'))
{
if (str[0] == 'p' || str[0] == 'P')
{
str+= 2;
date[1]= date[1]%12 + 12;
}
else if (str[0] == 'a' || str[0] == 'A')
str+=2;
}
}
/* Integer overflow checks */
if (date[0] > UINT_MAX || date[1] > UINT_MAX ||
date[2] > UINT_MAX || date[3] > UINT_MAX ||
date[4] > UINT_MAX)
return 1;
l_time->year= 0; /* For protocol::store_time */
l_time->month= 0;
l_time->day= date[0];
l_time->hour= date[1];
l_time->minute= date[2];
l_time->second= date[3];
l_time->second_part= date[4];
l_time->time_type= DRIZZLE_TIMESTAMP_TIME;
/* Check if the value is valid and fits into DRIZZLE_TIME range */
if (check_time_range(l_time, warning))
return 1;
/* Check if there is garbage at end of the DRIZZLE_TIME specification */
if (str != end)
{
do
{
if (!my_isspace(&my_charset_utf8_general_ci,*str))
{
*warning|= DRIZZLE_TIME_WARN_TRUNCATED;
break;
}
} while (++str != end);
}
return 0;
}
/*
Check 'time' value to lie in the DRIZZLE_TIME range
SYNOPSIS:
check_time_range()
time pointer to DRIZZLE_TIME value
warning set DRIZZLE_TIME_WARN_OUT_OF_RANGE flag if the value is out of range
DESCRIPTION
If the time value lies outside of the range [-838:59:59, 838:59:59],
set it to the closest endpoint of the range and set
DRIZZLE_TIME_WARN_OUT_OF_RANGE flag in the 'warning' variable.
RETURN
0 time value is valid, but was possibly truncated
1 time value is invalid
*/
int check_time_range(DRIZZLE_TIME *my_time, int *warning)
{
int64_t hour;
if (my_time->minute >= 60 || my_time->second >= 60)
return 1;
hour= my_time->hour + (24*my_time->day);
if (hour <= TIME_MAX_HOUR &&
(hour != TIME_MAX_HOUR || my_time->minute != TIME_MAX_MINUTE ||
my_time->second != TIME_MAX_SECOND || !my_time->second_part))
return 0;
my_time->day= 0;
my_time->hour= TIME_MAX_HOUR;
my_time->minute= TIME_MAX_MINUTE;
my_time->second= TIME_MAX_SECOND;
my_time->second_part= 0;
*warning|= DRIZZLE_TIME_WARN_OUT_OF_RANGE;
return 0;
}
/*
Prepare offset of system time zone from UTC for my_system_gmt_sec() func.
SYNOPSIS
init_time()
*/
void init_time(void)
{
time_t seconds;
struct tm *l_time,tm_tmp;
DRIZZLE_TIME my_time;
bool not_used;
seconds= (time_t) time((time_t*) 0);
localtime_r(&seconds,&tm_tmp);
l_time= &tm_tmp;
my_time_zone= 3600; /* Comp. for -3600 in my_gmt_sec */
my_time.year= (uint) l_time->tm_year+1900;
my_time.month= (uint) l_time->tm_mon+1;
my_time.day= (uint) l_time->tm_mday;
my_time.hour= (uint) l_time->tm_hour;
my_time.minute= (uint) l_time->tm_min;
my_time.second= (uint) l_time->tm_sec;
my_system_gmt_sec(&my_time, &my_time_zone, ¬_used); /* Init my_time_zone */
}
/*
Handle 2 digit year conversions
SYNOPSIS
year_2000_handling()
year 2 digit year
RETURN
Year between 1970-2069
*/
uint year_2000_handling(uint year)
{
if ((year=year+1900) < 1900+YY_PART_YEAR)
year+=100;
return year;
}
/*
Calculate nr of day since year 0 in new date-system (from 1615)
SYNOPSIS
calc_daynr()
year Year (exact 4 digit year, no year conversions)
month Month
day Day
NOTES: 0000-00-00 is a valid date, and will return 0
RETURN
Days since 0000-00-00
*/
long calc_daynr(uint year,uint month,uint day)
{
long delsum;
int temp;
if (year == 0 && month == 0 && day == 0)
return(0); /* Skip errors */
delsum= (long) (365L * year+ 31*(month-1) +day);
if (month <= 2)
year--;
else
delsum-= (long) (month*4+23)/10;
temp=(int) ((year/100+1)*3)/4;
return(delsum+(int) year/4-temp);
} /* calc_daynr */
/*
Convert time in DRIZZLE_TIME representation in system time zone to its
my_time_t form (number of seconds in UTC since begginning of Unix Epoch).
SYNOPSIS
my_system_gmt_sec()
t - time value to be converted
my_timezone - pointer to long where offset of system time zone
from UTC will be stored for caching
in_dst_time_gap - set to true if time falls into spring time-gap
NOTES
The idea is to cache the time zone offset from UTC (including daylight
saving time) for the next call to make things faster. But currently we
just calculate this offset during startup (by calling init_time()
function) and use it all the time.
Time value provided should be legal time value (e.g. '2003-01-01 25:00:00'
is not allowed).
RETURN VALUE
Time in UTC seconds since Unix Epoch representation.
*/
my_time_t
my_system_gmt_sec(const DRIZZLE_TIME *t_src, long *my_timezone,
bool *in_dst_time_gap)
{
uint loop;
time_t tmp= 0;
int shift= 0;
DRIZZLE_TIME tmp_time;
DRIZZLE_TIME *t= &tmp_time;
struct tm *l_time,tm_tmp;
long diff, current_timezone;
/*
Use temp variable to avoid trashing input data, which could happen in
case of shift required for boundary dates processing.
*/
memcpy(&tmp_time, t_src, sizeof(DRIZZLE_TIME));
if (!validate_timestamp_range(t))
return 0;
/*
Calculate the gmt time based on current time and timezone
The -1 on the end is to ensure that if have a date that exists twice
(like 2002-10-27 02:00:0 MET), we will find the initial date.
By doing -3600 we will have to call localtime_r() several times, but
I couldn't come up with a better way to get a repeatable result :(
We can't use mktime() as it's buggy on many platforms and not thread safe.
Note: this code assumes that our time_t estimation is not too far away
from real value (we assume that localtime_r(tmp) will return something
within 24 hrs from t) which is probably true for all current time zones.
Note2: For the dates, which have time_t representation close to
MAX_INT32 (efficient time_t limit for supported platforms), we should
do a small trick to avoid overflow. That is, convert the date, which is
two days earlier, and then add these days to the final value.
The same trick is done for the values close to 0 in time_t
representation for platfroms with unsigned time_t (QNX).
To be more verbose, here is a sample (extracted from the code below):
(calc_daynr(2038, 1, 19) - (long) days_at_timestart)*86400L + 4*3600L
would return -2147480896 because of the long type overflow. In result
we would get 1901 year in localtime_r(), which is an obvious error.
Alike problem raises with the dates close to Epoch. E.g.
(calc_daynr(1969, 12, 31) - (long) days_at_timestart)*86400L + 23*3600L
will give -3600.
On some platforms, (E.g. on QNX) time_t is unsigned and localtime(-3600)
wil give us a date around 2106 year. Which is no good.
Theoreticaly, there could be problems with the latter conversion:
there are at least two timezones, which had time switches near 1 Jan
of 1970 (because of political reasons). These are America/Hermosillo and
America/Mazatlan time zones. They changed their offset on
1970-01-01 08:00:00 UTC from UTC-8 to UTC-7. For these zones
the code below will give incorrect results for dates close to
1970-01-01, in the case OS takes into account these historical switches.
Luckily, it seems that we support only one platform with unsigned
time_t. It's QNX. And QNX does not support historical timezone data at all.
E.g. there are no /usr/share/zoneinfo/ files or any other mean to supply
historical information for localtime_r() etc. That is, the problem is not
relevant to QNX.
We are safe with shifts close to MAX_INT32, as there are no known
time switches on Jan 2038 yet :)
*/
if ((t->year == TIMESTAMP_MAX_YEAR) && (t->month == 1) && (t->day > 4))
{
/*
Below we will pass (uint) (t->day - shift) to calc_daynr.
As we don't want to get an overflow here, we will shift
only safe dates. That's why we have (t->day > 4) above.
*/
t->day-= 2;
shift= 2;
}
#ifdef TIME_T_UNSIGNED
else
{
/*
We can get 0 in time_t representaion only on 1969, 31 of Dec or on
1970, 1 of Jan. For both dates we use shift, which is added
to t->day in order to step out a bit from the border.
This is required for platforms, where time_t is unsigned.
As far as I know, among the platforms we support it's only QNX.
Note: the order of below if-statements is significant.
*/
if ((t->year == TIMESTAMP_MIN_YEAR + 1) && (t->month == 1)
&& (t->day <= 10))
{
t->day+= 2;
shift= -2;
}
if ((t->year == TIMESTAMP_MIN_YEAR) && (t->month == 12)
&& (t->day == 31))
{
t->year++;
t->month= 1;
t->day= 2;
shift= -2;
}
}
#endif
tmp= (time_t) (((calc_daynr((uint) t->year, (uint) t->month, (uint) t->day) -
(long) days_at_timestart)*86400L + (long) t->hour*3600L +
(long) (t->minute*60 + t->second)) + (time_t) my_time_zone -
3600);
current_timezone= my_time_zone;
localtime_r(&tmp,&tm_tmp);
l_time=&tm_tmp;
for (loop=0;
loop < 2 &&
(t->hour != (uint) l_time->tm_hour ||
t->minute != (uint) l_time->tm_min ||
t->second != (uint) l_time->tm_sec);
loop++)
{ /* One check should be enough ? */
/* Get difference in days */
int days= t->day - l_time->tm_mday;
if (days < -1)
days= 1; /* Month has wrapped */
else if (days > 1)
days= -1;
diff=(3600L*(long) (days*24+((int) t->hour - (int) l_time->tm_hour)) +
(long) (60*((int) t->minute - (int) l_time->tm_min)) +
(long) ((int) t->second - (int) l_time->tm_sec));
current_timezone+= diff+3600; /* Compensate for -3600 above */
tmp+= (time_t) diff;
localtime_r(&tmp,&tm_tmp);
l_time=&tm_tmp;
}
/*
Fix that if we are in the non existing daylight saving time hour
we move the start of the next real hour.
This code doesn't handle such exotical thing as time-gaps whose length
is more than one hour or non-integer (latter can theoretically happen
if one of seconds will be removed due leap correction, or because of
general time correction like it happened for Africa/Monrovia time zone
in year 1972).
*/
if (loop == 2 && t->hour != (uint) l_time->tm_hour)
{
int days= t->day - l_time->tm_mday;
if (days < -1)
days=1; /* Month has wrapped */
else if (days > 1)
days= -1;
diff=(3600L*(long) (days*24+((int) t->hour - (int) l_time->tm_hour))+
(long) (60*((int) t->minute - (int) l_time->tm_min)) +
(long) ((int) t->second - (int) l_time->tm_sec));
if (diff == 3600)
tmp+=3600 - t->minute*60 - t->second; /* Move to next hour */
else if (diff == -3600)
tmp-=t->minute*60 + t->second; /* Move to previous hour */
*in_dst_time_gap= true;
}
*my_timezone= current_timezone;
/* shift back, if we were dealing with boundary dates */
tmp+= shift*86400L;
/*
This is possible for dates, which slightly exceed boundaries.
Conversion will pass ok for them, but we don't allow them.
First check will pass for platforms with signed time_t.
instruction above (tmp+= shift*86400L) could exceed
MAX_INT32 (== TIMESTAMP_MAX_VALUE) and overflow will happen.
So, tmp < TIMESTAMP_MIN_VALUE will be triggered. On platfroms
with unsigned time_t tmp+= shift*86400L might result in a number,
larger then TIMESTAMP_MAX_VALUE, so another check will work.
*/
if ((tmp < TIMESTAMP_MIN_VALUE) || (tmp > TIMESTAMP_MAX_VALUE))
tmp= 0;
return (my_time_t) tmp;
} /* my_system_gmt_sec */
/* Set DRIZZLE_TIME structure to 0000-00-00 00:00:00.000000 */
void set_zero_time(DRIZZLE_TIME *tm, enum enum_drizzle_timestamp_type time_type)
{
memset(tm, 0, sizeof(*tm));
tm->time_type= time_type;
}
/*
Functions to convert time/date/datetime value to a string,
using default format.
This functions don't check that given DRIZZLE_TIME structure members are
in valid range. If they are not, return value won't reflect any
valid date either. Additionally, make_time doesn't take into
account time->day member: it's assumed that days have been converted
to hours already.
RETURN
number of characters written to 'to'
*/
int my_time_to_str(const DRIZZLE_TIME *l_time, char *to)
{
uint extra_hours= 0;
return sprintf(to, "%s%02u:%02u:%02u",
(l_time->neg ? "-" : ""),
extra_hours+ l_time->hour,
l_time->minute,
l_time->second);
}
int my_date_to_str(const DRIZZLE_TIME *l_time, char *to)
{
return sprintf(to, "%04u-%02u-%02u",
l_time->year,
l_time->month,
l_time->day);
}
int my_datetime_to_str(const DRIZZLE_TIME *l_time, char *to)
{
return sprintf(to, "%04u-%02u-%02u %02u:%02u:%02u",
l_time->year,
l_time->month,
l_time->day,
l_time->hour,
l_time->minute,
l_time->second);
}
/*
Convert struct DATE/TIME/DATETIME value to string using built-in
MySQL time conversion formats.
SYNOPSIS
my_TIME_to_string()
NOTE
The string must have at least MAX_DATE_STRING_REP_LENGTH bytes reserved.
*/
int my_TIME_to_str(const DRIZZLE_TIME *l_time, char *to)
{
switch (l_time->time_type) {
case DRIZZLE_TIMESTAMP_DATETIME:
return my_datetime_to_str(l_time, to);
case DRIZZLE_TIMESTAMP_DATE:
return my_date_to_str(l_time, to);
case DRIZZLE_TIMESTAMP_TIME:
return my_time_to_str(l_time, to);
case DRIZZLE_TIMESTAMP_NONE:
case DRIZZLE_TIMESTAMP_ERROR:
to[0]='\0';
return 0;
default:
assert(0);
return 0;
}
}
/*
Convert datetime value specified as number to broken-down TIME
representation and form value of DATETIME type as side-effect.
SYNOPSIS
number_to_datetime()
nr - datetime value as number
time_res - pointer for structure for broken-down representation
flags - flags to use in validating date, as in str_to_datetime()
was_cut 0 Value ok
1 If value was cut during conversion
2 check_date(date,flags) considers date invalid
DESCRIPTION
Convert a datetime value of formats YYMMDD, YYYYMMDD, YYMMDDHHMSS,
YYYYMMDDHHMMSS to broken-down DRIZZLE_TIME representation. Return value in
YYYYMMDDHHMMSS format as side-effect.
This function also checks if datetime value fits in DATETIME range.
RETURN VALUE
-1 Timestamp with wrong values
anything else DATETIME as integer in YYYYMMDDHHMMSS format
Datetime value in YYYYMMDDHHMMSS format.
*/
int64_t number_to_datetime(int64_t nr, DRIZZLE_TIME *time_res,
uint flags, int *was_cut)
{
long part1,part2;
*was_cut= 0;
memset(time_res, 0, sizeof(*time_res));
time_res->time_type=DRIZZLE_TIMESTAMP_DATE;
if (nr == 0LL || nr >= 10000101000000LL)
{
time_res->time_type=DRIZZLE_TIMESTAMP_DATETIME;
goto ok;
}
if (nr < 101)
goto err;
if (nr <= (YY_PART_YEAR-1)*10000L+1231L)
{
nr= (nr+20000000L)*1000000L; /* YYMMDD, year: 2000-2069 */
goto ok;
}
if (nr < (YY_PART_YEAR)*10000L+101L)
goto err;
if (nr <= 991231L)
{
nr= (nr+19000000L)*1000000L; /* YYMMDD, year: 1970-1999 */
goto ok;
}
if (nr < 10000101L)
goto err;
if (nr <= 99991231L)
{
nr= nr*1000000L;
goto ok;
}
if (nr < 101000000L)
goto err;
time_res->time_type=DRIZZLE_TIMESTAMP_DATETIME;
if (nr <= (YY_PART_YEAR-1) * 10000000000LL + 1231235959LL)
{
nr= nr + 20000000000000LL; /* YYMMDDHHMMSS, 2000-2069 */
goto ok;
}
if (nr < YY_PART_YEAR * 10000000000LL + 101000000LL)
goto err;
if (nr <= 991231235959LL)
nr= nr + 19000000000000LL; /* YYMMDDHHMMSS, 1970-1999 */
ok:
part1=(long) (nr / 1000000LL);
part2=(long) (nr - (int64_t) part1 * 1000000LL);
time_res->year= (int) (part1/10000L); part1%=10000L;
time_res->month= (int) part1 / 100;
time_res->day= (int) part1 % 100;
time_res->hour= (int) (part2/10000L); part2%=10000L;
time_res->minute=(int) part2 / 100;
time_res->second=(int) part2 % 100;
if (time_res->year <= 9999 && time_res->month <= 12 &&
time_res->day <= 31 && time_res->hour <= 23 &&
time_res->minute <= 59 && time_res->second <= 59 &&
!check_date(time_res, (nr != 0), flags, was_cut))
return nr;
/* Don't want to have was_cut get set if NO_ZERO_DATE was violated. */
if (!nr && (flags & TIME_NO_ZERO_DATE))
return -1LL;
err:
*was_cut= 1;
return -1LL;
}
/* Convert time value to integer in YYYYMMDDHHMMSS format */
uint64_t TIME_to_uint64_t_datetime(const DRIZZLE_TIME *my_time)
{
return ((uint64_t) (my_time->year * 10000UL +
my_time->month * 100UL +
my_time->day) * 1000000ULL +
(uint64_t) (my_time->hour * 10000UL +
my_time->minute * 100UL +
my_time->second));
}
/* Convert DRIZZLE_TIME value to integer in YYYYMMDD format */
uint64_t TIME_to_uint64_t_date(const DRIZZLE_TIME *my_time)
{
return (uint64_t) (my_time->year * 10000UL + my_time->month * 100UL +
my_time->day);
}
/*
Convert DRIZZLE_TIME value to integer in HHMMSS format.
This function doesn't take into account time->day member:
it's assumed that days have been converted to hours already.
*/
uint64_t TIME_to_uint64_t_time(const DRIZZLE_TIME *my_time)
{
return (uint64_t) (my_time->hour * 10000UL +
my_time->minute * 100UL +
my_time->second);
}
/*
Convert struct DRIZZLE_TIME (date and time split into year/month/day/hour/...
to a number in format YYYYMMDDHHMMSS (DATETIME),
YYYYMMDD (DATE) or HHMMSS (TIME).
SYNOPSIS
TIME_to_uint64_t()
DESCRIPTION
The function is used when we need to convert value of time item
to a number if it's used in numeric context, i. e.:
SELECT NOW()+1, CURDATE()+0, CURTIMIE()+0;
SELECT ?+1;
NOTE
This function doesn't check that given DRIZZLE_TIME structure members are
in valid range. If they are not, return value won't reflect any
valid date either.
*/
uint64_t TIME_to_uint64_t(const DRIZZLE_TIME *my_time)
{
switch (my_time->time_type) {
case DRIZZLE_TIMESTAMP_DATETIME:
return TIME_to_uint64_t_datetime(my_time);
case DRIZZLE_TIMESTAMP_DATE:
return TIME_to_uint64_t_date(my_time);
case DRIZZLE_TIMESTAMP_TIME:
return TIME_to_uint64_t_time(my_time);
case DRIZZLE_TIMESTAMP_NONE:
case DRIZZLE_TIMESTAMP_ERROR:
return 0ULL;
default:
assert(0);
}
return 0;
}
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