/* +----------------------------------------------------------------------+ | PHP version 4.0 | +----------------------------------------------------------------------+ | Copyright (c) 1997, 1998, 1999, 2000 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 2.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available at through the world-wide-web at | | http://www.php.net/license/2_01.txt. | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Andi Gutmans | | Zeev Suraski | | Rasmus Lerdorf | +----------------------------------------------------------------------+ */ /* $Id$ */ #include "php.h" #include "zend_operators.h" #include "datetime.h" #include "snprintf.h" #include "php_globals.h" #include #ifdef HAVE_SYS_TIME_H # include #endif #include char *mon_full_names[] = { "January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }; char *mon_short_names[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; char *day_full_names[] = { "Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday" }; char *day_short_names[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; #if !defined(HAVE_TM_ZONE) && !defined(_TIMEZONE) && !defined(HAVE_DECLARED_TIMEZONE) extern time_t timezone; #endif static int phpday_tab[2][12] = { {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}, {31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31} }; #define isleap(year) (((year%4) == 0 && (year%100)!=0) || (year%400)==0) extern PHPAPI time_t parsedate(char *p, struct timeval *now); PHP_FUNCTION(time) { return_value->value.lval = (long) time(NULL); return_value->type = IS_LONG; } void php_mktime(INTERNAL_FUNCTION_PARAMETERS, int gm) { pval **arguments[7]; struct tm *ta, tmbuf; time_t t; int i, gmadjust, seconds, arg_count = ARG_COUNT(ht); if (arg_count > 7 || zend_get_parameters_array_ex(arg_count,arguments) == FAILURE) { WRONG_PARAM_COUNT; } /* convert supplied arguments to longs */ for (i = 0; i < arg_count; i++) { convert_to_long_ex(arguments[i]); } t = time(NULL); #ifdef HAVE_TZSET tzset(); #endif /* ** Set default time parameters with local time values, ** EVEN when some GMT time parameters are specified! ** This may give strange result, with PHP gmmktime(0,0,0), ** which is assumed to return GMT midnight time ** for today (in localtime), so that the result time may be ** AFTER or BEFORE the current time. ** May be we should initialize tn using gmtime(), so that ** default parameters for PHP gmmktime would be the current ** GMT time values... */ ta = localtime_r(&t, &tmbuf); /* Let DST be unknown. mktime() should compute the right value ** and behave correctly. Unless the user overrides this. */ ta->tm_isdst = -1; /* ** Now change date values with supplied parameters. */ switch(arg_count) { case 7: ta->tm_isdst = (*arguments[6])->value.lval; /* fall-through */ case 6: /* ** Accept parameter in range 0..1000 interpreted as 1900..2900 ** (if 100 is given, it means year 2000) ** or in range 1001..9999 interpreted as is (this will store ** negative tm_year for years in range 1001..1899) ** This function is then Y2K ready, and accepts a wide range of ** dates including the whole gregorian calendar. ** But it cannot represent ancestral dates prior to year 1001. ** Additionally, input parameters of 0..70 are mapped to 100..170 */ if ((*arguments[5])->value.lval < 70) ta->tm_year = (*arguments[5])->value.lval + 100; else ta->tm_year = (*arguments[5])->value.lval - (((*arguments[5])->value.lval > 1000) ? 1900 : 0); /* fall-through */ case 5: ta->tm_mday = (*arguments[4])->value.lval; /* fall-through */ case 4: ta->tm_mon = (*arguments[3])->value.lval - 1; /* fall-through */ case 3: ta->tm_sec = (*arguments[2])->value.lval; /* fall-through */ case 2: ta->tm_min = (*arguments[1])->value.lval; /* fall-through */ case 1: ta->tm_hour = (*arguments[0])->value.lval; /* fall-through */ case 0: break; } seconds = mktime(ta); if (gm) { #if HAVE_TM_GMTOFF /* ** mktime(ta) very nicely just filled ta->tm_gmtoff with ** the exactly right value for adjustment if we want GMT. */ gmadjust = ta->tm_gmtoff; #else /* ** Without tm_gmtoff, the non-ANSI C run-time global 'timezone' ** variable simply returns the current Winter GMT offset ** in the current locale (defined in DOS/Windows compilers). */ gmadjust = timezone; #endif seconds += gmadjust; } RETURN_LONG(seconds); } PHP_FUNCTION(mktime) { php_mktime(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } PHP_FUNCTION(gmmktime) { php_mktime(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1); } static void php_date(INTERNAL_FUNCTION_PARAMETERS, int gm) { pval **format, **timestamp; time_t the_time; struct tm *ta, tmbuf; int i, size = 0, length, h, beat; char tmp_buff[16]; switch(ARG_COUNT(ht)) { case 1: if (zend_get_parameters_ex(1, &format) == FAILURE) { WRONG_PARAM_COUNT; } the_time = time(NULL); break; case 2: if (zend_get_parameters_ex(2, &format, ×tamp) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long_ex(timestamp); the_time = (*timestamp)->value.lval; break; default: WRONG_PARAM_COUNT; } convert_to_string_ex(format); if (gm) { ta = gmtime_r(&the_time, &tmbuf); } else { ta = localtime_r(&the_time, &tmbuf); } if (!ta) { /* that really shouldn't happen... */ php_error(E_WARNING, "unexpected error in date()"); RETURN_FALSE; } for (i = 0; i < (*format)->value.str.len; i++) { switch ((*format)->value.str.val[i]) { case 'U': /* seconds since the epoch */ size += 10; break; case 'F': /* month, textual, full */ case 'l': /* day (of the week), textual */ case 'T': /* timezone name */ size += 9; break; case 'Z': /* timezone offset in seconds */ size += 6; break; case 'Y': /* year, numeric, 4 digits */ size += 4; break; case 'M': /* month, textual, 3 letters */ case 'D': /* day, textual, 3 letters */ case 'z': /* day of the year, 1 to 366 */ size += 3; break; case 'y': /* year, numeric, 2 digits */ case 'm': /* month, numeric */ case 'n': /* month, numeric, no leading zeroes */ case 'd': /* day of the month, numeric */ case 'j': /* day of the month, numeric, no leading zeros */ case 'H': /* hour, numeric, 24 hour format */ case 'h': /* hour, numeric, 12 hour format */ case 'G': /* hour, numeric, 24 hour format, no leading zeroes */ case 'g': /* hour, numeric, 12 hour format, no leading zeroes */ case 'i': /* minutes, numeric */ case 's': /* seconds, numeric */ case 'A': /* AM/PM */ case 'a': /* am/pm */ case 'S': /* standard english suffix for the day of the month (e.g. 3rd, 2nd, etc) */ case 't': /* days in current month */ size += 2; break; case '\\': if(i < (*format)->value.str.len-1) { i++; } case 'L': /* boolean for leap year */ case 'B': /* Swatch Beat, 3 digits */ size += 3; break; case 'w': /* day of the week, numeric */ default: size++; break; } } return_value->value.str.val = (char *) emalloc(size + 1); return_value->value.str.val[0] = '\0'; for (i = 0; i < (*format)->value.str.len; i++) { switch ((*format)->value.str.val[i]) { case '\\': if(i < (*format)->value.str.len-1) { char ch[2]; ch[0]=(*format)->value.str.val[i+1]; ch[1]='\0'; strcat(return_value->value.str.val, ch); i++; } break; case 'U': /* seconds since the epoch */ sprintf(tmp_buff, "%ld", (long)the_time); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'F': /* month, textual, full */ strcat(return_value->value.str.val, mon_full_names[ta->tm_mon]); break; case 'l': /* day (of the week), textual, full */ strcat(return_value->value.str.val, day_full_names[ta->tm_wday]); break; case 'Y': /* year, numeric, 4 digits */ sprintf(tmp_buff, "%d", ta->tm_year + 1900); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'M': /* month, textual, 3 letters */ strcat(return_value->value.str.val, mon_short_names[ta->tm_mon]); break; case 'D': /* day (of the week), textual, 3 letters */ strcat(return_value->value.str.val, day_short_names[ta->tm_wday]); break; case 'z': /* day (of the year) */ sprintf(tmp_buff, "%d", ta->tm_yday); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'y': /* year, numeric, 2 digits */ sprintf(tmp_buff, "%02d", ((ta->tm_year)%100)); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'm': /* month, numeric */ sprintf(tmp_buff, "%02d", ta->tm_mon + 1); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'n': /* month, numeric, no leading zeros */ sprintf(tmp_buff, "%d", ta->tm_mon + 1); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'd': /* day of the month, numeric */ sprintf(tmp_buff, "%02d", ta->tm_mday); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'j': sprintf(tmp_buff, "%d", ta->tm_mday); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'H': /* hour, numeric, 24 hour format */ sprintf(tmp_buff, "%02d", ta->tm_hour); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'h': /* hour, numeric, 12 hour format */ h = ta->tm_hour % 12; if (h==0) h = 12; sprintf(tmp_buff, "%02d", h); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'G': /* hour, numeric, 24 hour format, no leading zeros */ sprintf(tmp_buff, "%d", ta->tm_hour); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'g': /* hour, numeric, 12 hour format, no leading zeros */ h = ta->tm_hour % 12; if (h==0) h = 12; sprintf(tmp_buff, "%d", h); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'i': /* minutes, numeric */ sprintf(tmp_buff, "%02d", ta->tm_min); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 's': /* seconds, numeric */ sprintf(tmp_buff, "%02d", ta->tm_sec); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'A': /* AM/PM */ strcat(return_value->value.str.val, (ta->tm_hour >= 12 ? "PM" : "AM")); break; case 'a': /* am/pm */ strcat(return_value->value.str.val, (ta->tm_hour >= 12 ? "pm" : "am")); break; case 'S': /* standard english suffix, e.g. 2nd/3rd for the day of the month */ if (ta->tm_mday >= 10 && ta->tm_mday <= 19) { strcat(return_value->value.str.val, "th"); } else { switch (ta->tm_mday % 10) { case 1: strcat(return_value->value.str.val, "st"); break; case 2: strcat(return_value->value.str.val, "nd"); break; case 3: strcat(return_value->value.str.val, "rd"); break; default: strcat(return_value->value.str.val, "th"); break; } } break; case 't': /* days in current month */ sprintf(tmp_buff, "%2d", phpday_tab[isleap((ta->tm_year+1900))][ta->tm_mon] ); strcat(return_value->value.str.val, tmp_buff); break; case 'w': /* day of the week, numeric EXTENSION */ sprintf(tmp_buff, "%01d", ta->tm_wday); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; case 'Z': /* timezone offset in seconds */ #if HAVE_TM_GMTOFF sprintf(tmp_buff, "%ld", ta->tm_gmtoff ); #else sprintf(tmp_buff, "%ld", timezone); #endif strcat(return_value->value.str.val, tmp_buff); break; case 'L': /* boolean for leapyear */ sprintf(tmp_buff, "%d", (isleap((ta->tm_year+1900)) ? 1 : 0 ) ); strcat(return_value->value.str.val, tmp_buff); break; case 'T': /* timezone name */ #if HAVE_TM_ZONE strcat(return_value->value.str.val, ta->tm_zone); #else strcat(return_value->value.str.val, tzname[0]); #endif break; case 'B': /* Swatch Beat a.k.a. Internet Time */ beat = (((((long)the_time)-(((long)the_time) - ((((long)the_time) % 86400) + 3600))) * 10) / 864); if (beat > 999) beat = 0; sprintf(tmp_buff, "%03d", beat); /* SAFE */ strcat(return_value->value.str.val, tmp_buff); break; default: length = strlen(return_value->value.str.val); return_value->value.str.val[length] = (*format)->value.str.val[i]; return_value->value.str.val[length + 1] = '\0'; break; } } return_value->value.str.len = strlen(return_value->value.str.val); return_value->type = IS_STRING; } PHP_FUNCTION(date) { php_date(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } PHP_FUNCTION(gmdate) { php_date(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1); } PHP_FUNCTION(getdate) { pval **timestamp_arg; struct tm *ta, tmbuf; time_t timestamp; if (ARG_COUNT(ht) == 0) { timestamp = time(NULL); } else if (ARG_COUNT(ht) != 1 || zend_get_parameters_ex(1,×tamp_arg) == FAILURE) { WRONG_PARAM_COUNT; } else { convert_to_long_ex(timestamp_arg); timestamp = (*timestamp_arg)->value.lval; } ta = localtime_r(×tamp, &tmbuf); if (!ta) { php_error(E_WARNING, "Cannot perform date calculation"); return; } if (array_init(return_value) == FAILURE) { php_error(E_ERROR, "Unable to initialize array"); return; } add_assoc_long(return_value, "seconds", ta->tm_sec); add_assoc_long(return_value, "minutes", ta->tm_min); add_assoc_long(return_value, "hours", ta->tm_hour); add_assoc_long(return_value, "mday", ta->tm_mday); add_assoc_long(return_value, "wday", ta->tm_wday); add_assoc_long(return_value, "mon", ta->tm_mon + 1); add_assoc_long(return_value, "year", ta->tm_year + 1900); add_assoc_long(return_value, "yday", ta->tm_yday); add_assoc_string(return_value, "weekday", day_full_names[ta->tm_wday], 1); add_assoc_string(return_value, "month", mon_full_names[ta->tm_mon], 1); add_index_long(return_value, 0, timestamp); } /* Return date string in standard format for http headers */ char *php_std_date(time_t t) { struct tm *tm1, tmbuf; char *str; PLS_FETCH(); tm1 = gmtime_r(&t, &tmbuf); str = emalloc(81); if (PG(y2k_compliance)) { snprintf(str, 80, "%s, %02d-%s-%04d %02d:%02d:%02d GMT", day_full_names[tm1->tm_wday], tm1->tm_mday, mon_short_names[tm1->tm_mon], tm1->tm_year+1900, tm1->tm_hour, tm1->tm_min, tm1->tm_sec); } else { snprintf(str, 80, "%s, %02d-%s-%02d %02d:%02d:%02d GMT", day_full_names[tm1->tm_wday], tm1->tm_mday, mon_short_names[tm1->tm_mon], ((tm1->tm_year)%100), tm1->tm_hour, tm1->tm_min, tm1->tm_sec); } str[79]=0; return (str); } /* * CheckDate(month, day, year); * returns True(1) if it is valid date * */ PHP_FUNCTION(checkdate) { pval **month, **day, **year; int m, d, y; if (ARG_COUNT(ht) != 3 || zend_get_parameters_ex(3, &month, &day, &year) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_long_ex(day); convert_to_long_ex(month); convert_to_long_ex(year); y = (*year)->value.lval; m = (*month)->value.lval; d = (*day)->value.lval; if (y < 100) y += 1900; if (y < 0 || y > 32767) { RETURN_FALSE; } if (m < 1 || m > 12) { RETURN_FALSE; } if (d < 1 || d > phpday_tab[isleap(y)][m - 1]) { RETURN_FALSE; } RETURN_TRUE; /* True : This month,day,year arguments are valid */ } #if HAVE_STRFTIME PHP_FUNCTION(strftime) { pval **format_arg, **timestamp_arg; char *format,*buf; time_t timestamp; struct tm *ta, tmbuf; int max_reallocs = 5; size_t buf_len=64, real_len; switch (ARG_COUNT(ht)) { case 1: if (zend_get_parameters_ex(1,&format_arg)==FAILURE) { RETURN_FALSE; } time(×tamp); break; case 2: if (zend_get_parameters_ex(2, &format_arg,×tamp_arg)==FAILURE) { RETURN_FALSE; } convert_to_long_ex(timestamp_arg); timestamp = (*timestamp_arg)->value.lval; break; default: WRONG_PARAM_COUNT; break; } convert_to_string_ex(format_arg); if ((*format_arg)->value.str.len==0) { RETURN_FALSE; } format = (*format_arg)->value.str.val; ta = localtime_r(×tamp, &tmbuf); buf = (char *) emalloc(buf_len); while ((real_len=strftime(buf,buf_len,format,ta))==buf_len || real_len==0) { buf_len *= 2; buf = (char *) erealloc(buf, buf_len); if(!--max_reallocs) break; } if(real_len && real_len != buf_len) { buf = (char *) erealloc(buf,real_len+1); RETURN_STRINGL(buf, real_len, 0); } efree(buf); RETURN_FALSE; } #endif /* {{{ proto int strtotime(string time, int now) Convert string representation of date and time to a timestamp */ PHP_FUNCTION(strtotime) { pval **timep, **nowp; int ac; struct timeval tv; ac = ARG_COUNT(ht); if (ac < 1 || ac > 2 || zend_get_parameters_ex(ac, &timep,&nowp)==FAILURE) { WRONG_PARAM_COUNT; } convert_to_string_ex(timep); if (ac == 2) { convert_to_long_ex(nowp); tv.tv_sec = (*nowp)->value.lval; tv.tv_usec = 0; RETURN_LONG(parsedate((*timep)->value.str.val, &tv)); } else { RETURN_LONG(parsedate((*timep)->value.str.val, NULL)); } } /* }}} */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: */