/*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * * SPDX-License-Identifier: curl * ***************************************************************************/ /* A brief summary of the date string formats this parser groks: RFC 2616 3.3.1 Sun, 06 Nov 1994 08:49:37 GMT ; RFC 822, updated by RFC 1123 Sunday, 06-Nov-94 08:49:37 GMT ; RFC 850, obsoleted by RFC 1036 Sun Nov 6 08:49:37 1994 ; ANSI C's asctime() format we support dates without week day name: 06 Nov 1994 08:49:37 GMT 06-Nov-94 08:49:37 GMT Nov 6 08:49:37 1994 without the time zone: 06 Nov 1994 08:49:37 06-Nov-94 08:49:37 weird order: 1994 Nov 6 08:49:37 (GNU date fails) GMT 08:49:37 06-Nov-94 Sunday 94 6 Nov 08:49:37 (GNU date fails) time left out: 1994 Nov 6 06-Nov-94 Sun Nov 6 94 unusual separators: 1994.Nov.6 Sun/Nov/6/94/GMT commonly used time zone names: Sun, 06 Nov 1994 08:49:37 CET 06 Nov 1994 08:49:37 EST time zones specified using RFC822 style: Sun, 12 Sep 2004 15:05:58 -0700 Sat, 11 Sep 2004 21:32:11 +0200 compact numerical date strings: 20040912 15:05:58 -0700 20040911 +0200 */ #include "curl_setup.h" #include #include #include "strcase.h" #include "warnless.h" #include "parsedate.h" /* * parsedate() * * Returns: * * PARSEDATE_OK - a fine conversion * PARSEDATE_FAIL - failed to convert * PARSEDATE_LATER - time overflow at the far end of time_t * PARSEDATE_SOONER - time underflow at the low end of time_t */ static int parsedate(const char *date, time_t *output); #define PARSEDATE_OK 0 #define PARSEDATE_FAIL -1 #define PARSEDATE_LATER 1 #define PARSEDATE_SOONER 2 #if !defined(CURL_DISABLE_PARSEDATE) || !defined(CURL_DISABLE_FTP) || \ !defined(CURL_DISABLE_FILE) /* These names are also used by FTP and FILE code */ const char * const Curl_wkday[] = {"Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"}; const char * const Curl_month[]= { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; #endif #ifndef CURL_DISABLE_PARSEDATE static const char * const weekday[] = { "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday", "Sunday" }; struct tzinfo { char name[5]; int offset; /* +/- in minutes */ }; /* Here's a bunch of frequently used time zone names. These were supported by the old getdate parser. */ #define tDAYZONE -60 /* offset for daylight savings time */ static const struct tzinfo tz[]= { {"GMT", 0}, /* Greenwich Mean */ {"UT", 0}, /* Universal Time */ {"UTC", 0}, /* Universal (Coordinated) */ {"WET", 0}, /* Western European */ {"BST", 0 tDAYZONE}, /* British Summer */ {"WAT", 60}, /* West Africa */ {"AST", 240}, /* Atlantic Standard */ {"ADT", 240 tDAYZONE}, /* Atlantic Daylight */ {"EST", 300}, /* Eastern Standard */ {"EDT", 300 tDAYZONE}, /* Eastern Daylight */ {"CST", 360}, /* Central Standard */ {"CDT", 360 tDAYZONE}, /* Central Daylight */ {"MST", 420}, /* Mountain Standard */ {"MDT", 420 tDAYZONE}, /* Mountain Daylight */ {"PST", 480}, /* Pacific Standard */ {"PDT", 480 tDAYZONE}, /* Pacific Daylight */ {"YST", 540}, /* Yukon Standard */ {"YDT", 540 tDAYZONE}, /* Yukon Daylight */ {"HST", 600}, /* Hawaii Standard */ {"HDT", 600 tDAYZONE}, /* Hawaii Daylight */ {"CAT", 600}, /* Central Alaska */ {"AHST", 600}, /* Alaska-Hawaii Standard */ {"NT", 660}, /* Nome */ {"IDLW", 720}, /* International Date Line West */ {"CET", -60}, /* Central European */ {"MET", -60}, /* Middle European */ {"MEWT", -60}, /* Middle European Winter */ {"MEST", -60 tDAYZONE}, /* Middle European Summer */ {"CEST", -60 tDAYZONE}, /* Central European Summer */ {"MESZ", -60 tDAYZONE}, /* Middle European Summer */ {"FWT", -60}, /* French Winter */ {"FST", -60 tDAYZONE}, /* French Summer */ {"EET", -120}, /* Eastern Europe, USSR Zone 1 */ {"WAST", -420}, /* West Australian Standard */ {"WADT", -420 tDAYZONE}, /* West Australian Daylight */ {"CCT", -480}, /* China Coast, USSR Zone 7 */ {"JST", -540}, /* Japan Standard, USSR Zone 8 */ {"EAST", -600}, /* Eastern Australian Standard */ {"EADT", -600 tDAYZONE}, /* Eastern Australian Daylight */ {"GST", -600}, /* Guam Standard, USSR Zone 9 */ {"NZT", -720}, /* New Zealand */ {"NZST", -720}, /* New Zealand Standard */ {"NZDT", -720 tDAYZONE}, /* New Zealand Daylight */ {"IDLE", -720}, /* International Date Line East */ /* Next up: Military timezone names. RFC822 allowed these, but (as noted in RFC 1123) had their signs wrong. Here we use the correct signs to match actual military usage. */ {"A", 1 * 60}, /* Alpha */ {"B", 2 * 60}, /* Bravo */ {"C", 3 * 60}, /* Charlie */ {"D", 4 * 60}, /* Delta */ {"E", 5 * 60}, /* Echo */ {"F", 6 * 60}, /* Foxtrot */ {"G", 7 * 60}, /* Golf */ {"H", 8 * 60}, /* Hotel */ {"I", 9 * 60}, /* India */ /* "J", Juliet is not used as a timezone, to indicate the observer's local time */ {"K", 10 * 60}, /* Kilo */ {"L", 11 * 60}, /* Lima */ {"M", 12 * 60}, /* Mike */ {"N", -1 * 60}, /* November */ {"O", -2 * 60}, /* Oscar */ {"P", -3 * 60}, /* Papa */ {"Q", -4 * 60}, /* Quebec */ {"R", -5 * 60}, /* Romeo */ {"S", -6 * 60}, /* Sierra */ {"T", -7 * 60}, /* Tango */ {"U", -8 * 60}, /* Uniform */ {"V", -9 * 60}, /* Victor */ {"W", -10 * 60}, /* Whiskey */ {"X", -11 * 60}, /* X-ray */ {"Y", -12 * 60}, /* Yankee */ {"Z", 0}, /* Zulu, zero meridian, a.k.a. UTC */ }; /* returns: -1 no day 0 monday - 6 sunday */ static int checkday(const char *check, size_t len) { int i; const char * const *what; bool found = FALSE; if(len > 3) what = &weekday[0]; else what = &Curl_wkday[0]; for(i = 0; i<7; i++) { if(strcasecompare(check, what[0])) { found = TRUE; break; } what++; } return found?i:-1; } static int checkmonth(const char *check) { int i; const char * const *what; bool found = FALSE; what = &Curl_month[0]; for(i = 0; i<12; i++) { if(strcasecompare(check, what[0])) { found = TRUE; break; } what++; } return found?i:-1; /* return the offset or -1, no real offset is -1 */ } /* return the time zone offset between GMT and the input one, in number of seconds or -1 if the timezone wasn't found/legal */ static int checktz(const char *check) { unsigned int i; const struct tzinfo *what; bool found = FALSE; what = tz; for(i = 0; i< sizeof(tz)/sizeof(tz[0]); i++) { if(strcasecompare(check, what->name)) { found = TRUE; break; } what++; } return found?what->offset*60:-1; } static void skip(const char **date) { /* skip everything that aren't letters or digits */ while(**date && !ISALNUM(**date)) (*date)++; } enum assume { DATE_MDAY, DATE_YEAR, DATE_TIME }; /* * time2epoch: time stamp to seconds since epoch in GMT time zone. Similar to * mktime but for GMT only. */ static time_t time2epoch(int sec, int min, int hour, int mday, int mon, int year) { static const int month_days_cumulative [12] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; int leap_days = year - (mon <= 1); leap_days = ((leap_days / 4) - (leap_days / 100) + (leap_days / 400) - (1969 / 4) + (1969 / 100) - (1969 / 400)); return ((((time_t) (year - 1970) * 365 + leap_days + month_days_cumulative[mon] + mday - 1) * 24 + hour) * 60 + min) * 60 + sec; } /* * parsedate() * * Returns: * * PARSEDATE_OK - a fine conversion * PARSEDATE_FAIL - failed to convert * PARSEDATE_LATER - time overflow at the far end of time_t * PARSEDATE_SOONER - time underflow at the low end of time_t */ static int parsedate(const char *date, time_t *output) { time_t t = 0; int wdaynum = -1; /* day of the week number, 0-6 (mon-sun) */ int monnum = -1; /* month of the year number, 0-11 */ int mdaynum = -1; /* day of month, 1 - 31 */ int hournum = -1; int minnum = -1; int secnum = -1; int yearnum = -1; int tzoff = -1; enum assume dignext = DATE_MDAY; const char *indate = date; /* save the original pointer */ int part = 0; /* max 6 parts */ while(*date && (part < 6)) { bool found = FALSE; skip(&date); if(ISALPHA(*date)) { /* a name coming up */ char buf[32]=""; size_t len; if(sscanf(date, "%31[ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz]", buf)) len = strlen(buf); else len = 0; if(wdaynum == -1) { wdaynum = checkday(buf, len); if(wdaynum != -1) found = TRUE; } if(!found && (monnum == -1)) { monnum = checkmonth(buf); if(monnum != -1) found = TRUE; } if(!found && (tzoff == -1)) { /* this just must be a time zone string */ tzoff = checktz(buf); if(tzoff != -1) found = TRUE; } if(!found) return PARSEDATE_FAIL; /* bad string */ date += len; } else if(ISDIGIT(*date)) { /* a digit */ int val; char *end; int len = 0; if((secnum == -1) && (3 == sscanf(date, "%02d:%02d:%02d%n", &hournum, &minnum, &secnum, &len))) { /* time stamp! */ date += len; } else if((secnum == -1) && (2 == sscanf(date, "%02d:%02d%n", &hournum, &minnum, &len))) { /* time stamp without seconds */ date += len; secnum = 0; } else { long lval; int error; int old_errno; old_errno = errno; errno = 0; lval = strtol(date, &end, 10); error = errno; if(errno != old_errno) errno = old_errno; if(error) return PARSEDATE_FAIL; #if LONG_MAX != INT_MAX if((lval > (long)INT_MAX) || (lval < (long)INT_MIN)) return PARSEDATE_FAIL; #endif val = curlx_sltosi(lval); if((tzoff == -1) && ((end - date) == 4) && (val <= 1400) && (indate< date) && ((date[-1] == '+' || date[-1] == '-'))) { /* four digits and a value less than or equal to 1400 (to take into account all sorts of funny time zone diffs) and it is preceded with a plus or minus. This is a time zone indication. 1400 is picked since +1300 is frequently used and +1400 is mentioned as an edge number in the document "ISO C 200X Proposal: Timezone Functions" at http://david.tribble.com/text/c0xtimezone.html If anyone has a more authoritative source for the exact maximum time zone offsets, please speak up! */ found = TRUE; tzoff = (val/100 * 60 + val%100)*60; /* the + and - prefix indicates the local time compared to GMT, this we need their reversed math to get what we want */ tzoff = date[-1]=='+'?-tzoff:tzoff; } if(((end - date) == 8) && (yearnum == -1) && (monnum == -1) && (mdaynum == -1)) { /* 8 digits, no year, month or day yet. This is YYYYMMDD */ found = TRUE; yearnum = val/10000; monnum = (val%10000)/100-1; /* month is 0 - 11 */ mdaynum = val%100; } if(!found && (dignext == DATE_MDAY) && (mdaynum == -1)) { if((val > 0) && (val<32)) { mdaynum = val; found = TRUE; } dignext = DATE_YEAR; } if(!found && (dignext == DATE_YEAR) && (yearnum == -1)) { yearnum = val; found = TRUE; if(yearnum < 100) { if(yearnum > 70) yearnum += 1900; else yearnum += 2000; } if(mdaynum == -1) dignext = DATE_MDAY; } if(!found) return PARSEDATE_FAIL; date = end; } } part++; } if(-1 == secnum) secnum = minnum = hournum = 0; /* no time, make it zero */ if((-1 == mdaynum) || (-1 == monnum) || (-1 == yearnum)) /* lacks vital info, fail */ return PARSEDATE_FAIL; #ifdef HAVE_TIME_T_UNSIGNED if(yearnum < 1970) { /* only positive numbers cannot return earlier */ *output = TIME_T_MIN; return PARSEDATE_SOONER; } #endif #if (SIZEOF_TIME_T < 5) #ifdef HAVE_TIME_T_UNSIGNED /* an unsigned 32 bit time_t can only hold dates to 2106 */ if(yearnum > 2105) { *output = TIME_T_MAX; return PARSEDATE_LATER; } #else /* a signed 32 bit time_t can only hold dates to the beginning of 2038 */ if(yearnum > 2037) { *output = TIME_T_MAX; return PARSEDATE_LATER; } if(yearnum < 1903) { *output = TIME_T_MIN; return PARSEDATE_SOONER; } #endif #else /* The Gregorian calendar was introduced 1582 */ if(yearnum < 1583) return PARSEDATE_FAIL; #endif if((mdaynum > 31) || (monnum > 11) || (hournum > 23) || (minnum > 59) || (secnum > 60)) return PARSEDATE_FAIL; /* clearly an illegal date */ /* time2epoch() returns a time_t. time_t is often 32 bits, sometimes even on architectures that feature 64 bit 'long' but ultimately time_t is the correct data type to use. */ t = time2epoch(secnum, minnum, hournum, mdaynum, monnum, yearnum); /* Add the time zone diff between local time zone and GMT. */ if(tzoff == -1) tzoff = 0; if((tzoff > 0) && (t > TIME_T_MAX - tzoff)) { *output = TIME_T_MAX; return PARSEDATE_LATER; /* time_t overflow */ } t += tzoff; *output = t; return PARSEDATE_OK; } #else /* disabled */ static int parsedate(const char *date, time_t *output) { (void)date; *output = 0; return PARSEDATE_OK; /* a lie */ } #endif time_t curl_getdate(const char *p, const time_t *now) { time_t parsed = -1; int rc = parsedate(p, &parsed); (void)now; /* legacy argument from the past that we ignore */ if(rc == PARSEDATE_OK) { if(parsed == -1) /* avoid returning -1 for a working scenario */ parsed++; return parsed; } /* everything else is fail */ return -1; } /* Curl_getdate_capped() differs from curl_getdate() in that this will return TIME_T_MAX in case the parsed time value was too big, instead of an error. */ time_t Curl_getdate_capped(const char *p) { time_t parsed = -1; int rc = parsedate(p, &parsed); switch(rc) { case PARSEDATE_OK: if(parsed == -1) /* avoid returning -1 for a working scenario */ parsed++; return parsed; case PARSEDATE_LATER: /* this returns the maximum time value */ return parsed; default: return -1; /* everything else is fail */ } /* UNREACHABLE */ } /* * Curl_gmtime() is a gmtime() replacement for portability. Do not use the * gmtime_r() or gmtime() functions anywhere else but here. * */ CURLcode Curl_gmtime(time_t intime, struct tm *store) { const struct tm *tm; #ifdef HAVE_GMTIME_R /* thread-safe version */ tm = (struct tm *)gmtime_r(&intime, store); #else /* !checksrc! disable BANNEDFUNC 1 */ tm = gmtime(&intime); if(tm) *store = *tm; /* copy the pointed struct to the local copy */ #endif if(!tm) return CURLE_BAD_FUNCTION_ARGUMENT; return CURLE_OK; }