/* * sys-time.h - time.h wrapper for localtime_r() and gmtime_r() * * Copyright(c) 2015 Glenn Strauss gstrauss()gluelogic.com All rights reserved * License: BSD 3-clause (same as lighttpd) */ #ifndef LI_SYS_TIME_H #define LI_SYS_TIME_H #include "first.h" #include #ifdef HAVE_SYS_TIME_H #include /* gettimeofday() */ #endif #include /* time() localtime_r() gmtime_r() strftime() */ /*(provide rudimentary localtime_r() and gmtime_r() for platforms lacking) *(Note that 'result' preprocessor arg is repeated, so callers should avoid * side-effects. Also note that there is still a race condition before the * result of localtime()/gmtime() is copied. In any case, this exists here * so that the rest of the code can use localtime_r() and gmtime_r() syntax. * Platforms requiring thread-safety and lacking localtime_r() or gmtime_r() * could turn these into subroutines which take a local mutex to protect the * calls to localtime() or gmtime()) */ #ifndef HAVE_LOCALTIME_R #ifdef _WIN32 #define localtime_r(timep,result) (localtime_s((result),(timep)), (result)) #else #define localtime_r(timep,result) ((*(result) = *(localtime(timep))), (result)) #endif #endif #ifndef HAVE_GMTIME_R #ifdef _WIN32 #define gmtime_r(timep,result) (gmtime_s((result),(timep)), (result)) #else #define gmtime_r(timep,result) ((*(result) = *(gmtime(timep))), (result)) #endif #endif #ifndef HAVE_TIMEGM #ifdef _WIN32 #define timegm(tm) _mkgmtime(tm) #else __attribute_pure__ static inline time_t timegm (const struct tm * const tm); static inline time_t timegm (const struct tm * const tm) { int y = tm->tm_year + 1900; int m = tm->tm_mon + 1; int d = tm->tm_mday; /* days_from_civil() http://howardhinnant.github.io/date_algorithms.html */ y -= m <= 2; int era = y / 400; int yoe = y - era * 400; // [0, 399] int doy = (153 * (m + (m > 2 ? -3 : 9)) + 2) / 5 + d - 1; // [0, 365] int doe = yoe * 365 + yoe / 4 - yoe / 100 + doy; // [0, 146096] int days_since_1970 = era * 146097 + doe - 719468; return 60*(60*(24L*days_since_1970+tm->tm_hour)+tm->tm_min)+tm->tm_sec; } #endif #endif /* non-standard functions created for lighttpd for Y2038 problem * reference: https://en.wikipedia.org/wiki/Year_2038_problem * * lighttpd does not expect to deal with dates earlier than 1970, * and can therefore treat dates earlier than 1970 as having overflowed * 32-bit signed time_t, signifying dates after Tue, 19 Jan 2038 03:14:07 GMT * * 1954, 1982, 2010, 2038 begin on Thu and are two years offset from leap year. * Attempt to adjust a timestamp > INT32_MAX back to a similar year, starting on * same weekday, and being same distance from next leap year; use gmtime_r() * or localtime_r(); and then adjust tm.tm_year back to the year of the original * timestamp. (Note that the calculations here are valid for the specific range * of input timestamps mapped to 1970 and 2099. The year 2000 was a leap year, * so crossing 2000 *does not* require special-casing here, but the year 2100 * *is not* a leap year in the Gregorian calendar, so this code is not valid * after 28 Feb 2100. Since the max validity of these kludges could only be * until 7 Feb 2106, this code has chosen not to special-case 2100-2106 and * produces incorrect results after 28 Feb 2100.) */ #if HAS_TIME_BITS64 #define gmtime64_r(timep,result) gmtime_r((timep),(result)) #define localtime64_r(timep,result) localtime_r((timep),(result)) #else /* !HAS_TIME_BITS64 */ #define gmtime64_r(timep,result) gmtime_y2038_kludge32(*(timep),(result)) #define localtime64_r(timep,result) localtime_y2038_kludge32(*(timep),(result)) static inline struct tm * gmtime_y2038_kludge32 (unix_time64_t t, struct tm *result); static inline struct tm * gmtime_y2038_kludge32 (unix_time64_t t, struct tm *result) { if ((uint64_t)t <= INT32_MAX) { time_t tt = (time_t)t; return gmtime_r(&tt, result); } else { /*(treat negative time as having overflowed 32-bit time_t)*/ if (t < 0) t = TIME64_CAST(t); time_t tt = (time_t)(t - 2650838400LL); if (gmtime_r(&tt, result)) { result->tm_year += 84; return result; } else if (t < 3914709247LL) { /*(ok through Tue, 19 Jan 2094 03:14:07 GMT)*/ tt = (time_t)(t - 1767225600LL); if (gmtime_r(&tt, result)) { result->tm_year += 56; return result; } } /*(choose to forever return gmtime_r() equivalent of * Thu, 01 Jan 1970 00:00:00 GMT) *(returning NULL not expected by lighttpd and might crash)*/ tt = 0; return gmtime_r(&tt, result); } } static inline struct tm * localtime_y2038_kludge32 (unix_time64_t t, struct tm *result); static inline struct tm * localtime_y2038_kludge32 (unix_time64_t t, struct tm *result) { if ((uint64_t)t <= INT32_MAX) { time_t tt = (time_t)t; return localtime_r(&tt, result); } else { /*(treat negative time as having overflowed 32-bit time_t)*/ if (t < 0) t = TIME64_CAST(t); time_t tt = (time_t)(t - 2650838400LL); if (localtime_r(&tt, result)) { result->tm_year += 84; return result; } else if (t < 3914709247LL) { /*(ok through Tue, 19 Jan 2094 03:14:07 GMT)*/ tt = (time_t)(t - 1767225600LL); if (localtime_r(&tt, result)) { result->tm_year += 56; return result; } } /*(choose to forever return localtime_r() equivalent of * Thu, 01 Jan 1970 00:00:00 GMT) *(returning NULL not expected by lighttpd and might crash)*/ tt = 0; return localtime_r(&tt, result); } } #endif /* !HAS_TIME_BITS64 */ #endif