관리-도구
편집 파일: DateParsing.h
/* * Phusion Passenger - https://www.phusionpassenger.com/ * Copyright (c) 2014-2018 Phusion Holding B.V. * * "Passenger", "Phusion Passenger" and "Union Station" are registered * trademarks of Phusion Holding B.V. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef _PASSENGER_STRINTTOOLS_DATE_PARSING_H_ #define _PASSENGER_STRINTTOOLS_DATE_PARSING_H_ #include <algorithm> #include <time.h> #include <cassert> #include <cstring> #include <StaticString.h> #include <StrIntTools/StrIntUtils.h> namespace Passenger { inline bool skipImfFixdate_comment(const char **pos, const char *end); inline bool parseImfFixdate_dayOfWeek(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_date(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_day(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_month(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_year(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_time(const char **pos, const char *end, struct tm &tm, int &zone); inline bool parseImfFixdate_hour(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_minute(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_second(const char **pos, const char *end, struct tm &tm); inline bool parseImfFixdate_zone(const char **pos, const char *end, int &zone); /** * Parses an IMF-fixdate, as defined by RFC 7231 (while referencing RFC 5322). * Returns whether parsing succeeded. */ inline bool parseImfFixdate(const char *date, const char *end, struct tm &tm, int &zone) { // We're not parsing the grammar exactly, but whatever. // It's too complicated and nobody uses CFWS. tm.tm_yday = -1; tm.tm_isdst = 0; if (!parseImfFixdate_dayOfWeek(&date, end, tm)) { return false; } if (date == end || *date != ',') { return false; } date++; if (!parseImfFixdate_date(&date, end, tm)) { return false; } return parseImfFixdate_time(&date, end, tm, zone); } /** * Converts a parsed IMF-fixdate, as outputted by `parseImfFixdate()`, * into a Unix timestamp. */ inline time_t parsedDateToTimestamp(struct tm &tm, int zone) { time_t timeUsingLocalTZ = mktime(&tm); // tmUsingLocalTZ now contains tm interpreted as being in our local timezone instead of the intended UTC // Example: 10 UTC interpreted as 10 GMT+1 instead of 11 GMT+1 #if !defined(sun) && !defined(__sun) && !defined(BOOST_OS_MACOS) // tm_gmtoff = "seconds east of UTC", so the example 10 GMT+1 would now be corrected to (10+1) GMT+1 timeUsingLocalTZ += tm.tm_gmtoff; #else // Solaris doesn't have tm_gmtoff, so we calculate the current offset by converting to UTC (gmtime) and pretending // that is local time again (mktime), resulting in a "corrected" timestamp that we can delta with the original timestamp. // In the example: gmtime(10 GMT+1) = 9 UTC, interpreted as 9 GMT+1 gives use delta (10 - 9) = +1 to correct 10 GMT+1 with. struct tm *tmAsUTC = gmtime(&timeUsingLocalTZ); time_t utcUsingLocalTZ = mktime(tmAsUTC); timeUsingLocalTZ += (timeUsingLocalTZ - utcUsingLocalTZ); #endif // The final result also needs to take into account the desired zone. return timeUsingLocalTZ - (zone / 100 * 60 * 60 + zone % 100 * 60); } inline void skipImfFixdate_FWS(const char **pos, const char *end) { while (*pos < end && (**pos == '\r' || **pos == '\n' || **pos == ' ' || **pos == '\t')) { (*pos)++; } } inline bool skipImfFixdate_CFWS(const char **pos, const char *end) { while (*pos < end) { skipImfFixdate_FWS(pos, end); if (*pos == end || **pos != '(') { break; } else if (!skipImfFixdate_comment(pos, end)) { return false; } } return true; } inline bool skipImfFixdate_comment(const char **pos, const char *end) { assert(**pos == '('); (*pos)++; const char *result = static_cast<const char*>(std::memchr(*pos, ')', end - *pos)); if (result == NULL) { return false; } else { *pos = result + 1; return true; } } inline bool parseImfFixdate_dayOfWeek(const char **pos, const char *end, struct tm &tm) { if (!skipImfFixdate_CFWS(pos, end)) { return false; } if (end - *pos >= 3) { StaticString str(*pos, 3); (*pos) += 3; if (str == P_STATIC_STRING("Mon")) { tm.tm_wday = 0; } else if (str == P_STATIC_STRING("Tue")) { tm.tm_wday = 1; } else if (str == P_STATIC_STRING("Wed")) { tm.tm_wday = 2; } else if (str == P_STATIC_STRING("Thu")) { tm.tm_wday = 3; } else if (str == P_STATIC_STRING("Fri")) { tm.tm_wday = 4; } else if (str == P_STATIC_STRING("Sat")) { tm.tm_wday = 5; } else if (str == P_STATIC_STRING("Sun")) { tm.tm_wday = 6; } else { return false; } return true; } else { return false; } } inline bool parseImfFixdate_date(const char **pos, const char *end, struct tm &tm) { return parseImfFixdate_day(pos, end, tm) && parseImfFixdate_month(pos, end, tm) && parseImfFixdate_year(pos, end, tm); } inline bool parseImfFixdate_day(const char **pos, const char *end, struct tm &tm) { if (!skipImfFixdate_CFWS(pos, end)) { return false; } const char *dayBegin = *pos; while (*pos < end && **pos >= '0' && **pos <= '9') { (*pos)++; } size_t size = *pos - dayBegin; if (size == 0 || size > 2) { return false; } if (!skipImfFixdate_CFWS(pos, end)) { return false; } tm.tm_mday = stringToInt(StaticString(dayBegin, size)); return true; } inline bool parseImfFixdate_month(const char **pos, const char *end, struct tm &tm) { if (end - *pos >= 3) { StaticString str(*pos, 3); (*pos) += 3; if (str == P_STATIC_STRING("Jan")) { tm.tm_mon = 0; } else if (str == P_STATIC_STRING("Feb")) { tm.tm_mon = 1; } else if (str == P_STATIC_STRING("Mar")) { tm.tm_mon = 2; } else if (str == P_STATIC_STRING("Apr")) { tm.tm_mon = 3; } else if (str == P_STATIC_STRING("May")) { tm.tm_mon = 4; } else if (str == P_STATIC_STRING("Jun")) { tm.tm_mon = 5; } else if (str == P_STATIC_STRING("Jul")) { tm.tm_mon = 6; } else if (str == P_STATIC_STRING("Aug")) { tm.tm_mon = 7; } else if (str == P_STATIC_STRING("Sep")) { tm.tm_mon = 8; } else if (str == P_STATIC_STRING("Oct")) { tm.tm_mon = 9; } else if (str == P_STATIC_STRING("Nov")) { tm.tm_mon = 10; } else if (str == P_STATIC_STRING("Dec")) { tm.tm_mon = 11; } else { return false; } return true; } else { return false; } } inline bool parseImfFixdate_year(const char **pos, const char *end, struct tm &tm) { if (!skipImfFixdate_CFWS(pos, end)) { return false; } const char *yearBegin = *pos; while (*pos < end && **pos >= '0' && **pos <= '9') { (*pos)++; } size_t size = *pos - yearBegin; if (size != 4) { return false; } if (!skipImfFixdate_CFWS(pos, end)) { return false; } tm.tm_year = stringToInt(StaticString(yearBegin, size)) - 1900; return true; } inline bool parseImfFixdate_time(const char **pos, const char *end, struct tm &tm, int &zone) { if (!parseImfFixdate_hour(pos, end, tm)) { return false; } if (*pos == end || **pos != ':') { return false; } (*pos)++; if (!parseImfFixdate_minute(pos, end, tm)) { return false; } if (*pos == end) { return false; } else if (**pos == ':') { (*pos)++; if (!parseImfFixdate_second(pos, end, tm)) { return false; } } return parseImfFixdate_zone(pos, end, zone); } inline int parseImfFixdate_timeComponent(const char **pos, const char *end) { if (!skipImfFixdate_CFWS(pos, end)) { return -1; } const char *begin = *pos; while (*pos < end && **pos >= '0' && **pos <= '9') { (*pos)++; } size_t size = *pos - begin; if (size != 2) { return -1; } if (!skipImfFixdate_CFWS(pos, end)) { return -1; } return stringToInt(StaticString(begin, size)); } inline bool parseImfFixdate_hour(const char **pos, const char *end, struct tm &tm) { int result = parseImfFixdate_timeComponent(pos, end); if (result != -1 && result >= 0 && result <= 23) { tm.tm_hour = result; return true; } else { return false; } } inline bool parseImfFixdate_minute(const char **pos, const char *end, struct tm &tm) { int result = parseImfFixdate_timeComponent(pos, end); if (result != -1 && result >= 0 && result <= 59) { tm.tm_min = result; return true; } else { return false; } } inline bool parseImfFixdate_second(const char **pos, const char *end, struct tm &tm) { int result = parseImfFixdate_timeComponent(pos, end); // up to 60 to allow leap seconds if (result != -1 && result >= 0 && result <= 60) { tm.tm_sec = result; return true; } else { return false; } } inline bool parseImfFixdate_zone(const char **pos, const char *end, int &zone) { if (!skipImfFixdate_CFWS(pos, end) || *pos == end) { return false; } if (**pos == '+' || **pos == '-') { // Time zone offset int sign = (**pos == '+') ? 1 : -1; (*pos)++; if (*pos == end) { return false; } const char *begin = *pos; while (*pos < end && **pos >= '0' && **pos <= '9') { (*pos)++; } size_t size = *pos - begin; if (size != 4) { return false; } zone = sign * stringToInt(StaticString(begin, size)); } else { // obs-zone StaticString str(*pos, std::min<size_t>(end - *pos, 3)); if (str.substr(0, 2) == P_STATIC_STRING("UT") || str == P_STATIC_STRING("UTC") || str == P_STATIC_STRING("GMT")) { zone = 0; } else if (str == P_STATIC_STRING("EST")) { zone = -500; } else if (str == P_STATIC_STRING("EDT")) { zone = -400; } else if (str == P_STATIC_STRING("CST")) { zone = -600; } else if (str == P_STATIC_STRING("CDT")) { zone = -500; } else if (str == P_STATIC_STRING("MST")) { zone = -700; } else if (str == P_STATIC_STRING("MDT")) { zone = -600; } else if (str == P_STATIC_STRING("PST")) { zone = -800; } else if (str == P_STATIC_STRING("PDT")) { zone = -700; } else { // No support for military zones return false; } } return true; } } // namespace Passenger #endif /* _PASSENGER_STRINTTOOLS_DATE_PARSING_H_ */