diff options
Diffstat (limited to 'meta-openembedded/meta-oe/recipes-support/cpprest/cpprest/revert-f10d9f8e214516d2c19aa6ef831ee874a58c0479.patch')
| -rw-r--r-- | meta-openembedded/meta-oe/recipes-support/cpprest/cpprest/revert-f10d9f8e214516d2c19aa6ef831ee874a58c0479.patch | 1557 |
1 files changed, 1557 insertions, 0 deletions
diff --git a/meta-openembedded/meta-oe/recipes-support/cpprest/cpprest/revert-f10d9f8e214516d2c19aa6ef831ee874a58c0479.patch b/meta-openembedded/meta-oe/recipes-support/cpprest/cpprest/revert-f10d9f8e214516d2c19aa6ef831ee874a58c0479.patch new file mode 100644 index 000000000..01e463113 --- /dev/null +++ b/meta-openembedded/meta-oe/recipes-support/cpprest/cpprest/revert-f10d9f8e214516d2c19aa6ef831ee874a58c0479.patch @@ -0,0 +1,1557 @@ +Description: revert upstream bugfix (see:https://github.com/Microsoft/cpprestsdk/issues/1090) +Last-Update: 2019-03-28 + +--- cpprest-2.10.12.orig/Release/include/cpprest/asyncrt_utils.h ++++ cpprest-2.10.12/Release/include/cpprest/asyncrt_utils.h +@@ -630,6 +630,15 @@ private: + static const interval_type _hourTicks = 60 * 60 * _secondTicks; + static const interval_type _dayTicks = 24 * 60 * 60 * _secondTicks; + ++#ifdef _WIN32 ++ // void* to avoid pulling in windows.h ++ static _ASYNCRTIMP bool __cdecl system_type_to_datetime(/*SYSTEMTIME*/ void* psysTime, ++ uint64_t seconds, ++ datetime* pdt); ++#else ++ static datetime timeval_to_datetime(const timeval& time); ++#endif ++ + // Private constructor. Use static methods to create an instance. + datetime(interval_type interval) : m_interval(interval) {} + +@@ -690,6 +699,7 @@ public: + void set_length(int length) { m_length = length; } + + private: ++ static const utility::string_t c_allowed_chars; + std::mt19937 m_random; + int m_length; + }; +--- cpprest-2.10.12.orig/Release/src/pch/stdafx.h ++++ cpprest-2.10.12/Release/src/pch/stdafx.h +@@ -61,6 +61,7 @@ + #undef BOOST_NO_CXX11_NULLPTR + #endif + #include "boost/bind/bind.hpp" ++#include "boost/date_time/posix_time/posix_time_types.hpp" + #include "boost/thread/condition_variable.hpp" + #include "boost/thread/mutex.hpp" + #include <fcntl.h> +--- cpprest-2.10.12.orig/Release/src/utilities/asyncrt_utils.cpp ++++ cpprest-2.10.12/Release/src/utilities/asyncrt_utils.cpp +@@ -15,9 +15,20 @@ + + #include <algorithm> + #include <cpprest/asyncrt_utils.h> +-#include <stdexcept> ++#include <sstream> + #include <string> +-#include <time.h> ++ ++#ifndef _WIN32 ++#if defined(__clang__) ++#pragma clang diagnostic push ++#pragma clang diagnostic ignored "-Wunused-local-typedef" ++#endif ++#include <boost/date_time/posix_time/posix_time.hpp> ++#include <boost/date_time/posix_time/posix_time_io.hpp> ++#if defined(__clang__) ++#pragma clang diagnostic pop ++#endif ++#endif + + using namespace web; + using namespace utility; +@@ -618,7 +629,18 @@ std::string __cdecl conversions::to_utf8 + + utf16string __cdecl conversions::to_utf16string(const std::string& value) { return utf8_to_utf16(value); } + +-static const uint64_t ntToUnixOffsetSeconds = 11644473600U; // diff between windows and unix epochs (seconds) ++#ifndef WIN32 ++datetime datetime::timeval_to_datetime(const timeval& time) ++{ ++ const uint64_t epoch_offset = 11644473600LL; // diff between windows and unix epochs (seconds) ++ uint64_t result = epoch_offset + time.tv_sec; ++ result *= _secondTicks; // convert to 10e-7 ++ result += time.tv_usec * 10; // convert and add microseconds, 10e-6 to 10e-7 ++ return datetime(result); ++} ++#endif ++ ++static bool is_digit(utility::char_t c) { return c >= _XPLATSTR('0') && c <= _XPLATSTR('9'); } + + datetime __cdecl datetime::utc_now() + { +@@ -634,649 +656,450 @@ datetime __cdecl datetime::utc_now() + #else // LINUX + struct timeval time; + gettimeofday(&time, nullptr); +- uint64_t result = ntToUnixOffsetSeconds + time.tv_sec; +- result *= _secondTicks; // convert to 10e-7 +- result += time.tv_usec * 10; // convert and add microseconds, 10e-6 to 10e-7 +- return datetime(result); ++ return timeval_to_datetime(time); + #endif + } + +-static const char dayNames[] = "Sun\0Mon\0Tue\0Wed\0Thu\0Fri\0Sat"; +-static const char monthNames[] = "Jan\0Feb\0Mar\0Apr\0May\0Jun\0Jul\0Aug\0Sep\0Oct\0Nov\0Dec"; +- + utility::string_t datetime::to_string(date_format format) const + { +- const uint64_t input = m_interval / _secondTicks; // convert to seconds +- const int frac_sec = static_cast<int>(m_interval % _secondTicks); +- const time_t time = static_cast<time_t>(input - ntToUnixOffsetSeconds); +- struct tm t; +-#ifdef _MSC_VER +- if (gmtime_s(&t, &time) != 0) +-#else // ^^^ _MSC_VER ^^^ // vvv !_MSC_VER vvv +- if (gmtime_r(&time, &t) == 0) +-#endif // _MSC_VER +- { +- throw std::invalid_argument("gmtime_r/s failed on the time supplied"); +- } +- +- char outBuffer[38]; // Thu, 01 Jan 1970 00:00:00 GMT\0 +- // 1970-01-01T00:00:00.1234567Z\0 +- char* outCursor = outBuffer; +- switch (format) +- { +- case RFC_1123: +-#ifdef _MSC_VER +- sprintf_s(outCursor, +- 26, +- "%s, %02d %s %04d %02d:%02d:%02d", +- dayNames + 4 * t.tm_wday, +- t.tm_mday, +- monthNames + 4 * t.tm_mon, +- t.tm_year + 1900, +- t.tm_hour, +- t.tm_min, +- t.tm_sec); +-#else // ^^^ _MSC_VER // !_MSC_VER vvv +- sprintf(outCursor, +- "%s, %02d %s %04d %02d:%02d:%02d", +- dayNames + 4 * t.tm_wday, +- t.tm_mday, +- monthNames + 4 * t.tm_mon, +- t.tm_year + 1900, +- t.tm_hour, +- t.tm_min, +- t.tm_sec); +-#endif // _MSC_VER +- outCursor += 25; +- memcpy(outCursor, " GMT", 4); +- outCursor += 4; +- return utility::string_t(outBuffer, outCursor); +- case ISO_8601: +-#ifdef _MSC_VER +- sprintf_s(outCursor, +- 20, +- "%04d-%02d-%02dT%02d:%02d:%02d", +- t.tm_year + 1900, +- t.tm_mon + 1, +- t.tm_mday, +- t.tm_hour, +- t.tm_min, +- t.tm_sec); +-#else // ^^^ _MSC_VER // !_MSC_VER vvv +- sprintf(outCursor, +- "%04d-%02d-%02dT%02d:%02d:%02d", +- t.tm_year + 1900, +- t.tm_mon + 1, +- t.tm_mday, +- t.tm_hour, +- t.tm_min, +- t.tm_sec); +-#endif // _MSC_VER +- outCursor += 19; +- if (frac_sec != 0) +- { +- // Append fractional second, which is a 7-digit value with no trailing zeros +- // This way, '1200' becomes '00012' +-#ifdef _MSC_VER +- size_t appended = sprintf_s(outCursor, 9, ".%07d", frac_sec); +-#else // ^^^ _MSC_VER // !_MSC_VER vvv +- size_t appended = sprintf(outCursor, ".%07d", frac_sec); +-#endif // _MSC_VER +- while (outCursor[appended - 1] == '0') +- { +- --appended; // trim trailing zeros +- } +- +- outCursor += appended; +- } +- +- *outCursor = 'Z'; +- ++outCursor; +- return utility::string_t(outBuffer, outCursor); +- default: throw std::invalid_argument("Unrecognized date format."); +- } +-} +- +-template<class CharT> +-static bool string_starts_with(const CharT* haystack, const char* needle) +-{ +- while (*needle) +- { +- if (*haystack != static_cast<CharT>(*needle)) +- { +- return false; +- } +- +- ++haystack; +- ++needle; +- } +- +- return true; +-} +- +-#define ascii_isdigit(c) ((unsigned char)((unsigned char)(c) - '0') <= 9) +-#define ascii_isdigit6(c) ((unsigned char)((unsigned char)(c) - '0') <= 6) +-#define ascii_isdigit5(c) ((unsigned char)((unsigned char)(c) - '0') <= 5) +-#define ascii_isdigit3(c) ((unsigned char)((unsigned char)(c) - '0') <= 3) +-#define ascii_isdigit2(c) ((unsigned char)((unsigned char)(c) - '0') <= 2) +-#define ascii_isdigit1(c) ((unsigned char)((unsigned char)(c) - '0') <= 1) +- +-static const unsigned char max_days_in_month[12] = { +- 31, // Jan +- 00, // Feb, special handling for leap years +- 31, // Mar +- 30, // Apr +- 31, // May +- 30, // Jun +- 31, // Jul +- 31, // Aug +- 30, // Sep +- 31, // Oct +- 30, // Nov +- 31 // Dec +-}; +- +-static bool validate_day_month(int day, int month, int year) +-{ +- int maxDaysThisMonth; +- if (month == 1) +- { // Feb needs leap year testing +- maxDaysThisMonth = 28 + (year % 4 == 0 && (year % 100 != 0 || year % 400 == 0)); +- } +- else +- { +- maxDaysThisMonth = max_days_in_month[month]; +- } +- +- return day >= 1 && day <= maxDaysThisMonth; +-} ++#ifdef _WIN32 ++ int status; + +-template<class CharT> +-static int atoi2(const CharT* str) +-{ +- return (static_cast<unsigned char>(str[0]) - '0') * 10 + (static_cast<unsigned char>(str[1]) - '0'); +-} ++ ULARGE_INTEGER largeInt; ++ largeInt.QuadPart = m_interval; + +-static const time_t maxTimeT = sizeof(time_t) == 4 ? (time_t)INT_MAX : (time_t)LLONG_MAX; ++ FILETIME ft; ++ ft.dwHighDateTime = largeInt.HighPart; ++ ft.dwLowDateTime = largeInt.LowPart; + +-static time_t timezone_adjust(time_t result, unsigned char chSign, int adjustHours, int adjustMinutes) +-{ +- if (adjustHours > 23) ++ SYSTEMTIME systemTime; ++ if (!FileTimeToSystemTime((const FILETIME*)&ft, &systemTime)) + { +- return (time_t)-1; ++ throw utility::details::create_system_error(GetLastError()); + } + +- // adjustMinutes > 59 is impossible due to digit 5 check +- const int tzAdjust = adjustMinutes * 60 + adjustHours * 60 * 60; +- if (chSign == '-') ++ std::wstring result; ++ if (format == RFC_1123) + { +- if (maxTimeT - result < tzAdjust) + { +- return (time_t)-1; ++ wchar_t dateStr[18] = {0}; ++#if _WIN32_WINNT < _WIN32_WINNT_VISTA ++ status = GetDateFormatW( ++ LOCALE_INVARIANT, 0, &systemTime, L"ddd',' dd MMM yyyy", dateStr, sizeof(dateStr) / sizeof(wchar_t)); ++#else ++ status = GetDateFormatEx(LOCALE_NAME_INVARIANT, ++ 0, ++ &systemTime, ++ L"ddd',' dd MMM yyyy", ++ dateStr, ++ sizeof(dateStr) / sizeof(wchar_t), ++ NULL); ++#endif // _WIN32_WINNT < _WIN32_WINNT_VISTA ++ if (status == 0) ++ { ++ throw utility::details::create_system_error(GetLastError()); ++ } ++ ++ result += dateStr; ++ result += L' '; + } + +- result += tzAdjust; +- } +- else +- { +- if (tzAdjust > result) + { +- return (time_t)-1; +- } +- +- result -= tzAdjust; +- } +- +- return result; +-} +- +-static time_t make_gm_time(struct tm* t) +-{ +-#ifdef _MSC_VER +- return _mkgmtime(t); +-#elif (defined(ANDROID) || defined(__ANDROID__)) +- // HACK: The (nonportable?) POSIX function timegm is not available in +- // bionic. As a workaround[1][2], we set the C library timezone to +- // UTC, call mktime, then set the timezone back. However, the C +- // environment is fundamentally a shared global resource and thread- +- // unsafe. We can protect our usage here, however any other code might +- // manipulate the environment at the same time. +- // +- // [1] http://linux.die.net/man/3/timegm +- // [2] http://www.gnu.org/software/libc/manual/html_node/Broken_002ddown-Time.html +- time_t time; +- static boost::mutex env_var_lock; +- { +- boost::lock_guard<boost::mutex> lock(env_var_lock); +- std::string prev_env; +- auto prev_env_cstr = getenv("TZ"); +- if (prev_env_cstr != nullptr) +- { +- prev_env = prev_env_cstr; +- } +- setenv("TZ", "UTC", 1); +- +- time = mktime(t); ++ wchar_t timeStr[10] = {0}; ++#if _WIN32_WINNT < _WIN32_WINNT_VISTA ++ status = GetTimeFormatW(LOCALE_INVARIANT, ++ TIME_NOTIMEMARKER | TIME_FORCE24HOURFORMAT, ++ &systemTime, ++ L"HH':'mm':'ss", ++ timeStr, ++ sizeof(timeStr) / sizeof(wchar_t)); ++#else ++ status = GetTimeFormatEx(LOCALE_NAME_INVARIANT, ++ TIME_NOTIMEMARKER | TIME_FORCE24HOURFORMAT, ++ &systemTime, ++ L"HH':'mm':'ss", ++ timeStr, ++ sizeof(timeStr) / sizeof(wchar_t)); ++#endif // _WIN32_WINNT < _WIN32_WINNT_VISTA ++ if (status == 0) ++ { ++ throw utility::details::create_system_error(GetLastError()); ++ } + +- if (prev_env_cstr) +- { +- setenv("TZ", prev_env.c_str(), 1); +- } +- else +- { +- unsetenv("TZ"); ++ result += timeStr; ++ result += L" GMT"; + } + } +- return time; +-#else // ^^^ ANDROID // Other POSIX platforms vvv +- return timegm(t); +-#endif // _MSC_VER +-} +- +-/* +-https://tools.ietf.org/html/rfc822 +-https://tools.ietf.org/html/rfc1123 +- +-date-time = [ day "," ] date time ; dd mm yy +- ; hh:mm:ss zzz +- +-day = "Mon" / "Tue" / "Wed" / "Thu" +- / "Fri" / "Sat" / "Sun" +- +-date = 1*2DIGIT month 2DIGIT ; day month year +- ; e.g. 20 Jun 82 +-RFC1123 changes this to: +-date = 1*2DIGIT month 2*4DIGIT ; day month year +- ; e.g. 20 Jun 1982 +-This implementation only accepts 4 digit years. +- +-month = "Jan" / "Feb" / "Mar" / "Apr" +- / "May" / "Jun" / "Jul" / "Aug" +- / "Sep" / "Oct" / "Nov" / "Dec" +- +-time = hour zone ; ANSI and Military +- +-hour = 2DIGIT ":" 2DIGIT [":" 2DIGIT] +- ; 00:00:00 - 23:59:59 +- +-zone = "UT" / "GMT" ; Universal Time +- ; North American : UT +- / "EST" / "EDT" ; Eastern: - 5/ - 4 +- / "CST" / "CDT" ; Central: - 6/ - 5 +- / "MST" / "MDT" ; Mountain: - 7/ - 6 +- / "PST" / "PDT" ; Pacific: - 8/ - 7 +- +-// military time deleted by RFC 1123 +- +- / ( ("+" / "-") 4DIGIT ) ; Local differential +- ; hours+min. (HHMM) +-*/ +- +- +-datetime __cdecl datetime::from_string(const utility::string_t& dateString, date_format format) +-{ +- datetime result; +- time_t seconds; +- uint64_t frac_sec = 0; +- struct tm t{}; +- auto str = dateString.c_str(); +- if (format == RFC_1123) ++ else if (format == ISO_8601) + { +- int parsedWeekday = -1; +- for (int day = 0; day < 7; ++day) ++ const size_t buffSize = 64; + { +- if (string_starts_with(str, dayNames + day * 4) && str[3] == _XPLATSTR(',') && str[4] == _XPLATSTR(' ')) ++ wchar_t dateStr[buffSize] = {0}; ++#if _WIN32_WINNT < _WIN32_WINNT_VISTA ++ status = GetDateFormatW(LOCALE_INVARIANT, 0, &systemTime, L"yyyy-MM-dd", dateStr, buffSize); ++#else ++ status = GetDateFormatEx(LOCALE_NAME_INVARIANT, 0, &systemTime, L"yyyy-MM-dd", dateStr, buffSize, NULL); ++#endif // _WIN32_WINNT < _WIN32_WINNT_VISTA ++ if (status == 0) + { +- parsedWeekday = day; +- str += 5; // parsed day of week +- break; ++ throw utility::details::create_system_error(GetLastError()); + } +- } + +- if (ascii_isdigit3(str[0]) && ascii_isdigit(str[1]) && str[2] == _XPLATSTR(' ')) +- { +- t.tm_mday = atoi2(str); // validity checked later +- str += 3; // parsed day +- } +- else if (ascii_isdigit(str[0]) && str[1] == _XPLATSTR(' ')) +- { +- t.tm_mday = str[0] - _XPLATSTR('0'); +- str += 2; // parsed day +- } +- else +- { +- return result; ++ result += dateStr; ++ result += L'T'; + } + +- t.tm_mon = -1; +- for (int month = 0; month < 12; ++month) + { +- if (string_starts_with(str, monthNames + month * 4)) ++ wchar_t timeStr[buffSize] = {0}; ++#if _WIN32_WINNT < _WIN32_WINNT_VISTA ++ status = GetTimeFormatW(LOCALE_INVARIANT, ++ TIME_NOTIMEMARKER | TIME_FORCE24HOURFORMAT, ++ &systemTime, ++ L"HH':'mm':'ss", ++ timeStr, ++ buffSize); ++#else ++ status = GetTimeFormatEx(LOCALE_NAME_INVARIANT, ++ TIME_NOTIMEMARKER | TIME_FORCE24HOURFORMAT, ++ &systemTime, ++ L"HH':'mm':'ss", ++ timeStr, ++ buffSize); ++#endif // _WIN32_WINNT < _WIN32_WINNT_VISTA ++ if (status == 0) + { +- t.tm_mon = month; +- break; ++ throw utility::details::create_system_error(GetLastError()); + } +- } + +- if (t.tm_mon == -1 || str[3] != _XPLATSTR(' ')) +- { +- return result; ++ result += timeStr; + } + +- str += 4; // parsed month +- +- if (!ascii_isdigit3(str[0]) || !ascii_isdigit(str[1]) || !ascii_isdigit(str[2]) || !ascii_isdigit(str[3]) || +- str[4] != ' ') ++ uint64_t frac_sec = largeInt.QuadPart % _secondTicks; ++ if (frac_sec > 0) + { +- return result; ++ // Append fractional second, which is a 7-digit value with no trailing zeros ++ // This way, '1200' becomes '00012' ++ wchar_t buf[9] = {0}; ++ size_t appended = swprintf_s(buf, 9, L".%07ld", static_cast<long>(frac_sec)); ++ while (buf[appended - 1] == L'0') ++ --appended; // trim trailing zeros ++ result.append(buf, appended); + } + +- t.tm_year = (str[0] - _XPLATSTR('0')) * 1000 + (str[1] - _XPLATSTR('0')) * 100 + +- (str[2] - _XPLATSTR('0')) * 10 + (str[3] - _XPLATSTR('0')); +- if (t.tm_year < 1970 || t.tm_year > 3000) +- { +- return result; +- } ++ result += L'Z'; ++ } + +- // days in month validity check +- if (!validate_day_month(t.tm_mday, t.tm_mon, t.tm_year)) +- { +- return result; +- } ++ return result; ++#else // LINUX ++ uint64_t input = m_interval; ++ uint64_t frac_sec = input % _secondTicks; ++ input /= _secondTicks; // convert to seconds ++ time_t time = (time_t)input - (time_t)11644473600LL; // diff between windows and unix epochs (seconds) ++ ++ struct tm datetime; ++ gmtime_r(&time, &datetime); ++ ++ const int max_dt_length = 64; ++ char output[max_dt_length + 1] = {0}; ++ ++ if (format != RFC_1123 && frac_sec > 0) ++ { ++ // Append fractional second, which is a 7-digit value with no trailing zeros ++ // This way, '1200' becomes '00012' ++ const int max_frac_length = 8; ++ char buf[max_frac_length + 1] = {0}; ++ snprintf(buf, sizeof(buf), ".%07ld", (long int)frac_sec); ++ // trim trailing zeros ++ for (int i = max_frac_length - 1; buf[i] == '0'; i--) ++ buf[i] = '\0'; ++ // format the datetime into a separate buffer ++ char datetime_str[max_dt_length - max_frac_length - 1 + 1] = {0}; ++ strftime(datetime_str, sizeof(datetime_str), "%Y-%m-%dT%H:%M:%S", &datetime); ++ // now print this buffer into the output buffer ++ snprintf(output, sizeof(output), "%s%sZ", datetime_str, buf); ++ } ++ else ++ { ++ strftime( ++ output, sizeof(output), format == RFC_1123 ? "%a, %d %b %Y %H:%M:%S GMT" : "%Y-%m-%dT%H:%M:%SZ", &datetime); ++ } + +- t.tm_year -= 1900; +- str += 5; // parsed year ++ return std::string(output); ++#endif ++} + +- if (!ascii_isdigit2(str[0]) || !ascii_isdigit(str[1]) || str[2] != _XPLATSTR(':') || !ascii_isdigit5(str[3]) || +- !ascii_isdigit(str[4])) +- { +- return result; +- } ++#ifdef _WIN32 ++bool __cdecl datetime::system_type_to_datetime(void* pvsysTime, uint64_t seconds, datetime* pdt) ++{ ++ SYSTEMTIME* psysTime = (SYSTEMTIME*)pvsysTime; ++ FILETIME fileTime; + +- t.tm_hour = atoi2(str); +- if (t.tm_hour > 23) +- { +- return result; +- } ++ if (SystemTimeToFileTime(psysTime, &fileTime)) ++ { ++ ULARGE_INTEGER largeInt; ++ largeInt.LowPart = fileTime.dwLowDateTime; ++ largeInt.HighPart = fileTime.dwHighDateTime; + +- str += 3; // parsed hour +- t.tm_min = atoi2(str); +- str += 2; // parsed mins ++ // Add hundredths of nanoseconds ++ largeInt.QuadPart += seconds; + +- if (str[0] == ':') +- { +- if (!ascii_isdigit6(str[1]) || !ascii_isdigit(str[2]) || str[3] != _XPLATSTR(' ')) +- { +- return result; +- } ++ *pdt = datetime(largeInt.QuadPart); ++ return true; ++ } ++ return false; ++} ++#endif + +- t.tm_sec = atoi2(str + 1); +- str += 4; // parsed seconds +- } +- else if (str[0] == _XPLATSTR(' ')) +- { +- t.tm_sec = 0; +- str += 1; // parsed seconds +- } +- else +- { +- return result; ++// Take a string that represents a fractional second and return the number of ticks ++// This is equivalent to doing atof on the string and multiplying by 10000000, ++// but does not lose precision ++template<typename StringIterator> ++uint64_t timeticks_from_second(StringIterator begin, StringIterator end) ++{ ++ int size = (int)(end - begin); ++ _ASSERTE(begin[0] == U('.')); ++ uint64_t ufrac_second = 0; ++ for (int i = 1; i <= 7; ++i) ++ { ++ ufrac_second *= 10; ++ int add = i < size ? begin[i] - U('0') : 0; ++ ufrac_second += add; ++ } ++ return ufrac_second; ++} ++ ++void extract_fractional_second(const utility::string_t& dateString, ++ utility::string_t& resultString, ++ uint64_t& ufrac_second) ++{ ++ resultString = dateString; ++ // First, the string must be strictly longer than 2 characters, and the trailing character must be 'Z' ++ if (resultString.size() > 2 && resultString[resultString.size() - 1] == U('Z')) ++ { ++ // Second, find the last non-digit by scanning the string backwards ++ auto last_non_digit = std::find_if_not(resultString.rbegin() + 1, resultString.rend(), is_digit); ++ if (last_non_digit < resultString.rend() - 1) ++ { ++ // Finally, make sure the last non-digit is a dot: ++ auto last_dot = last_non_digit.base() - 1; ++ if (*last_dot == U('.')) ++ { ++ // Got it! Now extract the fractional second ++ auto last_before_Z = std::end(resultString) - 1; ++ ufrac_second = timeticks_from_second(last_dot, last_before_Z); ++ // And erase it from the string ++ resultString.erase(last_dot, last_before_Z); ++ } + } ++ } ++} + +- if (t.tm_sec > 60) +- { // 60 to allow leap seconds +- return result; +- } ++datetime __cdecl datetime::from_string(const utility::string_t& dateString, date_format format) ++{ ++ // avoid floating point math to preserve precision ++ uint64_t ufrac_second = 0; + +- t.tm_isdst = 0; +- seconds = make_gm_time(&t); +- if (seconds < 0) +- { +- return result; +- } ++#ifdef _WIN32 ++ datetime result; ++ if (format == RFC_1123) ++ { ++ SYSTEMTIME sysTime = {0}; + +- if (parsedWeekday >= 0 && parsedWeekday != t.tm_wday) +- { +- return result; +- } ++ std::wstring month(3, L'\0'); ++ std::wstring unused(3, L'\0'); + +- if (!string_starts_with(str, "GMT") && !string_starts_with(str, "UT")) +- { +- // some timezone adjustment necessary +- auto tzCh = _XPLATSTR('-'); +- int tzHours; +- int tzMinutes = 0; +- if (string_starts_with(str, "EDT")) +- { +- tzHours = 4; +- } +- else if (string_starts_with(str, "EST") || string_starts_with(str, "CDT")) +- { +- tzHours = 5; +- } +- else if (string_starts_with(str, "CST") || string_starts_with(str, "MDT")) +- { +- tzHours = 6; +- } +- else if (string_starts_with(str, "MST") || string_starts_with(str, "PDT")) +- { +- tzHours = 7; +- } +- else if (string_starts_with(str, "PST")) +- { +- tzHours = 8; +- } +- else if ((tzCh == _XPLATSTR('+') || tzCh == _XPLATSTR('-')) && ascii_isdigit2(str[1]) && +- ascii_isdigit(str[2]) && ascii_isdigit5(str[3]) && ascii_isdigit(str[4])) +- { +- tzCh = str[0]; +- tzHours = atoi2(str + 1); +- tzMinutes = atoi2(str + 3); +- } +- else +- { +- return result; +- } ++ const wchar_t* formatString = L"%3c, %2d %3c %4d %2d:%2d:%2d %3c"; ++ auto n = swscanf_s(dateString.c_str(), ++ formatString, ++ unused.data(), ++ unused.size(), ++ &sysTime.wDay, ++ month.data(), ++ month.size(), ++ &sysTime.wYear, ++ &sysTime.wHour, ++ &sysTime.wMinute, ++ &sysTime.wSecond, ++ unused.data(), ++ unused.size()); ++ ++ if (n == 8) ++ { ++ std::wstring monthnames[12] = { ++ L"Jan", L"Feb", L"Mar", L"Apr", L"May", L"Jun", L"Jul", L"Aug", L"Sep", L"Oct", L"Nov", L"Dec"}; ++ auto loc = ++ std::find_if(monthnames, monthnames + 12, [&month](const std::wstring& m) { return m == month; }); + +- seconds = timezone_adjust(seconds, static_cast<unsigned char>(tzCh), tzHours, tzMinutes); +- if (seconds < 0) ++ if (loc != monthnames + 12) + { +- return result; ++ sysTime.wMonth = (short)((loc - monthnames) + 1); ++ if (system_type_to_datetime(&sysTime, ufrac_second, &result)) ++ { ++ return result; ++ } + } + } + } + else if (format == ISO_8601) + { +- // parse year +- if (!ascii_isdigit3(str[0]) || !ascii_isdigit(str[1]) || !ascii_isdigit(str[2]) || !ascii_isdigit(str[3])) +- { +- return result; +- } ++ // Unlike FILETIME, SYSTEMTIME does not have enough precision to hold seconds in 100 nanosecond ++ // increments. Therefore, start with seconds and milliseconds set to 0, then add them separately + +- t.tm_year = (str[0] - _XPLATSTR('0')) * 1000 + (str[1] - _XPLATSTR('0')) * 100 + +- (str[2] - _XPLATSTR('0')) * 10 + (str[3] - _XPLATSTR('0')); +- if (t.tm_year < 1970 || t.tm_year > 3000) +- { +- return result; +- } ++ // Try to extract the fractional second from the timestamp ++ utility::string_t input; ++ extract_fractional_second(dateString, input, ufrac_second); ++ { ++ SYSTEMTIME sysTime = {0}; ++ const wchar_t* formatString = L"%4d-%2d-%2dT%2d:%2d:%2dZ"; ++ auto n = swscanf_s(input.c_str(), ++ formatString, ++ &sysTime.wYear, ++ &sysTime.wMonth, ++ &sysTime.wDay, ++ &sysTime.wHour, ++ &sysTime.wMinute, ++ &sysTime.wSecond); + +- str += 4; +- if (*str == _XPLATSTR('-')) +- { +- ++str; ++ if (n == 3 || n == 6) ++ { ++ if (system_type_to_datetime(&sysTime, ufrac_second, &result)) ++ { ++ return result; ++ } ++ } + } +- +- // parse month +- if (!ascii_isdigit1(str[0]) || !ascii_isdigit(str[1])) + { +- return result; +- } ++ SYSTEMTIME sysTime = {0}; ++ DWORD date = 0; + +- t.tm_mon = atoi2(str); +- if (t.tm_mon < 1 || t.tm_mon > 12) +- { +- return result; +- } +- +- t.tm_mon -= 1; +- str += 2; ++ const wchar_t* formatString = L"%8dT%2d:%2d:%2dZ"; ++ auto n = swscanf_s(input.c_str(), formatString, &date, &sysTime.wHour, &sysTime.wMinute, &sysTime.wSecond); + +- if (*str == _XPLATSTR('-')) +- { +- ++str; +- } ++ if (n == 1 || n == 4) ++ { ++ sysTime.wDay = date % 100; ++ date /= 100; ++ sysTime.wMonth = date % 100; ++ date /= 100; ++ sysTime.wYear = (WORD)date; + +- // parse day +- if (!ascii_isdigit3(str[0]) || !ascii_isdigit(str[1])) +- { +- return result; ++ if (system_type_to_datetime(&sysTime, ufrac_second, &result)) ++ { ++ return result; ++ } ++ } + } +- +- t.tm_mday = atoi2(str); +- if (!validate_day_month(t.tm_mday, t.tm_mon, t.tm_year)) + { +- return result; +- } ++ SYSTEMTIME sysTime = {0}; ++ GetSystemTime(&sysTime); // Fill date portion with today's information ++ sysTime.wSecond = 0; ++ sysTime.wMilliseconds = 0; + +- t.tm_year -= 1900; +- str += 2; ++ const wchar_t* formatString = L"%2d:%2d:%2dZ"; ++ auto n = swscanf_s(input.c_str(), formatString, &sysTime.wHour, &sysTime.wMinute, &sysTime.wSecond); + +- if (str[0] != _XPLATSTR('T') && str[0] != _XPLATSTR('t')) +- { +- // No time +- seconds = make_gm_time(&t); +- if (seconds < 0) ++ if (n == 3) + { +- return result; ++ if (system_type_to_datetime(&sysTime, ufrac_second, &result)) ++ { ++ return result; ++ } + } +- +- seconds += ntToUnixOffsetSeconds; +- result.m_interval = static_cast<interval_type>(seconds) * _secondTicks; +- return result; + } ++ } + +- ++str; // skip 'T' ++ return datetime(); ++#else ++ std::string input(dateString); + +- // parse hour +- if (!ascii_isdigit2(str[0]) || !ascii_isdigit(str[1])) +- { +- return result; +- } ++ struct tm output = tm(); + +- t.tm_hour = atoi2(str); +- str += 2; +- if (t.tm_hour > 23) +- { +- return result; +- } ++ if (format == RFC_1123) ++ { ++ strptime(input.data(), "%a, %d %b %Y %H:%M:%S GMT", &output); ++ } ++ else ++ { ++ // Try to extract the fractional second from the timestamp ++ utility::string_t input; ++ extract_fractional_second(dateString, input, ufrac_second); + +- if (*str == _XPLATSTR(':')) +- { +- ++str; +- } ++ auto result = strptime(input.data(), "%Y-%m-%dT%H:%M:%SZ", &output); + +- // parse minute +- if (!ascii_isdigit5(str[0]) || !ascii_isdigit(str[1])) ++ if (result == nullptr) + { +- return result; ++ result = strptime(input.data(), "%Y%m%dT%H:%M:%SZ", &output); + } +- t.tm_min = atoi2(str); +- // t.tm_min > 59 is impossible because we checked that the first digit is <= 5 in the basic format +- // check above +- +- str += 2; +- +- if (*str == _XPLATSTR(':')) ++ if (result == nullptr) + { +- ++str; ++ // Fill the date portion with the epoch, ++ // strptime will do the rest ++ memset(&output, 0, sizeof(struct tm)); ++ output.tm_year = 70; ++ output.tm_mon = 1; ++ output.tm_mday = 1; ++ result = strptime(input.data(), "%H:%M:%SZ", &output); + } +- +- // parse seconds +- if (!ascii_isdigit6(str[0]) || !ascii_isdigit(str[1])) ++ if (result == nullptr) + { +- return result; ++ result = strptime(input.data(), "%Y-%m-%d", &output); + } +- +- t.tm_sec = atoi2(str); +- // We allow 60 to account for leap seconds +- if (t.tm_sec > 60) ++ if (result == nullptr) + { +- return result; ++ result = strptime(input.data(), "%Y%m%d", &output); + } +- +- str += 2; +- if (str[0] == _XPLATSTR('.') && ascii_isdigit(str[1])) ++ if (result == nullptr) + { +- ++str; +- int digits = 7; +- for (;;) +- { +- frac_sec *= 10; +- frac_sec += *str - _XPLATSTR('0'); +- --digits; +- ++str; +- if (digits == 0) +- { +- while (ascii_isdigit(*str)) +- { +- // consume remaining fractional second digits we can't use +- ++str; +- } +- +- break; +- } +- +- if (!ascii_isdigit(*str)) +- { +- // no more digits in the input, do the remaining multiplies we need +- for (; digits != 0; --digits) +- { +- frac_sec *= 10; +- } +- +- break; +- } +- } ++ return datetime(); + } ++ } + +- seconds = make_gm_time(&t); +- if (seconds < 0) +- { +- return result; +- } ++#if (defined(ANDROID) || defined(__ANDROID__)) ++ // HACK: The (nonportable?) POSIX function timegm is not available in ++ // bionic. As a workaround[1][2], we set the C library timezone to ++ // UTC, call mktime, then set the timezone back. However, the C ++ // environment is fundamentally a shared global resource and thread- ++ // unsafe. We can protect our usage here, however any other code might ++ // manipulate the environment at the same time. ++ // ++ // [1] http://linux.die.net/man/3/timegm ++ // [2] http://www.gnu.org/software/libc/manual/html_node/Broken_002ddown-Time.html ++ time_t time; + +- if (str[0] == _XPLATSTR('Z') || str[0] == _XPLATSTR('z')) ++ static boost::mutex env_var_lock; ++ { ++ boost::lock_guard<boost::mutex> lock(env_var_lock); ++ std::string prev_env; ++ auto prev_env_cstr = getenv("TZ"); ++ if (prev_env_cstr != nullptr) + { +- // no adjustment needed for zulu time ++ prev_env = prev_env_cstr; + } +- else if (str[0] == _XPLATSTR('+') || str[0] == _XPLATSTR('-')) +- { +- const unsigned char offsetDirection = static_cast<unsigned char>(str[0]); +- if (!ascii_isdigit2(str[1]) || !ascii_isdigit(str[2]) || str[3] != _XPLATSTR(':') || +- !ascii_isdigit5(str[4]) || !ascii_isdigit(str[5])) +- { +- return result; +- } ++ setenv("TZ", "UTC", 1); + +- seconds = timezone_adjust(seconds, offsetDirection, atoi2(str + 1), atoi2(str + 4)); +- if (seconds < 0) +- { +- return result; +- } ++ time = mktime(&output); ++ ++ if (prev_env_cstr) ++ { ++ setenv("TZ", prev_env.c_str(), 1); + } + else + { +- // the timezone is malformed, but cpprestsdk currently accepts this as no timezone ++ unsetenv("TZ"); + } + } +- else +- { +- throw std::invalid_argument("unrecognized date format"); +- } ++#else ++ time_t time = timegm(&output); ++#endif ++ ++ struct timeval tv = timeval(); ++ tv.tv_sec = time; ++ auto result = timeval_to_datetime(tv); + +- seconds += ntToUnixOffsetSeconds; +- result.m_interval = static_cast<interval_type>(seconds) * _secondTicks + frac_sec; ++ // fractional seconds are already in correct format so just add them. ++ result = result + ufrac_second; + return result; ++#endif + } + + /// <summary> +@@ -1358,32 +1181,38 @@ utility::seconds __cdecl timespan::xml_d + // The final S could be omitted + + int64_t numSecs = 0; +- auto cursor = timespanString.c_str(); +- auto c = *cursor++; // skip 'P' +- while (c) ++ ++ utility::istringstream_t is(timespanString); ++ is.imbue(std::locale::classic()); ++ auto eof = std::char_traits<utility::char_t>::eof(); ++ ++ std::basic_istream<utility::char_t>::int_type c; ++ c = is.get(); // P ++ ++ while (c != eof) + { + int val = 0; +- c = *cursor++; ++ c = is.get(); + +- while (ascii_isdigit(c)) ++ while (is_digit((utility::char_t)c)) + { +- val = val * 10 + (c - _XPLATSTR('0')); +- c = *cursor++; ++ val = val * 10 + (c - L'0'); ++ c = is.get(); + +- if (c == _XPLATSTR('.')) ++ if (c == '.') + { + // decimal point is not handled + do + { +- c = *cursor++; +- } while (ascii_isdigit(c)); ++ c = is.get(); ++ } while (is_digit((utility::char_t)c)); + } + } + +- if (c == _XPLATSTR('D')) numSecs += val * 24 * 3600; // days +- if (c == _XPLATSTR('H')) numSecs += val * 3600; // Hours +- if (c == _XPLATSTR('M')) numSecs += val * 60; // Minutes +- if (c == _XPLATSTR('S') || c == _XPLATSTR('\0')) ++ if (c == L'D') numSecs += val * 24 * 3600; // days ++ if (c == L'H') numSecs += val * 3600; // Hours ++ if (c == L'M') numSecs += val * 60; // Minutes ++ if (c == L'S' || c == eof) + { + numSecs += val; // seconds + break; +@@ -1393,12 +1222,12 @@ utility::seconds __cdecl timespan::xml_d + return utility::seconds(numSecs); + } + +-static const utility::char_t c_allowed_chars[] = +- _XPLATSTR("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"); ++const utility::string_t nonce_generator::c_allowed_chars( ++ _XPLATSTR("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789")); + + utility::string_t nonce_generator::generate() + { +- std::uniform_int_distribution<> distr(0, static_cast<int>(sizeof(c_allowed_chars) / sizeof(utility::char_t)) - 1); ++ std::uniform_int_distribution<> distr(0, static_cast<int>(c_allowed_chars.length() - 1)); + utility::string_t result; + result.reserve(length()); + std::generate_n(std::back_inserter(result), length(), [&]() { return c_allowed_chars[distr(m_random)]; }); +--- cpprest-2.10.12.orig/Release/tests/functional/utils/datetime.cpp ++++ cpprest-2.10.12/Release/tests/functional/utils/datetime.cpp +@@ -74,6 +74,16 @@ SUITE(datetime) + } + } + ++ TEST(parsing_time_extended) ++ { ++ // ISO 8601 ++ { ++ auto dt = utility::datetime::from_string(_XPLATSTR("14:30:01Z"), utility::datetime::ISO_8601); ++ ++ VERIFY_ARE_NOT_EQUAL(0u, dt.to_interval()); ++ } ++ } ++ + void TestDateTimeRoundtrip(utility::string_t str, utility::string_t strExpected) + { + auto dt = utility::datetime::from_string(str, utility::datetime::ISO_8601); +@@ -91,8 +101,6 @@ SUITE(datetime) + + TEST(parsing_time_roundtrip_datetime2) + { +- // lose the last '000' +- TestDateTimeRoundtrip(_XPLATSTR("2013-11-19T14:30:59.1234567000Z"), _XPLATSTR("2013-11-19T14:30:59.1234567Z")); + // lose the last '999' without rounding up + TestDateTimeRoundtrip(_XPLATSTR("2013-11-19T14:30:59.1234567999Z"), _XPLATSTR("2013-11-19T14:30:59.1234567Z")); + } +@@ -121,260 +129,16 @@ SUITE(datetime) + TestDateTimeRoundtrip(_XPLATSTR("2013-11-19T14:30:59.5Z")); + } + +- void TestRfc1123IsTimeT(const utility::char_t* str, time_t t) +- { +- datetime dt = datetime::from_string(str, utility::datetime::RFC_1123); +- uint64_t interval = dt.to_interval(); +- VERIFY_ARE_EQUAL(0, interval % 10000000); +- interval /= 10000000; +- interval -= 11644473600; // NT epoch adjustment +- VERIFY_ARE_EQUAL(static_cast<uint64_t>(t), interval); +- } +- +- TEST(parsing_time_rfc1123_accepts_each_day) +- { +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:00:00 GMT"), (time_t) 0); +- TestRfc1123IsTimeT(_XPLATSTR("Fri, 02 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 1); +- TestRfc1123IsTimeT(_XPLATSTR("Sat, 03 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 2); +- TestRfc1123IsTimeT(_XPLATSTR("Sun, 04 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 3); +- TestRfc1123IsTimeT(_XPLATSTR("Mon, 05 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 4); +- TestRfc1123IsTimeT(_XPLATSTR("Tue, 06 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 5); +- TestRfc1123IsTimeT(_XPLATSTR("Wed, 07 Jan 1970 00:00:00 GMT"), (time_t) 86400 * 6); +- } +- +- TEST(parsing_time_rfc1123_boundary_cases) +- { +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:00:00 GMT"), (time_t) 0); +- TestRfc1123IsTimeT(_XPLATSTR("19 Jan 2038 03:14:06 GMT"), (time_t) INT_MAX - 1); +-#ifndef _USE_32BIT_TIME_T +- TestRfc1123IsTimeT(_XPLATSTR("19 Jan 2038 03:13:07 -0001"), (time_t) INT_MAX); +- TestRfc1123IsTimeT(_XPLATSTR("19 Jan 2038 03:14:07 -0000"), (time_t) INT_MAX); +-#endif // _USE_32BIT_TIME_T +- TestRfc1123IsTimeT(_XPLATSTR("14 Jan 2019 23:16:21 +0000"), (time_t) 1547507781); +- TestRfc1123IsTimeT(_XPLATSTR("14 Jan 2019 23:16:21 -0001"), (time_t) 1547507841); +- TestRfc1123IsTimeT(_XPLATSTR("14 Jan 2019 23:16:21 +0001"), (time_t) 1547507721); +- TestRfc1123IsTimeT(_XPLATSTR("14 Jan 2019 23:16:21 -0100"), (time_t) 1547511381); +- TestRfc1123IsTimeT(_XPLATSTR("14 Jan 2019 23:16:21 +0100"), (time_t) 1547504181); +- } +- +- TEST(parsing_time_rfc1123_uses_each_field) +- { +- TestRfc1123IsTimeT(_XPLATSTR("02 Jan 1970 00:00:00 GMT"), (time_t) 86400); +- TestRfc1123IsTimeT(_XPLATSTR("12 Jan 1970 00:00:00 GMT"), (time_t) 950400); +- TestRfc1123IsTimeT(_XPLATSTR("01 Feb 1970 00:00:00 GMT"), (time_t) 2678400); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 2000 00:00:00 GMT"), (time_t) 946684800); +-#ifndef _USE_32BIT_TIME_T +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 2100 00:00:00 GMT"), (time_t) 4102444800); +-#endif // _USE_32BIT_TIME_T +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1990 00:00:00 GMT"), (time_t) 631152000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1971 00:00:00 GMT"), (time_t) 31536000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 10:00:00 GMT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 01:00:00 GMT"), (time_t) 3600); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:10:00 GMT"), (time_t) 600); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:01:00 GMT"), (time_t) 60); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:00:10 GMT"), (time_t) 10); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 00:00:01 GMT"), (time_t) 1); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 10:00:00 GMT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 02:00:00 PST"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 03:00:00 PDT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 03:00:00 MST"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 04:00:00 MDT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 04:00:00 CST"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 05:00:00 CDT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 05:00:00 EST"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 06:00:00 EDT"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 06:00:00 -0400"), (time_t) 36000); +- TestRfc1123IsTimeT(_XPLATSTR("01 Jan 1970 05:59:00 -0401"), (time_t) 36000); +- } +- +- TEST(parsing_time_rfc1123_max_days) +- { +- TestRfc1123IsTimeT(_XPLATSTR("31 Jan 1970 00:00:00 GMT"), (time_t) 2592000); +- TestRfc1123IsTimeT(_XPLATSTR("28 Feb 2019 00:00:00 GMT"), (time_t) 1551312000); // non leap year allows feb 28 +- TestRfc1123IsTimeT(_XPLATSTR("29 Feb 2020 00:00:00 GMT"), (time_t) 1582934400); // leap year allows feb 29 +- TestRfc1123IsTimeT(_XPLATSTR("31 Mar 1970 00:00:00 GMT"), (time_t) 7689600); +- TestRfc1123IsTimeT(_XPLATSTR("30 Apr 1970 00:00:00 GMT"), (time_t) 10281600); +- TestRfc1123IsTimeT(_XPLATSTR("31 May 1970 00:00:00 GMT"), (time_t) 12960000); +- TestRfc1123IsTimeT(_XPLATSTR("30 Jun 1970 00:00:00 GMT"), (time_t) 15552000); +- TestRfc1123IsTimeT(_XPLATSTR("31 Jul 1970 00:00:00 GMT"), (time_t) 18230400); +- TestRfc1123IsTimeT(_XPLATSTR("31 Aug 1970 00:00:00 GMT"), (time_t) 20908800); +- TestRfc1123IsTimeT(_XPLATSTR("30 Sep 1970 00:00:00 GMT"), (time_t) 23500800); +- TestRfc1123IsTimeT(_XPLATSTR("31 Oct 1970 00:00:00 GMT"), (time_t) 26179200); +- TestRfc1123IsTimeT(_XPLATSTR("30 Nov 1970 00:00:00 GMT"), (time_t) 28771200); +- TestRfc1123IsTimeT(_XPLATSTR("31 Dec 1970 00:00:00 GMT"), (time_t) 31449600); +- } +- +- TEST(parsing_time_rfc1123_invalid_cases) +- { +- const utility::string_t bad_strings[] = { +- _XPLATSTR("Ahu, 01 Jan 1970 00:00:00 GMT"), // bad letters in each place +- _XPLATSTR("TAu, 01 Jan 1970 00:00:00 GMT"), +- _XPLATSTR("ThA, 01 Jan 1970 00:00:00 GMT"), +- _XPLATSTR("ThuA 01 Jan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu,A01 Jan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, A1 Jan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 0A Jan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01AJan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Aan 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 JAn 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 JaA 1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 JanA1970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan A970 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1A70 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 19A0 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 197A 00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970A00:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 A0:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 0A:00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00A00:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:A0:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:0A:00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00A00 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:A0 GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:0A GMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00AGMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 AMT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 GAT"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 GMA"), +- _XPLATSTR(""), // truncation +- _XPLATSTR("T"), +- _XPLATSTR("Th"), +- _XPLATSTR("Thu"), +- _XPLATSTR("Thu,"), +- _XPLATSTR("Thu, "), +- _XPLATSTR("Thu, 0"), +- _XPLATSTR("Thu, 01"), +- _XPLATSTR("Thu, 01 "), +- _XPLATSTR("Thu, 01 J"), +- _XPLATSTR("Thu, 01 Ja"), +- _XPLATSTR("Thu, 01 Jan"), +- _XPLATSTR("Thu, 01 Jan "), +- _XPLATSTR("Thu, 01 Jan 1"), +- _XPLATSTR("Thu, 01 Jan 19"), +- _XPLATSTR("Thu, 01 Jan 197"), +- _XPLATSTR("Thu, 01 Jan 1970"), +- _XPLATSTR("Thu, 01 Jan 1970 "), +- _XPLATSTR("Thu, 01 Jan 1970 0"), +- _XPLATSTR("Thu, 01 Jan 1970 00"), +- _XPLATSTR("Thu, 01 Jan 1970 00:"), +- _XPLATSTR("Thu, 01 Jan 1970 00:0"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:0"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 "), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 G"), +- _XPLATSTR("Thu, 01 Jan 1970 00:00:00 GM"), +- _XPLATSTR("Fri, 01 Jan 1970 00:00:00 GMT"), // wrong day +- _XPLATSTR("01 Jan 4970 00:00:00 GMT"), // year too big +- _XPLATSTR("01 Jan 3001 00:00:00 GMT"), +- _XPLATSTR("01 Xxx 1971 00:00:00 GMT"), // month bad +- _XPLATSTR("00 Jan 1971 00:00:00 GMT"), // day too small +- _XPLATSTR("32 Jan 1971 00:00:00 GMT"), // day too big +- _XPLATSTR("30 Feb 1971 00:00:00 GMT"), // day too big for feb +- _XPLATSTR("30 Feb 1971 00:00:00 GMT"), // day too big for feb (non-leap year) +- _XPLATSTR("32 Mar 1971 00:00:00 GMT"), // other months +- _XPLATSTR("31 Apr 1971 00:00:00 GMT"), +- _XPLATSTR("32 May 1971 00:00:00 GMT"), +- _XPLATSTR("31 Jun 1971 00:00:00 GMT"), +- _XPLATSTR("32 Jul 1971 00:00:00 GMT"), +- _XPLATSTR("32 Aug 1971 00:00:00 GMT"), +- _XPLATSTR("31 Sep 1971 00:00:00 GMT"), +- _XPLATSTR("32 Oct 1971 00:00:00 GMT"), +- _XPLATSTR("31 Nov 1971 00:00:00 GMT"), +- _XPLATSTR("32 Dec 1971 00:00:00 GMT"), +- _XPLATSTR("01 Jan 1971 70:00:00 GMT"), // hour too big +- _XPLATSTR("01 Jan 1971 24:00:00 GMT"), +- _XPLATSTR("01 Jan 1971 00:60:00 GMT"), // minute too big +- _XPLATSTR("01 Jan 1971 00:00:70 GMT"), // second too big +- _XPLATSTR("01 Jan 1971 00:00:61 GMT"), +- _XPLATSTR("01 Jan 1969 00:00:00 GMT"), // underflow +- _XPLATSTR("01 Jan 1969 00:00:00 CEST"), // bad tz +- _XPLATSTR("01 Jan 1970 00:00:00 +2400"), // bad tzoffsets +- _XPLATSTR("01 Jan 1970 00:00:00 -3000"), +- _XPLATSTR("01 Jan 1970 00:00:00 +2160"), +- _XPLATSTR("01 Jan 1970 00:00:00 -2400"), +- _XPLATSTR("01 Jan 1970 00:00:00 -2160"), +- }; +- +- for (const auto& str : bad_strings) +- { +- auto dt = utility::datetime::from_string(str, utility::datetime::RFC_1123); +- VERIFY_ARE_EQUAL(0, dt.to_interval()); +- } +- } +- +- TEST(parsing_time_iso8601_boundary_cases) +- { +- // boundary cases: +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:00:00Z")); // epoch +- TestDateTimeRoundtrip(_XPLATSTR("2038-01-19T03:14:06+00:00"), _XPLATSTR("2038-01-19T03:14:06Z")); // INT_MAX - 1 +-#ifndef _USE_32BIT_TIME_T +- TestDateTimeRoundtrip(_XPLATSTR("2038-01-19T03:13:07-00:01"), +- _XPLATSTR("2038-01-19T03:14:07Z")); // INT_MAX after subtacting 1 +- TestDateTimeRoundtrip(_XPLATSTR("2038-01-19T03:14:07-00:00"), _XPLATSTR("2038-01-19T03:14:07Z")); +-#endif // _USE_32BIT_TIME_T +- } +- +- TEST(parsing_time_iso8601_uses_each_timezone_digit) +- { +- TestDateTimeRoundtrip(_XPLATSTR("2019-01-14T23:16:21+00:00"), _XPLATSTR("2019-01-14T23:16:21Z")); +- TestDateTimeRoundtrip(_XPLATSTR("2019-01-14T23:16:21-00:01"), _XPLATSTR("2019-01-14T23:17:21Z")); +- TestDateTimeRoundtrip(_XPLATSTR("2019-01-14T23:16:21+00:01"), _XPLATSTR("2019-01-14T23:15:21Z")); +- TestDateTimeRoundtrip(_XPLATSTR("2019-01-14T23:16:21-01:00"), _XPLATSTR("2019-01-15T00:16:21Z")); +- TestDateTimeRoundtrip(_XPLATSTR("2019-01-14T23:16:21+01:00"), _XPLATSTR("2019-01-14T22:16:21Z")); +- } +- +- TEST(parsing_time_iso8601_uses_each_digit) +- { +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:00:01Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:01:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T01:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-02T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-02-01T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1971-01-01T00:00:00Z")); +- +- TestDateTimeRoundtrip(_XPLATSTR("1999-01-01T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-12-01T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-09-01T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-30T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-31T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T23:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T19:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:59:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:00:59Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:00:60Z"), _XPLATSTR("1970-01-01T00:01:00Z")); // leap seconds +- } +- +- TEST(parsing_time_iso8601_accepts_month_max_days) +- { +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-31T00:00:00Z")); // jan +- TestDateTimeRoundtrip(_XPLATSTR("2019-02-28T00:00:00Z")); // non leap year allows feb 28 +- TestDateTimeRoundtrip(_XPLATSTR("2020-02-29T00:00:00Z")); // leap year allows feb 29 +- TestDateTimeRoundtrip(_XPLATSTR("1970-03-31T00:00:00Z")); // mar +- TestDateTimeRoundtrip(_XPLATSTR("1970-04-30T00:00:00Z")); // apr +- TestDateTimeRoundtrip(_XPLATSTR("1970-05-31T00:00:00Z")); // may +- TestDateTimeRoundtrip(_XPLATSTR("1970-06-30T00:00:00Z")); // jun +- TestDateTimeRoundtrip(_XPLATSTR("1970-07-31T00:00:00Z")); // jul +- TestDateTimeRoundtrip(_XPLATSTR("1970-08-31T00:00:00Z")); // aug +- TestDateTimeRoundtrip(_XPLATSTR("1970-09-30T00:00:00Z")); // sep +- TestDateTimeRoundtrip(_XPLATSTR("1970-10-31T00:00:00Z")); // oct +- TestDateTimeRoundtrip(_XPLATSTR("1970-11-30T00:00:00Z")); // nov +- TestDateTimeRoundtrip(_XPLATSTR("1970-12-31T00:00:00Z")); // dec +- } +- +- TEST(parsing_time_iso8601_accepts_lowercase_t_z) +- { +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01t00:00:00Z"), _XPLATSTR("1970-01-01T00:00:00Z")); +- TestDateTimeRoundtrip(_XPLATSTR("1970-01-01T00:00:00z"), _XPLATSTR("1970-01-01T00:00:00Z")); +- } +- +- TEST(parsing_time_roundtrip_datetime_accepts_invalid_no_trailing_timezone) ++ TEST(parsing_time_roundtrip_datetime_invalid1, ++ "Ignore:Linux", ++ "Codeplex issue #115", ++ "Ignore:Apple", ++ "Codeplex issue #115") + { + // No digits after the dot, or non-digits. This is not a valid input, but we should not choke on it, + // Simply ignore the bad fraction + const utility::string_t bad_strings[] = {_XPLATSTR("2013-11-19T14:30:59.Z"), +- _XPLATSTR("2013-11-19T14:30:59.a12Z")}; ++ _XPLATSTR("2013-11-19T14:30:59.1a2Z")}; + utility::string_t str_corrected = _XPLATSTR("2013-11-19T14:30:59Z"); + + for (const auto& str : bad_strings) +@@ -387,87 +151,12 @@ SUITE(datetime) + + TEST(parsing_time_roundtrip_datetime_invalid2) + { +- // Various unsupported cases. In all cases, we have produce an empty date time ++ // Variouls unsupported cases. In all cases, we have produce an empty date time + const utility::string_t bad_strings[] = { +- _XPLATSTR(""), // empty +- _XPLATSTR(".Z"), // too short +- _XPLATSTR(".Zx"), // no trailing Z +- _XPLATSTR("3.14Z") // not a valid date +- _XPLATSTR("a971-01-01T00:00:00Z"), // any non digits or valid separators +- _XPLATSTR("1a71-01-01T00:00:00Z"), +- _XPLATSTR("19a1-01-01T00:00:00Z"), +- _XPLATSTR("197a-01-01T00:00:00Z"), +- _XPLATSTR("1971a01-01T00:00:00Z"), +- _XPLATSTR("1971-a1-01T00:00:00Z"), +- _XPLATSTR("1971-0a-01T00:00:00Z"), +- _XPLATSTR("1971-01a01T00:00:00Z"), +- _XPLATSTR("1971-01-a1T00:00:00Z"), +- _XPLATSTR("1971-01-0aT00:00:00Z"), +- // _XPLATSTR("1971-01-01a00:00:00Z"), parsed as complete date +- _XPLATSTR("1971-01-01Ta0:00:00Z"), +- _XPLATSTR("1971-01-01T0a:00:00Z"), +- _XPLATSTR("1971-01-01T00a00:00Z"), +- _XPLATSTR("1971-01-01T00:a0:00Z"), +- _XPLATSTR("1971-01-01T00:0a:00Z"), +- _XPLATSTR("1971-01-01T00:00a00Z"), +- _XPLATSTR("1971-01-01T00:00:a0Z"), +- _XPLATSTR("1971-01-01T00:00:0aZ"), +- // "1971-01-01T00:00:00a", accepted as per invalid_no_trailing_timezone above +- _XPLATSTR("1"), // truncation +- _XPLATSTR("19"), +- _XPLATSTR("197"), +- _XPLATSTR("1970"), +- _XPLATSTR("1970-"), +- _XPLATSTR("1970-0"), +- _XPLATSTR("1970-01"), +- _XPLATSTR("1970-01-"), +- _XPLATSTR("1970-01-0"), +- // _XPLATSTR("1970-01-01"), complete date +- _XPLATSTR("1970-01-01T"), +- _XPLATSTR("1970-01-01T0"), +- _XPLATSTR("1970-01-01T00"), +- _XPLATSTR("1970-01-01T00:"), +- _XPLATSTR("1970-01-01T00:0"), +- _XPLATSTR("1970-01-01T00:00"), +- _XPLATSTR("1970-01-01T00:00:"), +- _XPLATSTR("1970-01-01T00:00:0"), +- // _XPLATSTR("1970-01-01T00:00:00"), // accepted as invalid timezone above +- _XPLATSTR("4970-01-01T00:00:00Z"), // year too big +- _XPLATSTR("3001-01-01T00:00:00Z"), +- _XPLATSTR("1971-00-01T00:00:00Z"), // month too small +- _XPLATSTR("1971-20-01T00:00:00Z"), // month too big +- _XPLATSTR("1971-13-01T00:00:00Z"), +- _XPLATSTR("1971-01-00T00:00:00Z"), // day too small +- _XPLATSTR("1971-01-32T00:00:00Z"), // day too big +- _XPLATSTR("1971-02-30T00:00:00Z"), // day too big for feb +- _XPLATSTR("1971-02-30T00:00:00Z"), // day too big for feb (non-leap year) +- _XPLATSTR("1971-03-32T00:00:00Z"), // other months +- _XPLATSTR("1971-04-31T00:00:00Z"), +- _XPLATSTR("1971-05-32T00:00:00Z"), +- _XPLATSTR("1971-06-31T00:00:00Z"), +- _XPLATSTR("1971-07-32T00:00:00Z"), +- _XPLATSTR("1971-08-32T00:00:00Z"), +- _XPLATSTR("1971-09-31T00:00:00Z"), +- _XPLATSTR("1971-10-32T00:00:00Z"), +- _XPLATSTR("1971-11-31T00:00:00Z"), +- _XPLATSTR("1971-12-32T00:00:00Z"), +- _XPLATSTR("1971-01-01T70:00:00Z"), // hour too big +- _XPLATSTR("1971-01-01T24:00:00Z"), +- _XPLATSTR("1971-01-01T00:60:00Z"), // minute too big +- _XPLATSTR("1971-01-01T00:00:70Z"), // second too big +- _XPLATSTR("1971-01-01T00:00:61Z"), +- _XPLATSTR("1969-01-01T00:00:00Z"), // underflow +-#ifdef _USE_32BIT_TIME_T +- _XPLATSTR("3000-01-01T00:00:01Z"), // overflow +-#endif +- _XPLATSTR("3001-01-01T00:00:00Z"), +- _XPLATSTR("1970-01-01T00:00:00+00:01"), // time zone underflow +- // _XPLATSTR("1970-01-01T00:00:00.Z"), // accepted as invalid timezone above +- _XPLATSTR("1970-01-01T00:00:00+24:00"), // bad tzoffsets +- _XPLATSTR("1970-01-01T00:00:00-30:00"), +- _XPLATSTR("1970-01-01T00:00:00+21:60"), +- _XPLATSTR("1970-01-01T00:00:00-24:00"), +- _XPLATSTR("1970-01-01T00:00:00-21:60"), ++ _XPLATSTR(""), // empty ++ _XPLATSTR(".Z"), // too short ++ _XPLATSTR(".Zx"), // no trailing Z ++ _XPLATSTR("3.14Z") // not a valid date + }; + + for (const auto& str : bad_strings) +@@ -477,6 +166,16 @@ SUITE(datetime) + } + } + ++ TEST(parsing_time_roundtrip_time) ++ { ++ // time only without date ++ utility::string_t str = _XPLATSTR("14:30:59.1234567Z"); ++ auto dt = utility::datetime::from_string(str, utility::datetime::ISO_8601); ++ utility::string_t str2 = dt.to_string(utility::datetime::ISO_8601); ++ // Must look for a substring now, since the date part is filled with today's date ++ VERIFY_IS_TRUE(str2.find(str) != std::string::npos); ++ } ++ + } // SUITE(datetime) + + } // namespace utils_tests |
