// @file time_support.h /* Copyright 2010 10gen Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include // sscanf #include #include #include #undef assert #define assert MONGO_assert namespace mongo { inline void time_t_to_Struct(time_t t, struct tm * buf , bool local = false ) { #if defined(_WIN32) if ( local ) localtime_s( buf , &t ); else gmtime_s(buf, &t); #else if ( local ) localtime_r(&t, buf); else gmtime_r(&t, buf); #endif } // uses ISO 8601 dates without trailing Z // colonsOk should be false when creating filenames inline string terseCurrentTime(bool colonsOk=true) { struct tm t; time_t_to_Struct( time(0) , &t ); const char* fmt = (colonsOk ? "%Y-%m-%dT%H:%M:%S" : "%Y-%m-%dT%H-%M-%S"); char buf[32]; assert(strftime(buf, sizeof(buf), fmt, &t) == 19); return buf; } inline boost::gregorian::date currentDate() { boost::posix_time::ptime now = boost::posix_time::second_clock::local_time(); return now.date(); } // parses time of day in "hh:mm" format assuming 'hh' is 00-23 inline bool toPointInTime( const string& str , boost::posix_time::ptime* timeOfDay ) { int hh = 0; int mm = 0; if ( 2 != sscanf( str.c_str() , "%d:%d" , &hh , &mm ) ) { return false; } // verify that time is well formed if ( ( hh / 24 ) || ( mm / 60 ) ) { return false; } boost::posix_time::ptime res( currentDate() , boost::posix_time::hours( hh ) + boost::posix_time::minutes( mm ) ); *timeOfDay = res; return true; } #define MONGO_asctime _asctime_not_threadsafe_ #define asctime MONGO_asctime #define MONGO_gmtime _gmtime_not_threadsafe_ #define gmtime MONGO_gmtime #define MONGO_localtime _localtime_not_threadsafe_ #define localtime MONGO_localtime #define MONGO_ctime _ctime_is_not_threadsafe_ #define ctime MONGO_ctime #if defined(_WIN32) inline void sleepsecs(int s) { Sleep(s*1000); } inline void sleepmillis(long long s) { assert( s <= 0xffffffff ); Sleep((DWORD) s); } inline void sleepmicros(long long s) { if ( s <= 0 ) return; boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); xt.sec += (int)( s / 1000000 ); xt.nsec += (int)(( s % 1000000 ) * 1000); if ( xt.nsec >= 1000000000 ) { xt.nsec -= 1000000000; xt.sec++; } boost::thread::sleep(xt); } #elif defined(__sunos__) inline void sleepsecs(int s) { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); xt.sec += s; boost::thread::sleep(xt); } inline void sleepmillis(long long s) { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); xt.sec += (int)( s / 1000 ); xt.nsec += (int)(( s % 1000 ) * 1000000); if ( xt.nsec >= 1000000000 ) { xt.nsec -= 1000000000; xt.sec++; } boost::thread::sleep(xt); } inline void sleepmicros(long long s) { if ( s <= 0 ) return; boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); xt.sec += (int)( s / 1000000 ); xt.nsec += (int)(( s % 1000000 ) * 1000); if ( xt.nsec >= 1000000000 ) { xt.nsec -= 1000000000; xt.sec++; } boost::thread::sleep(xt); } #else inline void sleepsecs(int s) { struct timespec t; t.tv_sec = s; t.tv_nsec = 0; if ( nanosleep( &t , 0 ) ) { cout << "nanosleep failed" << endl; } } inline void sleepmicros(long long s) { if ( s <= 0 ) return; struct timespec t; t.tv_sec = (int)(s / 1000000); t.tv_nsec = 1000 * ( s % 1000000 ); struct timespec out; if ( nanosleep( &t , &out ) ) { cout << "nanosleep failed" << endl; } } inline void sleepmillis(long long s) { sleepmicros( s * 1000 ); } #endif // note this wraps inline int tdiff(unsigned told, unsigned tnew) { return WrappingInt::diff(tnew, told); } extern long long jsTime_virtual_skew; extern boost::thread_specific_ptr jsTime_virtual_thread_skew; // DO NOT TOUCH except for testing inline void jsTimeVirtualSkew( long long skew ){ jsTime_virtual_skew = skew; } inline long long getJSTimeVirtualSkew(){ return jsTime_virtual_skew; } inline void jsTimeVirtualThreadSkew( long long skew ){ jsTime_virtual_thread_skew.reset(new long long(skew)); } inline long long getJSTimeVirtualThreadSkew(){ if(jsTime_virtual_thread_skew.get()){ return *(jsTime_virtual_thread_skew.get()); } else return 0; } /** curTimeMillis will overflow - use curTimeMicros64 instead if you care about that. */ inline unsigned curTimeMillis(); /** Date_t is milliseconds since epoch */ inline Date_t jsTime(); /** measures up to 1024 seconds. or, 512 seconds with tdiff that is */ inline unsigned curTimeMicros(); inline unsigned long long curTimeMicros64(); #ifdef _WIN32 // no gettimeofday on windows inline unsigned curTimeMillis() { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); unsigned t = xt.nsec / 1000000; return (xt.sec & 0xfffff) * 1000 + t; } inline Date_t jsTime() { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); unsigned long long t = xt.nsec / 1000000; return ((unsigned long long) xt.sec * 1000) + t + getJSTimeVirtualSkew() + getJSTimeVirtualThreadSkew(); } inline unsigned long long curTimeMicros64() { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); unsigned long long t = xt.nsec / 1000; return (((unsigned long long) xt.sec) * 1000000) + t; } inline unsigned curTimeMicros() { boost::xtime xt; boost::xtime_get(&xt, boost::TIME_UTC); unsigned t = xt.nsec / 1000; unsigned secs = xt.sec % 1024; return secs*1000000 + t; } #else # include inline unsigned curTimeMillis() { timeval tv; gettimeofday(&tv, NULL); unsigned t = tv.tv_usec / 1000; return (tv.tv_sec & 0xfffff) * 1000 + t; } inline Date_t jsTime() { timeval tv; gettimeofday(&tv, NULL); unsigned long long t = tv.tv_usec / 1000; return ((unsigned long long) tv.tv_sec * 1000) + t + getJSTimeVirtualSkew() + getJSTimeVirtualThreadSkew(); } inline unsigned long long curTimeMicros64() { timeval tv; gettimeofday(&tv, NULL); return (((unsigned long long) tv.tv_sec) * 1000*1000) + tv.tv_usec; } inline unsigned curTimeMicros() { timeval tv; gettimeofday(&tv, NULL); unsigned secs = tv.tv_sec % 1024; return secs*1000*1000 + tv.tv_usec; } #endif } // namespace mongo