/* * Copyright (C) 2007-2010 Xagasoft, All rights reserved. * * This file is part of the libbu++ library and is released under the * terms of the license contained in the file LICENSE. */ #include "bu/minicron.h" #include #include Bu::MiniCron::MiniCron() : jidNext( 1 ) { } Bu::MiniCron::~MiniCron() { while( !hJobs.isEmpty() ) { delete hJobs.dequeue(); } } bool Bu::MiniCron::hasJobs() { return !hJobs.isEmpty(); } time_t Bu::MiniCron::getNextRun() { if( hasJobs() ) return hJobs.peek()->getNextRun(); return -1; } time_t Bu::MiniCron::getNextRun( Bu::MiniCron::JobId jid ) { for( JobHeap::iterator i = hJobs.begin(); i; i++ ) { if( (*i)->getId() == jid ) { return (*i)->getNextRunTime(); } } return -1; } void Bu::MiniCron::poll() { time_t tNow = time( NULL ); while( !hJobs.isEmpty() ) { if( hJobs.peek()->getNextRun() <= tNow ) { Job *pJob = hJobs.dequeue(); pJob->run(); if( pJob->bContinue ) { hJobs.enqueue( pJob ); } else { delete pJob; } } else { break; } } } Bu::MiniCron::JobId Bu::MiniCron::addJob( const Bu::String &sName, Bu::MiniCron::CronSignal sigJob, const Bu::MiniCron::Timer &t ) { JobId jid = jidNext++; Job *pJob = new Job( sName, jid ); pJob->sigJob = sigJob; pJob->pTimer = t.clone(); pJob->tNextRun = pJob->pTimer->nextTime(); hJobs.enqueue( pJob ); return jid; } Bu::MiniCron::JobId Bu::MiniCron::addJobOnce( const Bu::String &sName, Bu::MiniCron::CronSignal sigJob, const Bu::MiniCron::Timer &t ) { JobId jid = jidNext++; Job *pJob = new Job( sName, jid, false ); pJob->sigJob = sigJob; pJob->pTimer = t.clone(); pJob->tNextRun = pJob->pTimer->nextTime(); hJobs.enqueue( pJob ); return jid; } void Bu::MiniCron::removeJob( JobId jid ) { Bu::List lJobs; while( !hJobs.isEmpty() ) { Job *pJob = hJobs.dequeue(); if( pJob->getId() == jid ) { delete pJob; } else lJobs.append( pJob ); } for( Bu::List::iterator i = lJobs.begin(); i; i++ ) { hJobs.enqueue( *i ); } } Bu::MiniCron::JobInfoList Bu::MiniCron::getJobInfo() { JobInfoList lRet; for( JobHeap::iterator i = hJobs.begin(); i; i++ ) { lRet.append( JobInfo( (*i)->getName(), (*i)->getId(), (*i)->getNextRun() ) ); } lRet.sort(); return lRet; } Bu::MiniCron::Job::Job( const Bu::String &sName, JobId jid, bool bRepeat ) : sName( sName ), pTimer( NULL ), bContinue( bRepeat ), jid( jid ), tAdded( time( NULL ) ), iRunCount( 0 ) { } Bu::MiniCron::Job::~Job() { delete pTimer; pTimer = NULL; } void Bu::MiniCron::Job::run() { iRunCount++; tNextRun = pTimer->nextTime(); sigJob( *this ); } time_t Bu::MiniCron::Job::getNextRun() const { return tNextRun; } void Bu::MiniCron::Job::calcNextRun() { if( pTimer ) tNextRun = pTimer->nextTime(); } void Bu::MiniCron::Job::setTimer( const Timer &t ) { delete pTimer; pTimer = t.clone(); } void Bu::MiniCron::Job::stop() { bContinue = false; } void Bu::MiniCron::Job::resume() { bContinue = true; } Bu::MiniCron::JobId Bu::MiniCron::Job::getId() const { return jid; } time_t Bu::MiniCron::Job::getTimeCreated() const { return tAdded; } int Bu::MiniCron::Job::getRunCount() const { return iRunCount; } time_t Bu::MiniCron::Job::getNextRunTime() const { return tNextRun; } Bu::String Bu::MiniCron::Job::getName() const { return sName; } Bu::MiniCron::JobInfo::JobInfo( const Bu::String &sName, JobId jid, time_t tNext ) : sName( sName ), jid( jid ), tNext( tNext ) { } Bu::MiniCron::JobInfo::~JobInfo() { } bool Bu::MiniCron::JobInfo::operator<( const JobInfo &rhs ) const { return jid < rhs.jid; } Bu::MiniCron::Timer::Timer() { } Bu::MiniCron::Timer::~Timer() { } Bu::MiniCron::TimerInterval::TimerInterval( time_t tFirst, time_t tInterval ) : tNext( tFirst ), tInterval( tInterval ) { } Bu::MiniCron::TimerInterval::~TimerInterval() { } time_t Bu::MiniCron::TimerInterval::nextTime() { time_t tRet = tNext; tNext += tInterval; return tRet; } Bu::MiniCron::TimerBasic::TimerBasic( const Bu::String &s ) : tLast( -1 ), sSpec( s ) { } Bu::MiniCron::TimerBasic::~TimerBasic() { } time_t Bu::MiniCron::TimerBasic::nextTime() { if( tLast == -1 ) tLast = time( NULL ); Bu::String::const_iterator i = sSpec.begin(); switch( lex( i ) ) { case tokDaily: { int iHour = lexInt( i ); int iMin = lexInt( i ); struct tm t; ::memcpy( &t, localtime( &tLast ), sizeof(struct tm) ); if( iHour < t.tm_hour || (iHour == t.tm_hour && iMin <= t.tm_min) ) { t.tm_mday++; } t.tm_hour = iHour; t.tm_min = iMin; t.tm_sec = 0; tLast = mktime( &t ); } break; case tokHourly: { int iMin = lexInt( i ); struct tm t; ::memcpy( &t, localtime( &tLast ), sizeof(struct tm) ); if( iMin <= t.tm_min ) t.tm_hour++; t.tm_min = iMin; t.tm_sec = 0; tLast = mktime( &t ); } break; case tokWeekly: { int iDay = lexInt( i ); int iHour = lexInt( i ); int iMin = lexInt( i ); struct tm t; ::memcpy( &t, localtime( &tLast ), sizeof(struct tm) ); if( iDay < t.tm_wday || (iDay == t.tm_wday && iHour < t.tm_hour) || (iDay == t.tm_wday && iHour == t.tm_hour && iMin <= t.tm_min) ) { if( iDay <= t.tm_wday ) t.tm_mday += 7 - (t.tm_wday-iDay); else t.tm_mday += 7 - (iDay-t.tm_wday); } else { t.tm_mday += (iDay-t.tm_wday); } t.tm_hour = iHour; t.tm_min = iMin; t.tm_sec = 0; tLast = mktime( &t ); } break; case tokMonthly: break; case tokYearly: break; default: break; } return tLast; } Bu::MiniCron::TimerBasic::Token Bu::MiniCron::TimerBasic::lex( Bu::String::const_iterator &i ) { if( !i ) { return tokEos; } Bu::String::const_iterator b = i; for(; b && (*b == ' ' || *b == '\t'); b++ ) { i = b+1; } for(; b && *b != ' ' && *b != '\t'; b++ ) { } Bu::String sTok( i, b ); i = b; if( sTok == "daily" ) return tokDaily; else if( sTok == "hourly" ) return tokHourly; else if( sTok == "weekly" ) return tokWeekly; else if( sTok == "monthly" ) return tokMonthly; else if( sTok == "yearly" ) return tokYearly; else if( sTok == "sun" ) { iVal = 0; return valInt; } else if( sTok == "mon" ) { iVal = 1; return valInt; } else if( sTok == "tue" ) { iVal = 2; return valInt; } else if( sTok == "wed" ) { iVal = 3; return valInt; } else if( sTok == "thu" ) { iVal = 4; return valInt; } else if( sTok == "fri" ) { iVal = 5; return valInt; } else if( sTok == "sat" ) { iVal = 6; return valInt; } else if( sTok[0] >= '0' && sTok[0] <= '9' ) { iVal = strtol( sTok.getStr(), NULL, 0 ); return valInt; } return tokErr; } int Bu::MiniCron::TimerBasic::lexInt( Bu::String::const_iterator &i ) { Token t = lex( i ); if( t == tokEos ) return 0; if( t != valInt ) throw Bu::ExceptionBase("Expected int, got something else."); return iVal; }