/* -*- c++ -*- Copyright (C) 2004-2012 Christian Wieninger This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Or, point your browser to http://www.gnu.org/licenses/old-licenses/gpl-2.0.html The author can be reached at cwieninger@gmx.de The project's page is at http://winni.vdr-developer.org/epgsearch */ #include "epgsearchtools.h" #include "recstatus.h" #include "recdone.h" #include "conflictcheck_thread.h" #include "epgsearchcfg.h" #include #define ALLOWED_BREAK_INSECS 2 extern int updateForced; extern int gl_InfoConflict; cRecStatusMonitor* gl_recStatusMonitor = NULL; cRecStatusMonitor::cRecStatusMonitor() { } void cRecStatusMonitor::Recording(const cDevice *Device, const char *Name, const char* Filename, bool On) { time_t now = time(NULL); // insert new timers currently recording in TimersRecording if (On && Name) { if (EPGSearchConfig.checkTimerConflOnRecording) cConflictCheckThread::Init((cPluginEpgsearch*)cPluginManager::GetPlugin("epgsearch"), true); for (cTimer *ti = Timers.First(); ti; ti = Timers.Next(ti)) if (ti->Recording()) { // check if this is a new entry cRecDoneTimerObj *tiRFound = NULL; for (cRecDoneTimerObj *tiR = TimersRecording.First(); tiR; tiR = TimersRecording.Next(tiR)) if (tiR->timer == ti) { tiRFound = tiR; break; } if (tiRFound) // already handled, perhaps a resume { if (tiRFound->lastBreak > 0 && now - tiRFound->lastBreak <= ALLOWED_BREAK_INSECS) { LogFile.Log(1,"accepting resume of '%s' on device %d", Name, Device->CardIndex()); tiRFound->lastBreak = 0; } continue; } cRecDoneTimerObj* timerObj = new cRecDoneTimerObj(ti, Device->DeviceNumber()); TimersRecording.Add(timerObj); cSearchExt* search = TriggeredFromSearchTimer(ti); if (!search || (search->avoidRepeats == 0 && search->delMode == 0)) // ignore if not avoid repeats and no auto-delete continue; bool vpsUsed = ti->HasFlags(tfVps) && ti->Event() && ti->Event()->Vps(); LogFile.Log(1,"recording started '%s' on device %d (search timer '%s'); VPS used: %s", Name, Device->CardIndex(), search->search, vpsUsed ? "Yes": "No"); const cEvent* event = ti->Event(); if (!event) { event = GetEvent(ti); if (event) LogFile.Log(3,"timer had no event: assigning '%s'", event->Title()); } if (!event) { LogFile.Log(1,"no event for timer found! will be ignored in done list"); continue; } time_t now = time(NULL); if (vpsUsed || now < ti->StartTime() + 60) // allow a delay of one minute { timerObj->recDone = new cRecDone(ti, event, search); return; } else LogFile.Log(1,"recording started too late! will be ignored"); } } if (!On) { cMutexLock RecsDoneLock(&RecsDone); // remove timers that finished recording from TimersRecording // incomplete recordings are kept for a while, perhaps they will be resumed cRecDoneTimerObj *tiR = TimersRecording.First(); while(tiR) { // check if timer still exists bool found = false; for (cTimer *ti = Timers.First(); ti; ti = Timers.Next(ti)) if (ti == tiR->timer) { found = true; break; } if (found && !tiR->timer->Recording()) { if (tiR->recDone) { cSearchExt* search = SearchExts.GetSearchFromID(tiR->recDone->searchID); if (!search) return; // check if recording has ended before timer end bool complete = true; cRecording *pRecording = Recordings.GetByName(Filename); long timerLengthSecs = tiR->timer->StopTime()-tiR->timer->StartTime(); int recFraction = 100; if (pRecording && timerLengthSecs) { int recLen = RecLengthInSecs(pRecording); recFraction = double(recLen) * 100 / timerLengthSecs; } bool vpsUsed = tiR->timer->HasFlags(tfVps) && tiR->timer->Event() && tiR->timer->Event()->Vps(); if ((!vpsUsed && now < tiR->timer->StopTime()) || recFraction < (vpsUsed ? 90: 98)) // assure timer has reached its end or at least 98% were recorded { complete = false; LogFile.Log(1,"finished: '%s' (not complete! - recorded only %d%%); search timer: '%s'; VPS used: %s", tiR->timer->File(), recFraction, search->search, vpsUsed ? "Yes": "No"); } else { LogFile.Log(1,"finished: '%s'; search timer: '%s'; VPS used: %s", tiR->timer->File(), search->search, vpsUsed ? "Yes": "No"); if (recFraction < 100) LogFile.Log(2,"recorded %d%%'", recFraction); } if (complete) { RecsDone.Add(tiR->recDone); LogFile.Log(1,"added rec done for '%s~%s';%s", tiR->recDone->title?tiR->recDone->title:"unknown title", tiR->recDone->shortText?tiR->recDone->shortText:"unknown subtitle", search->search); RecsDone.Save(); tiR->recDone = NULL; // prevent deletion tiR->lastBreak = 0; // check for search timers to delete automatically SearchExts.CheckForAutoDelete(search); // trigger a search timer update (skip running events) search->skipRunningEvents = true; updateForced = 1; } else if (tiR->lastBreak == 0) // store first break tiR->lastBreak = now; } if (tiR->lastBreak == 0 || (now - tiR->lastBreak) > ALLOWED_BREAK_INSECS) { // remove finished recordings or those with an unallowed break if (tiR->recDone) delete tiR->recDone; // clean up cRecDoneTimerObj *tiRNext = TimersRecording.Next(tiR); TimersRecording.Del(tiR); tiR = tiRNext; continue; } break; } if (!found) { if (tiR->recDone) delete tiR->recDone; // clean up cRecDoneTimerObj *tiRNext = TimersRecording.Next(tiR); TimersRecording.Del(tiR); tiR = tiRNext; continue; } tiR = TimersRecording.Next(tiR); } } } int cRecStatusMonitor::TimerRecDevice(cTimer* timer) { if (!timer) return 0; for (cRecDoneTimerObj *tiR = TimersRecording.First(); tiR; tiR = TimersRecording.Next(tiR)) if (tiR->timer == timer && timer->Recording()) return tiR->deviceNr+1; return 0; } bool cRecStatusMonitor::IsPesRecording(cRecording *pRecording) { #if VDRVERSNUM < 10703 return true; #else return pRecording && pRecording->IsPesRecording(); #endif } #define LOC_INDEXFILESUFFIX "/index" #if VDRVERSNUM < 10703 int cRecStatusMonitor::RecLengthInSecs(cRecording *pRecording) { struct stat buf; cString fullname = cString::sprintf("%s%s", pRecording->FileName(), "/index.vdr"); if (stat(fullname, &buf) == 0) { struct tIndex { int offset; uchar type; uchar number; short reserved; }; int delta = buf.st_size % sizeof(tIndex); if (delta) { delta = sizeof(tIndex) - delta; esyslog("ERROR: invalid file size (%ld) in '%s'", buf.st_size, *fullname); } return (buf.st_size + delta) / sizeof(tIndex) / SecondsToFrames(1); } else return -1; } #else struct tIndexTs { uint64_t offset:40; // up to 1TB per file (not using off_t here - must definitely be exactly 64 bit!) int reserved:7; // reserved for future use int independent:1; // marks frames that can be displayed by themselves (for trick modes) uint16_t number:16; // up to 64K files per recording tIndexTs(off_t Offset, bool Independent, uint16_t Number) { offset = Offset; reserved = 0; independent = Independent; number = Number; } }; int cRecStatusMonitor::RecLengthInSecs(cRecording *pRecording) { struct stat buf; cString fullname = cString::sprintf("%s%s", pRecording->FileName(), IsPesRecording(pRecording) ? LOC_INDEXFILESUFFIX ".vdr" : LOC_INDEXFILESUFFIX); if (pRecording->FileName() && *fullname && access(fullname, R_OK) == 0 && stat(fullname, &buf) == 0) { double frames = buf.st_size ? (buf.st_size - 1) / sizeof(tIndexTs) + 1 : 0; double Seconds = 0; modf((frames + 0.5) / pRecording->FramesPerSecond(), &Seconds); return Seconds; } return -1; } #endif