/* * epg.c: Electronic Program Guide * * See the main source file 'vdr.c' for copyright information and * how to reach the author. * * Original version (as used in VDR before 1.3.0) written by * Robert Schneider and Rolf Hakenes . * * $Id: epg.c 2.0 2008/02/16 16:09:12 kls Exp $ */ #include "epg.h" #include #include #include #include "libsi/si.h" #include "timers.h" #define RUNNINGSTATUSTIMEOUT 30 // seconds before the running status is considered unknown // --- tComponent ------------------------------------------------------------ cString tComponent::ToString(void) { char buffer[256]; snprintf(buffer, sizeof(buffer), "%X %02X %s %s", stream, type, language, description ? description : ""); return buffer; } bool tComponent::FromString(const char *s) { unsigned int Stream, Type; int n = sscanf(s, "%X %02X %7s %a[^\n]", &Stream, &Type, language, &description); // 7 = MAXLANGCODE2 - 1 if (n != 4 || isempty(description)) { free(description); description = NULL; } stream = Stream; type = Type; return n >= 3; } // --- cComponents ----------------------------------------------------------- cComponents::cComponents(void) { numComponents = 0; components = NULL; } cComponents::~cComponents(void) { for (int i = 0; i < numComponents; i++) free(components[i].description); free(components); } void cComponents::Realloc(int Index) { if (Index >= numComponents) { int n = numComponents; numComponents = Index + 1; components = (tComponent *)realloc(components, numComponents * sizeof(tComponent)); memset(&components[n], 0, sizeof(tComponent) * (numComponents - n)); } } void cComponents::SetComponent(int Index, const char *s) { Realloc(Index); components[Index].FromString(s); } void cComponents::SetComponent(int Index, uchar Stream, uchar Type, const char *Language, const char *Description) { Realloc(Index); tComponent *p = &components[Index]; p->stream = Stream; p->type = Type; strn0cpy(p->language, Language, sizeof(p->language)); char *q = strchr(p->language, ','); if (q) *q = 0; // strips rest of "normalized" language codes p->description = strcpyrealloc(p->description, !isempty(Description) ? Description : NULL); } tComponent *cComponents::GetComponent(int Index, uchar Stream, uchar Type) { for (int i = 0; i < numComponents; i++) { // In case of an audio stream the 'type' check actually just distinguishes between "normal" and "Dolby Digital": if (components[i].stream == Stream && (Stream != 2 || (components[i].type < 5) == (Type < 5))) { if (!Index--) return &components[i]; } } return NULL; } // --- cEvent ---------------------------------------------------------------- cEvent::cEvent(tEventID EventID) { schedule = NULL; eventID = EventID; tableID = 0; version = 0xFF; // actual version numbers are 0..31 runningStatus = SI::RunningStatusUndefined; title = NULL; shortText = NULL; description = NULL; components = NULL; startTime = 0; duration = 0; vps = 0; SetSeen(); } cEvent::~cEvent() { free(title); free(shortText); free(description); delete components; } int cEvent::Compare(const cListObject &ListObject) const { cEvent *e = (cEvent *)&ListObject; return startTime - e->startTime; } tChannelID cEvent::ChannelID(void) const { return schedule ? schedule->ChannelID() : tChannelID(); } void cEvent::SetEventID(tEventID EventID) { if (eventID != EventID) { if (schedule) schedule->UnhashEvent(this); eventID = EventID; if (schedule) schedule->HashEvent(this); } } void cEvent::SetTableID(uchar TableID) { tableID = TableID; } void cEvent::SetVersion(uchar Version) { version = Version; } void cEvent::SetRunningStatus(int RunningStatus, cChannel *Channel) { if (Channel && runningStatus != RunningStatus && (RunningStatus > SI::RunningStatusNotRunning || runningStatus > SI::RunningStatusUndefined) && Channel->HasTimer()) isyslog("channel %d (%s) event %s status %d", Channel->Number(), Channel->Name(), *ToDescr(), RunningStatus); runningStatus = RunningStatus; } void cEvent::SetTitle(const char *Title) { title = strcpyrealloc(title, Title); } void cEvent::SetShortText(const char *ShortText) { shortText = strcpyrealloc(shortText, ShortText); } void cEvent::SetDescription(const char *Description) { description = strcpyrealloc(description, Description); } void cEvent::SetComponents(cComponents *Components) { delete components; components = Components; } void cEvent::SetStartTime(time_t StartTime) { if (startTime != StartTime) { if (schedule) schedule->UnhashEvent(this); startTime = StartTime; if (schedule) schedule->HashEvent(this); } } void cEvent::SetDuration(int Duration) { duration = Duration; } void cEvent::SetVps(time_t Vps) { vps = Vps; } void cEvent::SetSeen(void) { seen = time(NULL); } cString cEvent::ToDescr(void) const { char vpsbuf[64] = ""; if (Vps()) sprintf(vpsbuf, "(VPS: %s) ", *GetVpsString()); return cString::sprintf("%s %s-%s %s'%s'", *GetDateString(), *GetTimeString(), *GetEndTimeString(), vpsbuf, Title()); } bool cEvent::HasTimer(void) const { for (cTimer *t = Timers.First(); t; t = Timers.Next(t)) { if (t->Event() == this) return true; } return false; } bool cEvent::IsRunning(bool OrAboutToStart) const { return runningStatus >= (OrAboutToStart ? SI::RunningStatusStartsInAFewSeconds : SI::RunningStatusPausing); } cString cEvent::GetDateString(void) const { return DateString(startTime); } cString cEvent::GetTimeString(void) const { return TimeString(startTime); } cString cEvent::GetEndTimeString(void) const { return TimeString(startTime + duration); } cString cEvent::GetVpsString(void) const { char buf[25]; struct tm tm_r; strftime(buf, sizeof(buf), "%d.%m %R", localtime_r(&vps, &tm_r)); return buf; } void cEvent::Dump(FILE *f, const char *Prefix, bool InfoOnly) const { if (InfoOnly || startTime + duration + Setup.EPGLinger * 60 >= time(NULL)) { fprintf(f, "%sE %u %ld %d %X %X\n", Prefix, eventID, startTime, duration, tableID, version); if (!isempty(title)) fprintf(f, "%sT %s\n", Prefix, title); if (!isempty(shortText)) fprintf(f, "%sS %s\n", Prefix, shortText); if (!isempty(description)) { strreplace(description, '\n', '|'); fprintf(f, "%sD %s\n", Prefix, description); strreplace(description, '|', '\n'); } if (components) { for (int i = 0; i < components->NumComponents(); i++) { tComponent *p = components->Component(i); if (!Setup.UseDolbyDigital && p->stream == 0x02 && p->type == 0x05) continue; fprintf(f, "%sX %s\n", Prefix, *p->ToString()); } } if (vps) fprintf(f, "%sV %ld\n", Prefix, vps); if (!InfoOnly) fprintf(f, "%se\n", Prefix); } } bool cEvent::Parse(char *s) { char *t = skipspace(s + 1); switch (*s) { case 'T': SetTitle(t); break; case 'S': SetShortText(t); break; case 'D': strreplace(t, '|', '\n'); SetDescription(t); break; case 'X': if (!components) components = new cComponents; components->SetComponent(components->NumComponents(), t); break; case 'V': SetVps(atoi(t)); break; default: esyslog("ERROR: unexpected tag while reading EPG data: %s", s); return false; } return true; } bool cEvent::Read(FILE *f, cSchedule *Schedule) { if (Schedule) { cEvent *Event = NULL; char *s; int line = 0; cReadLine ReadLine; while ((s = ReadLine.Read(f)) != NULL) { line++; char *t = skipspace(s + 1); switch (*s) { case 'E': if (!Event) { unsigned int EventID; time_t StartTime; int Duration; unsigned int TableID = 0; unsigned int Version = 0xFF; // actual value is ignored int n = sscanf(t, "%u %ld %d %X %X", &EventID, &StartTime, &Duration, &TableID, &Version); if (n >= 3 && n <= 5) { Event = (cEvent *)Schedule->GetEvent(EventID, StartTime); cEvent *newEvent = NULL; if (Event) DELETENULL(Event->components); if (!Event) { Event = newEvent = new cEvent(EventID); Event->seen = 0; } if (Event) { Event->SetTableID(TableID); Event->SetStartTime(StartTime); Event->SetDuration(Duration); if (newEvent) Schedule->AddEvent(newEvent); } } } break; case 'e': if (Event && !Event->Title()) Event->SetTitle(tr("No title")); Event = NULL; break; case 'c': // to keep things simple we react on 'c' here return true; default: if (Event && !Event->Parse(s)) { esyslog("ERROR: EPG data problem in line %d", line); return false; } } } esyslog("ERROR: unexpected end of file while reading EPG data"); } return false; } #define MAXEPGBUGFIXSTATS 13 #define MAXEPGBUGFIXCHANS 100 struct tEpgBugFixStats { int hits; int n; tChannelID channelIDs[MAXEPGBUGFIXCHANS]; tEpgBugFixStats(void) { hits = n = 0; } }; tEpgBugFixStats EpgBugFixStats[MAXEPGBUGFIXSTATS]; static void EpgBugFixStat(int Number, tChannelID ChannelID) { if (0 <= Number && Number < MAXEPGBUGFIXSTATS) { tEpgBugFixStats *p = &EpgBugFixStats[Number]; p->hits++; int i = 0; for (; i < p->n; i++) { if (p->channelIDs[i] == ChannelID) break; } if (i == p->n && p->n < MAXEPGBUGFIXCHANS) p->channelIDs[p->n++] = ChannelID; } } void ReportEpgBugFixStats(bool Reset) { if (Setup.EPGBugfixLevel > 0) { bool GotHits = false; char buffer[1024]; for (int i = 0; i < MAXEPGBUGFIXSTATS; i++) { const char *delim = "\t"; tEpgBugFixStats *p = &EpgBugFixStats[i]; if (p->hits) { bool PrintedStats = false; char *q = buffer; *buffer = 0; for (int c = 0; c < p->n; c++) { cChannel *channel = Channels.GetByChannelID(p->channelIDs[c], true); if (channel) { if (!GotHits) { dsyslog("====================="); dsyslog("EPG bugfix statistics"); dsyslog("====================="); dsyslog("IF SOMEBODY WHO IS IN CHARGE OF THE EPG DATA FOR ONE OF THE LISTED"); dsyslog("CHANNELS READS THIS: PLEASE TAKE A LOOK AT THE FUNCTION cEvent::FixEpgBugs()"); dsyslog("IN VDR/epg.c TO LEARN WHAT'S WRONG WITH YOUR DATA, AND FIX IT!"); dsyslog("====================="); dsyslog("Fix\tHits\tChannels"); GotHits = true; } if (!PrintedStats) { q += snprintf(q, sizeof(buffer) - (q - buffer), "%d\t%d", i, p->hits); PrintedStats = true; } q += snprintf(q, sizeof(buffer) - (q - buffer), "%s%s", delim, channel->Name()); delim = ", "; if (q - buffer > 80) { q += snprintf(q, sizeof(buffer) - (q - buffer), "%s...", delim); break; } } } if (*buffer) dsyslog("%s", buffer); } if (Reset) p->hits = p->n = 0; } if (GotHits) dsyslog("====================="); } } void cEvent::FixEpgBugs(void) { if (isempty(title)) { // we don't want any "(null)" titles title = strcpyrealloc(title, tr("No title")); EpgBugFixStat(12, ChannelID()); } if (Setup.EPGBugfixLevel == 0) goto Final; // Some TV stations apparently have their own idea about how to fill in the // EPG data. Let's fix their bugs as good as we can: // Some channels put the ShortText in quotes and use either the ShortText // or the Description field, depending on how long the string is: // // Title // "ShortText". Description // if ((shortText == NULL) != (description == NULL)) { char *p = shortText ? shortText : description; if (*p == '"') { const char *delim = "\"."; char *e = strstr(p + 1, delim); if (e) { *e = 0; char *s = strdup(p + 1); char *d = strdup(e + strlen(delim)); free(shortText); free(description); shortText = s; description = d; EpgBugFixStat(1, ChannelID()); } } } // Some channels put the Description into the ShortText (preceded // by a blank) if there is no actual ShortText and the Description // is short enough: // // Title // Description // if (shortText && !description) { if (*shortText == ' ') { memmove(shortText, shortText + 1, strlen(shortText)); description = shortText; shortText = NULL; EpgBugFixStat(2, ChannelID()); } } // Sometimes they repeat the Title in the ShortText: // // Title // Title // if (shortText && strcmp(title, shortText) == 0) { free(shortText); shortText = NULL; EpgBugFixStat(3, ChannelID()); } // Some channels put the ShortText between double quotes, which is nothing // but annoying (some even put a '.' after the closing '"'): // // Title // "ShortText"[.] // if (shortText && *shortText == '"') { int l = strlen(shortText); if (l > 2 && (shortText[l - 1] == '"' || (shortText[l - 1] == '.' && shortText[l - 2] == '"'))) { memmove(shortText, shortText + 1, l); char *p = strrchr(shortText, '"'); if (p) *p = 0; EpgBugFixStat(4, ChannelID()); } } if (Setup.EPGBugfixLevel <= 1) goto Final; // Some channels apparently try to do some formatting in the texts, // which is a bad idea because they have no way of knowing the width // of the window that will actually display the text. // Remove excess whitespace: title = compactspace(title); shortText = compactspace(shortText); description = compactspace(description); #define MAX_USEFUL_EPISODE_LENGTH 40 // Some channels put a whole lot of information in the ShortText and leave // the Description totally empty. So if the ShortText length exceeds // MAX_USEFUL_EPISODE_LENGTH, let's put this into the Description // instead: if (!isempty(shortText) && isempty(description)) { if (strlen(shortText) > MAX_USEFUL_EPISODE_LENGTH) { free(description); description = shortText; shortText = NULL; EpgBugFixStat(6, ChannelID()); } } // Some channels put the same information into ShortText and Description. // In that case we delete one of them: if (shortText && description && strcmp(shortText, description) == 0) { if (strlen(shortText) > MAX_USEFUL_EPISODE_LENGTH) { free(shortText); shortText = NULL; } else { free(description); description = NULL; } EpgBugFixStat(7, ChannelID()); } // Some channels use the ` ("backtick") character, where a ' (single quote) // would be normally used. Actually, "backticks" in normal text don't make // much sense, so let's replace them: strreplace(title, '`', '\''); strreplace(shortText, '`', '\''); strreplace(description, '`', '\''); if (Setup.EPGBugfixLevel <= 2) goto Final; // The stream components have a "description" field which some channels // apparently have no idea of how to set correctly: if (components) { for (int i = 0; i < components->NumComponents(); i++) { tComponent *p = components->Component(i); switch (p->stream) { case 0x01: { // video if (p->description) { if (strcasecmp(p->description, "Video") == 0 || strcasecmp(p->description, "Bildformat") == 0) { // Yes, we know it's video - that's what the 'stream' code // is for! But _which_ video is it? free(p->description); p->description = NULL; EpgBugFixStat(8, ChannelID()); } } if (!p->description) { switch (p->type) { case 0x01: case 0x05: p->description = strdup("4:3"); break; case 0x02: case 0x03: case 0x06: case 0x07: p->description = strdup("16:9"); break; case 0x04: case 0x08: p->description = strdup(">16:9"); break; case 0x09: case 0x0D: p->description = strdup("HD 4:3"); break; case 0x0A: case 0x0B: case 0x0E: case 0x0F: p->description = strdup("HD 16:9"); break; case 0x0C: case 0x10: p->description = strdup("HD >16:9"); break; } EpgBugFixStat(9, ChannelID()); } } break; case 0x02: { // audio if (p->description) { if (strcasecmp(p->description, "Audio") == 0) { // Yes, we know it's audio - that's what the 'stream' code // is for! But _which_ audio is it? free(p->description); p->description = NULL; EpgBugFixStat(10, ChannelID()); } } if (!p->description) { switch (p->type) { case 0x05: p->description = strdup("Dolby Digital"); break; // all others will just display the language } EpgBugFixStat(11, ChannelID()); } } break; } } } Final: // VDR can't usefully handle newline characters in the title and shortText of EPG // data, so let's always convert them to blanks (independent of the setting of EPGBugfixLevel): strreplace(title, '\n', ' '); strreplace(shortText, '\n', ' '); /* TODO adapt to UTF-8 // Same for control characters: strreplace(title, '\x86', ' '); strreplace(title, '\x87', ' '); strreplace(shortText, '\x86', ' '); strreplace(shortText, '\x87', ' '); strreplace(description, '\x86', ' '); strreplace(description, '\x87', ' '); XXX*/ } // --- cSchedule ------------------------------------------------------------- cSchedule::cSchedule(tChannelID ChannelID) { channelID = ChannelID; hasRunning = false; modified = 0; presentSeen = 0; } cEvent *cSchedule::AddEvent(cEvent *Event) { events.Add(Event); Event->schedule = this; HashEvent(Event); return Event; } void cSchedule::DelEvent(cEvent *Event) { if (Event->schedule == this) { if (hasRunning && Event->IsRunning()) ClrRunningStatus(); UnhashEvent(Event); events.Del(Event); } } void cSchedule::HashEvent(cEvent *Event) { eventsHashID.Add(Event, Event->EventID()); if (Event->StartTime() > 0) // 'StartTime < 0' is apparently used with NVOD channels eventsHashStartTime.Add(Event, Event->StartTime()); } void cSchedule::UnhashEvent(cEvent *Event) { eventsHashID.Del(Event, Event->EventID()); if (Event->StartTime() > 0) // 'StartTime < 0' is apparently used with NVOD channels eventsHashStartTime.Del(Event, Event->StartTime()); } const cEvent *cSchedule::GetPresentEvent(void) const { const cEvent *pe = NULL; time_t now = time(NULL); for (cEvent *p = events.First(); p; p = events.Next(p)) { if (p->StartTime() <= now) pe = p; else if (p->StartTime() > now + 3600) break; if (p->SeenWithin(RUNNINGSTATUSTIMEOUT) && p->RunningStatus() >= SI::RunningStatusPausing) return p; } return pe; } const cEvent *cSchedule::GetFollowingEvent(void) const { const cEvent *p = GetPresentEvent(); if (p) p = events.Next(p); else { time_t now = time(NULL); for (p = events.First(); p; p = events.Next(p)) { if (p->StartTime() >= now) break; } } return p; } const cEvent *cSchedule::GetEvent(tEventID EventID, time_t StartTime) const { // Returns the event info with the given StartTime or, if no actual StartTime // is given, the one with the given EventID. if (StartTime > 0) // 'StartTime < 0' is apparently used with NVOD channels return eventsHashStartTime.Get(StartTime); else return eventsHashID.Get(EventID); } const cEvent *cSchedule::GetEventAround(time_t Time) const { const cEvent *pe = NULL; time_t delta = INT_MAX; for (cEvent *p = events.First(); p; p = events.Next(p)) { time_t dt = Time - p->StartTime(); if (dt >= 0 && dt < delta && p->EndTime() >= Time) { delta = dt; pe = p; } } return pe; } void cSchedule::SetRunningStatus(cEvent *Event, int RunningStatus, cChannel *Channel) { hasRunning = false; for (cEvent *p = events.First(); p; p = events.Next(p)) { if (p == Event) { if (p->RunningStatus() > SI::RunningStatusNotRunning || RunningStatus > SI::RunningStatusNotRunning) { p->SetRunningStatus(RunningStatus, Channel); break; } } else if (RunningStatus >= SI::RunningStatusPausing && p->StartTime() < Event->StartTime()) p->SetRunningStatus(SI::RunningStatusNotRunning); if (p->RunningStatus() >= SI::RunningStatusPausing) hasRunning = true; } } void cSchedule::ClrRunningStatus(cChannel *Channel) { if (hasRunning) { for (cEvent *p = events.First(); p; p = events.Next(p)) { if (p->RunningStatus() >= SI::RunningStatusPausing) { p->SetRunningStatus(SI::RunningStatusNotRunning, Channel); hasRunning = false; break; } } } } void cSchedule::ResetVersions(void) { for (cEvent *p = events.First(); p; p = events.Next(p)) p->SetVersion(0xFF); } void cSchedule::Sort(void) { events.Sort(); // Make sure there are no RunningStatusUndefined before the currently running event: if (hasRunning) { for (cEvent *p = events.First(); p; p = events.Next(p)) { if (p->RunningStatus() >= SI::RunningStatusPausing) break; p->SetRunningStatus(SI::RunningStatusNotRunning); } } } void cSchedule::DropOutdated(time_t SegmentStart, time_t SegmentEnd, uchar TableID, uchar Version) { if (SegmentStart > 0 && SegmentEnd > 0) { for (cEvent *p = events.First(); p; p = events.Next(p)) { if (p->EndTime() > SegmentStart) { if (p->StartTime() < SegmentEnd) { // The event overlaps with the given time segment. if (p->TableID() > TableID || p->TableID() == TableID && p->Version() != Version) { // The segment overwrites all events from tables with higher ids, and // within the same table id all events must have the same version. // We can't delete the event right here because a timer might have // a pointer to it, so let's set its id and start time to 0 to have it // "phased out": if (hasRunning && p->IsRunning()) ClrRunningStatus(); UnhashEvent(p); p->eventID = 0; p->startTime = 0; } } else break; } } } } void cSchedule::Cleanup(void) { Cleanup(time(NULL)); } void cSchedule::Cleanup(time_t Time) { cEvent *Event; while ((Event = events.First()) != NULL) { if (!Event->HasTimer() && Event->EndTime() + Setup.EPGLinger * 60 + 3600 < Time) // adding one hour for safety DelEvent(Event); else break; } } void cSchedule::Dump(FILE *f, const char *Prefix, eDumpMode DumpMode, time_t AtTime) const { cChannel *channel = Channels.GetByChannelID(channelID, true); if (channel) { fprintf(f, "%sC %s %s\n", Prefix, *channel->GetChannelID().ToString(), channel->Name()); const cEvent *p; switch (DumpMode) { case dmAll: { for (p = events.First(); p; p = events.Next(p)) p->Dump(f, Prefix); } break; case dmPresent: { if ((p = GetPresentEvent()) != NULL) p->Dump(f, Prefix); } break; case dmFollowing: { if ((p = GetFollowingEvent()) != NULL) p->Dump(f, Prefix); } break; case dmAtTime: { if ((p = GetEventAround(AtTime)) != NULL) p->Dump(f, Prefix); } break; } fprintf(f, "%sc\n", Prefix); } } bool cSchedule::Read(FILE *f, cSchedules *Schedules) { if (Schedules) { cReadLine ReadLine; char *s; while ((s = ReadLine.Read(f)) != NULL) { if (*s == 'C') { s = skipspace(s + 1); char *p = strchr(s, ' '); if (p) *p = 0; // strips optional channel name if (*s) { tChannelID channelID = tChannelID::FromString(s); if (channelID.Valid()) { cSchedule *p = Schedules->AddSchedule(channelID); if (p) { if (!cEvent::Read(f, p)) return false; p->Sort(); Schedules->SetModified(p); } } else { esyslog("ERROR: invalid channel ID: %s", s); return false; } } } else { esyslog("ERROR: unexpected tag while reading EPG data: %s", s); return false; } } return true; } return false; } // --- cSchedulesLock -------------------------------------------------------- cSchedulesLock::cSchedulesLock(bool WriteLock, int TimeoutMs) { locked = cSchedules::schedules.rwlock.Lock(WriteLock, TimeoutMs); } cSchedulesLock::~cSchedulesLock() { if (locked) cSchedules::schedules.rwlock.Unlock(); } // --- cSchedules ------------------------------------------------------------ cSchedules cSchedules::schedules; const char *cSchedules::epgDataFileName = NULL; time_t cSchedules::lastCleanup = time(NULL); time_t cSchedules::lastDump = time(NULL); time_t cSchedules::modified = 0; const cSchedules *cSchedules::Schedules(cSchedulesLock &SchedulesLock) { return SchedulesLock.Locked() ? &schedules : NULL; } void cSchedules::SetEpgDataFileName(const char *FileName) { delete epgDataFileName; epgDataFileName = FileName ? strdup(FileName) : NULL; } void cSchedules::SetModified(cSchedule *Schedule) { Schedule->SetModified(); modified = time(NULL); } void cSchedules::Cleanup(bool Force) { if (Force) lastDump = 0; time_t now = time(NULL); struct tm tm_r; struct tm *ptm = localtime_r(&now, &tm_r); if (now - lastCleanup > 3600) { isyslog("cleaning up schedules data"); cSchedulesLock SchedulesLock(true, 1000); cSchedules *s = (cSchedules *)Schedules(SchedulesLock); if (s) { for (cSchedule *p = s->First(); p; p = s->Next(p)) p->Cleanup(now); } lastCleanup = now; if (ptm->tm_hour == 5) ReportEpgBugFixStats(true); } if (epgDataFileName && now - lastDump > 600) { cSafeFile f(epgDataFileName); if (f.Open()) { Dump(f); f.Close(); } else LOG_ERROR; lastDump = now; } } void cSchedules::ResetVersions(void) { cSchedulesLock SchedulesLock(true); cSchedules *s = (cSchedules *)Schedules(SchedulesLock); if (s) { for (cSchedule *Schedule = s->First(); Schedule; Schedule = s->Next(Schedule)) Schedule->ResetVersions(); } } bool cSchedules::ClearAll(void) { cSchedulesLock SchedulesLock(true, 1000); cSchedules *s = (cSchedules *)Schedules(SchedulesLock); if (s) { for (cTimer *Timer = Timers.First(); Timer; Timer = Timers.Next(Timer)) Timer->SetEvent(NULL); for (cSchedule *Schedule = s->First(); Schedule; Schedule = s->Next(Schedule)) Schedule->Cleanup(INT_MAX); return true; } return false; } bool cSchedules::Dump(FILE *f, const char *Prefix, eDumpMode DumpMode, time_t AtTime) { cSchedulesLock SchedulesLock; cSchedules *s = (cSchedules *)Schedules(SchedulesLock); if (s) { for (cSchedule *p = s->First(); p; p = s->Next(p)) p->Dump(f, Prefix, DumpMode, AtTime); return true; } return false; } bool cSchedules::Read(FILE *f) { cSchedulesLock SchedulesLock(true, 1000); cSchedules *s = (cSchedules *)Schedules(SchedulesLock); if (s) { bool OwnFile = f == NULL; if (OwnFile) { if (epgDataFileName && access(epgDataFileName, R_OK) == 0) { dsyslog("reading EPG data from %s", epgDataFileName); if ((f = fopen(epgDataFileName, "r")) == NULL) { LOG_ERROR; return false; } } else return false; } bool result = cSchedule::Read(f, s); if (OwnFile) fclose(f); if (result) { // Initialize the channels' schedule pointers, so that the first WhatsOn menu will come up faster: for (cChannel *Channel = Channels.First(); Channel; Channel = Channels.Next(Channel)) s->GetSchedule(Channel); } return result; } return false; } cSchedule *cSchedules::AddSchedule(tChannelID ChannelID) { ChannelID.ClrRid(); cSchedule *p = (cSchedule *)GetSchedule(ChannelID); if (!p) { p = new cSchedule(ChannelID); Add(p); cChannel *channel = Channels.GetByChannelID(ChannelID); if (channel) channel->schedule = p; } return p; } const cSchedule *cSchedules::GetSchedule(tChannelID ChannelID) const { ChannelID.ClrRid(); for (cSchedule *p = First(); p; p = Next(p)) { if (p->ChannelID() == ChannelID) return p; } return NULL; } const cSchedule *cSchedules::GetSchedule(const cChannel *Channel, bool AddIfMissing) const { // This is not very beautiful, but it dramatically speeds up the // "What's on now/next?" menus. static cSchedule DummySchedule(tChannelID::InvalidID); if (!Channel->schedule) Channel->schedule = GetSchedule(Channel->GetChannelID()); if (!Channel->schedule) Channel->schedule = &DummySchedule; if (Channel->schedule == &DummySchedule && AddIfMissing) { cSchedule *Schedule = new cSchedule(Channel->GetChannelID()); ((cSchedules *)this)->Add(Schedule); Channel->schedule = Schedule; } return Channel->schedule != &DummySchedule? Channel->schedule : NULL; }