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vdr/eit.c
Klaus Schmidinger 3df1b6d139 Version 1.7.25 
Original announce message:
VDR developer version 1.7.25 is now available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-1.7.25.tar.bz2

A 'diff' against the previous version is available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-1.7.24-1.7.25.diff

MD5 checksums:

a3fd482a3dd8027706d4f32a88c6bd13  vdr-1.7.25.tar.bz2
f34adcdc0cdab378431d8946872d6b59  vdr-1.7.24-1.7.25.diff

WARNING:
========

This is a developer version. Even though I use it in my productive
environment. I strongly recommend that you only use it under controlled
conditions and for testing and debugging.

From the HISTORY file:
- The fps value for channels where it differs from the default is now set correctly
  when pausing live video.
- Increased the average character estimate for calculating tab positions in skins,
  to better suit wide fonts (reported by Rudi Hofer).
- Fixed getting the subsystem ids of DVB devices in case they have been rearranged
  via udev rules.
- Added several cTimer::Set...() functions (suggested by Alexander Rieger).
- Changed the return value of cTimer::SetFile() to 'void'.
- Revoked "Fixed a possible deadlock in time shift mode" because it caused trouble with
  output on vdr-xine and dxr3, and also short glitches when replaying on any output
  device.
- Updated the Estonian OSD texts (thanks to Arthur Konovalov).
- Updated the Finnish OSD texts (thanks to Rolf Ahrenberg).
- Fixed handling subtitle color palettes on channels where subtitles appear
  "word by word" (thanks to Rolf Ahrenberg).
- Fixed upscaling cBitmaps with anti-aliasing (thanks to Rolf Ahrenberg for reporting
  a problem with color palettes in subtitles).
- Fixed getting the video aspect ratio for scaling subtitles.
- Removed the "PrimaryLimit". Old "full featured" DVB cards can be run with the
  --outputonly option to avoid problems with recording high bandwidth channels.
  Besides, with HDTV becoming ever more popular those cards are pretty much obsolete
  by now (the TT S2-6400 has no problems recording and replaying high bandwidth
  channels simultaneously). And, last but not least, people using software players
  won't notice this change, anyway.
- Since cReceivers can have priorities between -99 and 99, the priority
  for an unused device has been changed from -1 to -100.
- If the first event in a schedule has a table id of 0x00, any incoming EIT data for
  that schedule from the DVB stream will be completely ignored. This way an external
  EPG source can fill the schedules with EPG data that will not be messed up with
  that from the DVB data stream. Note, though, that this means VDR can not do VPS
  controlled recordings with such events!
- Added some typecasts to silence gcc compiler warnings (thanks to Rolf Ahrenberg).
- Fixed handling overlapping timers in case a VPS timer with higher priority needs
  to interrupt a timer with lower priority.
- The code for the RCU remote control unit has been moved into a separate plugin
  named "rcu".
  The REMOTE=RCU option in the 'make' call for VDR is now obsolete.
  The command line option --rcu is now obsolete. Use -Prcu instead. If you have
  used --rcu with a device path, use -P"rcu -d<device>".
- Added support for automatically selecting subtitles when playing old PES
  recordings made with the subtitles plugin (thanks to Anssi Hannula).
- Revised priority handling to allow receivers with a priority that is lower than
  that of live viewing (with suggestions from Frank Schmirler):
  + An idle device (one that is not used for live viewing and has no receiver
    attached to it) now has priority IDLEPRIORITY (-100).
  + An unused CAM slot now has priority IDLEPRIORITY.
  + The default priority of a cReceiver is now MINPRIORITY (-99).
  + A device that is used only for live viewing (no matter whether it's in Transfer
    Mode or real live mode) now has priority TRANSFERPRIORITY (-1).
  + The function cDevice::Receiving() now returns true if there is any receiver
    attached to the device. Its boolean parameter has no meaning any more.
  + The default value for the Priority parameter of the function cDevice::ProvidesChannel()
    has been changed to IDLEPRIORITY.
- Added a Query parameter to cDevice::GetDevice(), so that devices can be queried
  without side effects when zapping.
- Replaced min(max()) calls with the new function constrain().
- Fixed handling OSD color button texts in case a menu item has texts of its own
  (reported by Rolf Ahrenberg). If a plugin creates derived cMenuEditItems that set
  color button texts, these should not set the texts directly by calling
  cSkinDisplay::Current()->SetButtons(), but rather call the new member function
  cMenuEditItem::SetHelp().
- Moved the call to cStatus::MsgChannelSwitch(this, 0) to the beginning of
  cDevice::SetChannel(), so that any receivers that have been attached to the
  device by plugins may be detached before the final call to GetDevice().
  This actually reverts "Only calling cStatus::MsgChannelSwitch() if a channel
  is actually going to be switched or has actually been switched successfully"
  which was made in version 1.1.10, so please report if this has any unwanted
  side effects.
2012-03-10 23:52:09 +01:00

412 lines
18 KiB
C
Raw Blame History

/*
* eit.c: EIT section filter
*
* 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 <Robert.Schneider@web.de> and Rolf Hakenes <hakenes@hippomi.de>.
* Adapted to 'libsi' for VDR 1.3.0 by Marcel Wiesweg <marcel.wiesweg@gmx.de>.
*
* $Id: eit.c 2.13 2012/02/25 15:25:51 kls Exp $
*/
#include "eit.h"
#include "epg.h"
#include "i18n.h"
#include "libsi/section.h"
#include "libsi/descriptor.h"
#define VALID_TIME (31536000 * 2) // two years
// --- cEIT ------------------------------------------------------------------
class cEIT : public SI::EIT {
public:
cEIT(cSchedules *Schedules, int Source, u_char Tid, const u_char *Data, bool OnlyRunningStatus = false);
};
cEIT::cEIT(cSchedules *Schedules, int Source, u_char Tid, const u_char *Data, bool OnlyRunningStatus)
:SI::EIT(Data, false)
{
if (!CheckCRCAndParse())
return;
tChannelID channelID(Source, getOriginalNetworkId(), getTransportStreamId(), getServiceId());
cChannel *channel = Channels.GetByChannelID(channelID, true);
if (!channel)
return; // only collect data for known channels
cSchedule *pSchedule = (cSchedule *)Schedules->GetSchedule(channel, true);
if (pSchedule) {
if (cEvent *Event = pSchedule->Events()->First()) {
if (Event->TableID() == 0x00)
return; // never touch schedules with events from external sources
}
}
else
return;
bool Empty = true;
bool Modified = false;
bool HasExternalData = false;
time_t SegmentStart = 0;
time_t SegmentEnd = 0;
time_t Now = time(NULL);
struct tm tm_r;
struct tm t = *localtime_r(&Now, &tm_r); // this initializes the time zone in 't'
if (Now < VALID_TIME)
return; // we need the current time for handling PDC descriptors
SI::EIT::Event SiEitEvent;
for (SI::Loop::Iterator it; eventLoop.getNext(SiEitEvent, it); ) {
bool ExternalData = false;
time_t StartTime = SiEitEvent.getStartTime();
int Duration = SiEitEvent.getDuration();
// Drop bogus events - but keep NVOD reference events, where all bits of the start time field are set to 1, resulting in a negative number.
if (StartTime == 0 || StartTime > 0 && Duration == 0)
continue;
Empty = false;
if (!SegmentStart)
SegmentStart = StartTime;
SegmentEnd = StartTime + Duration;
cEvent *newEvent = NULL;
cEvent *rEvent = NULL;
cEvent *pEvent = (cEvent *)pSchedule->GetEvent(SiEitEvent.getEventId(), StartTime);
if (!pEvent) {
if (OnlyRunningStatus)
continue;
// If we don't have that event yet, we create a new one.
// Otherwise we copy the information into the existing event anyway, because the data might have changed.
pEvent = newEvent = new cEvent(SiEitEvent.getEventId());
if (!pEvent)
continue;
}
else {
// We have found an existing event, either through its event ID or its start time.
pEvent->SetSeen();
// If the existing event has a zero table ID it was defined externally and shall
// not be overwritten.
uchar TableID = pEvent->TableID();
if (TableID == 0x00) {
if (pEvent->Version() == getVersionNumber())
continue;
HasExternalData = ExternalData = true;
}
// If the new event has a higher table ID, let's skip it.
// The lower the table ID, the more "current" the information.
else if (Tid > TableID)
continue;
// If the new event comes from the same table and has the same version number
// as the existing one, let's skip it to avoid unnecessary work.
// Unfortunately some stations (like, e.g. "Premiere") broadcast their EPG data on several transponders (like
// the actual Premiere transponder and the Sat.1/Pro7 transponder), but use different version numbers on
// each of them :-( So if one DVB card is tuned to the Premiere transponder, while an other one is tuned
// to the Sat.1/Pro7 transponder, events will keep toggling because of the bogus version numbers.
else if (Tid == TableID && pEvent->Version() == getVersionNumber())
continue;
}
if (!ExternalData) {
pEvent->SetEventID(SiEitEvent.getEventId()); // unfortunately some stations use different event ids for the same event in different tables :-(
pEvent->SetTableID(Tid);
pEvent->SetStartTime(StartTime);
pEvent->SetDuration(Duration);
}
if (newEvent)
pSchedule->AddEvent(newEvent);
if (Tid == 0x4E) { // we trust only the present/following info on the actual TS
if (SiEitEvent.getRunningStatus() >= SI::RunningStatusNotRunning)
pSchedule->SetRunningStatus(pEvent, SiEitEvent.getRunningStatus(), channel);
}
if (OnlyRunningStatus)
continue; // do this before setting the version, so that the full update can be done later
pEvent->SetVersion(getVersionNumber());
int LanguagePreferenceShort = -1;
int LanguagePreferenceExt = -1;
bool UseExtendedEventDescriptor = false;
SI::Descriptor *d;
SI::ExtendedEventDescriptors *ExtendedEventDescriptors = NULL;
SI::ShortEventDescriptor *ShortEventDescriptor = NULL;
cLinkChannels *LinkChannels = NULL;
cComponents *Components = NULL;
for (SI::Loop::Iterator it2; (d = SiEitEvent.eventDescriptors.getNext(it2)); ) {
if (ExternalData && d->getDescriptorTag() != SI::ComponentDescriptorTag) {
delete d;
continue;
}
switch (d->getDescriptorTag()) {
case SI::ExtendedEventDescriptorTag: {
SI::ExtendedEventDescriptor *eed = (SI::ExtendedEventDescriptor *)d;
if (I18nIsPreferredLanguage(Setup.EPGLanguages, eed->languageCode, LanguagePreferenceExt) || !ExtendedEventDescriptors) {
delete ExtendedEventDescriptors;
ExtendedEventDescriptors = new SI::ExtendedEventDescriptors;
UseExtendedEventDescriptor = true;
}
if (UseExtendedEventDescriptor) {
ExtendedEventDescriptors->Add(eed);
d = NULL; // so that it is not deleted
}
if (eed->getDescriptorNumber() == eed->getLastDescriptorNumber())
UseExtendedEventDescriptor = false;
}
break;
case SI::ShortEventDescriptorTag: {
SI::ShortEventDescriptor *sed = (SI::ShortEventDescriptor *)d;
if (I18nIsPreferredLanguage(Setup.EPGLanguages, sed->languageCode, LanguagePreferenceShort) || !ShortEventDescriptor) {
delete ShortEventDescriptor;
ShortEventDescriptor = sed;
d = NULL; // so that it is not deleted
}
}
break;
case SI::ContentDescriptorTag: {
SI::ContentDescriptor *cd = (SI::ContentDescriptor *)d;
SI::ContentDescriptor::Nibble Nibble;
int NumContents = 0;
uchar Contents[MaxEventContents] = { 0 };
for (SI::Loop::Iterator it3; cd->nibbleLoop.getNext(Nibble, it3); ) {
if (NumContents < MaxEventContents) {
Contents[NumContents] = ((Nibble.getContentNibbleLevel1() & 0xF) << 4) | (Nibble.getContentNibbleLevel2() & 0xF);
NumContents++;
}
}
pEvent->SetContents(Contents);
}
break;
case SI::ParentalRatingDescriptorTag: {
int LanguagePreferenceRating = -1;
SI::ParentalRatingDescriptor *prd = (SI::ParentalRatingDescriptor *)d;
SI::ParentalRatingDescriptor::Rating Rating;
for (SI::Loop::Iterator it3; prd->ratingLoop.getNext(Rating, it3); ) {
if (I18nIsPreferredLanguage(Setup.EPGLanguages, Rating.languageCode, LanguagePreferenceRating)) {
int ParentalRating = (Rating.getRating() & 0xFF);
switch (ParentalRating) {
// values defined by the DVB standard (minimum age = rating + 3 years):
case 0x01 ... 0x0F: ParentalRating += 3; break;
// values defined by broadcaster CSAT (now why didn't they just use 0x07, 0x09 and 0x0D?):
case 0x11: ParentalRating = 10; break;
case 0x12: ParentalRating = 12; break;
case 0x13: ParentalRating = 16; break;
default: ParentalRating = 0;
}
pEvent->SetParentalRating(ParentalRating);
}
}
}
break;
case SI::PDCDescriptorTag: {
SI::PDCDescriptor *pd = (SI::PDCDescriptor *)d;
t.tm_isdst = -1; // makes sure mktime() will determine the correct DST setting
int month = t.tm_mon;
t.tm_mon = pd->getMonth() - 1;
t.tm_mday = pd->getDay();
t.tm_hour = pd->getHour();
t.tm_min = pd->getMinute();
t.tm_sec = 0;
if (month == 11 && t.tm_mon == 0) // current month is dec, but event is in jan
t.tm_year++;
else if (month == 0 && t.tm_mon == 11) // current month is jan, but event is in dec
t.tm_year--;
time_t vps = mktime(&t);
pEvent->SetVps(vps);
}
break;
case SI::TimeShiftedEventDescriptorTag: {
SI::TimeShiftedEventDescriptor *tsed = (SI::TimeShiftedEventDescriptor *)d;
cSchedule *rSchedule = (cSchedule *)Schedules->GetSchedule(tChannelID(Source, channel->Nid(), channel->Tid(), tsed->getReferenceServiceId()));
if (!rSchedule)
break;
rEvent = (cEvent *)rSchedule->GetEvent(tsed->getReferenceEventId());
if (!rEvent)
break;
pEvent->SetTitle(rEvent->Title());
pEvent->SetShortText(rEvent->ShortText());
pEvent->SetDescription(rEvent->Description());
}
break;
case SI::LinkageDescriptorTag: {
SI::LinkageDescriptor *ld = (SI::LinkageDescriptor *)d;
tChannelID linkID(Source, ld->getOriginalNetworkId(), ld->getTransportStreamId(), ld->getServiceId());
if (ld->getLinkageType() == 0xB0) { // Premiere World
bool hit = StartTime <= Now && Now < StartTime + Duration;
if (hit) {
char linkName[ld->privateData.getLength() + 1];
strn0cpy(linkName, (const char *)ld->privateData.getData(), sizeof(linkName));
// TODO is there a standard way to determine the character set of this string?
cChannel *link = Channels.GetByChannelID(linkID);
if (link != channel) { // only link to other channels, not the same one
//fprintf(stderr, "Linkage %s %4d %4d %5d %5d %5d %5d %02X '%s'\n", hit ? "*" : "", channel->Number(), link ? link->Number() : -1, SiEitEvent.getEventId(), ld->getOriginalNetworkId(), ld->getTransportStreamId(), ld->getServiceId(), ld->getLinkageType(), linkName);//XXX
if (link) {
if (Setup.UpdateChannels == 1 || Setup.UpdateChannels >= 3)
link->SetName(linkName, "", "");
}
else if (Setup.UpdateChannels >= 4) {
cChannel *transponder = channel;
if (channel->Tid() != ld->getTransportStreamId())
transponder = Channels.GetByTransponderID(linkID);
link = Channels.NewChannel(transponder, linkName, "", "", ld->getOriginalNetworkId(), ld->getTransportStreamId(), ld->getServiceId());
//XXX patFilter->Trigger();
}
if (link) {
if (!LinkChannels)
LinkChannels = new cLinkChannels;
LinkChannels->Add(new cLinkChannel(link));
}
}
else
channel->SetPortalName(linkName);
}
}
}
break;
case SI::ComponentDescriptorTag: {
SI::ComponentDescriptor *cd = (SI::ComponentDescriptor *)d;
uchar Stream = cd->getStreamContent();
uchar Type = cd->getComponentType();
if (1 <= Stream && Stream <= 6 && Type != 0) { // 1=MPEG2-video, 2=MPEG1-audio, 3=subtitles, 4=AC3-audio, 5=H.264-video, 6=HEAAC-audio
if (!Components)
Components = new cComponents;
char buffer[Utf8BufSize(256)];
Components->SetComponent(Components->NumComponents(), Stream, Type, I18nNormalizeLanguageCode(cd->languageCode), cd->description.getText(buffer, sizeof(buffer)));
}
}
break;
default: ;
}
delete d;
}
if (!rEvent) {
if (ShortEventDescriptor) {
char buffer[Utf8BufSize(256)];
pEvent->SetTitle(ShortEventDescriptor->name.getText(buffer, sizeof(buffer)));
pEvent->SetShortText(ShortEventDescriptor->text.getText(buffer, sizeof(buffer)));
}
else if (!HasExternalData) {
pEvent->SetTitle(NULL);
pEvent->SetShortText(NULL);
}
if (ExtendedEventDescriptors) {
char buffer[Utf8BufSize(ExtendedEventDescriptors->getMaximumTextLength(": ")) + 1];
pEvent->SetDescription(ExtendedEventDescriptors->getText(buffer, sizeof(buffer), ": "));
}
else if (!HasExternalData)
pEvent->SetDescription(NULL);
}
delete ExtendedEventDescriptors;
delete ShortEventDescriptor;
pEvent->SetComponents(Components);
if (!HasExternalData)
pEvent->FixEpgBugs();
if (LinkChannels)
channel->SetLinkChannels(LinkChannels);
Modified = true;
}
if (Tid == 0x4E) {
if (Empty && getSectionNumber() == 0)
// ETR 211: an empty entry in section 0 of table 0x4E means there is currently no event running
pSchedule->ClrRunningStatus(channel);
pSchedule->SetPresentSeen();
}
if (OnlyRunningStatus)
return;
if (Modified) {
pSchedule->Sort();
if (!HasExternalData)
pSchedule->DropOutdated(SegmentStart, SegmentEnd, Tid, getVersionNumber());
Schedules->SetModified(pSchedule);
}
}
// --- cTDT ------------------------------------------------------------------
class cTDT : public SI::TDT {
private:
static cMutex mutex;
static int lastDiff;
public:
cTDT(const u_char *Data);
};
cMutex cTDT::mutex;
int cTDT::lastDiff = 0;
cTDT::cTDT(const u_char *Data)
:SI::TDT(Data, false)
{
CheckParse();
time_t sattim = getTime();
time_t loctim = time(NULL);
int diff = abs(sattim - loctim);
if (diff > 2) {
mutex.Lock();
if (abs(diff - lastDiff) < 3) {
if (stime(&sattim) == 0)
isyslog("system time changed from %s (%ld) to %s (%ld)", *TimeToString(loctim), loctim, *TimeToString(sattim), sattim);
else
esyslog("ERROR while setting system time: %m");
}
lastDiff = diff;
mutex.Unlock();
}
}
// --- cEitFilter ------------------------------------------------------------
time_t cEitFilter::disableUntil = 0;
cEitFilter::cEitFilter(void)
{
Set(0x12, 0x40, 0xC0); // event info now&next actual/other TS (0x4E/0x4F), future actual/other TS (0x5X/0x6X)
if (Setup.SetSystemTime && Setup.TimeTransponder)
Set(0x14, 0x70); // TDT
}
void cEitFilter::SetDisableUntil(time_t Time)
{
disableUntil = Time;
}
void cEitFilter::Process(u_short Pid, u_char Tid, const u_char *Data, int Length)
{
if (disableUntil) {
if (time(NULL) > disableUntil)
disableUntil = 0;
else
return;
}
switch (Pid) {
case 0x12: {
if (Tid >= 0x4E && Tid <= 0x6F) {
cSchedulesLock SchedulesLock(true, 10);
cSchedules *Schedules = (cSchedules *)cSchedules::Schedules(SchedulesLock);
if (Schedules)
cEIT EIT(Schedules, Source(), Tid, Data);
else {
// If we don't get a write lock, let's at least get a read lock, so
// that we can set the running status and 'seen' timestamp (well, actually
// with a read lock we shouldn't be doing that, but it's only integers that
// get changed, so it should be ok)
cSchedulesLock SchedulesLock;
cSchedules *Schedules = (cSchedules *)cSchedules::Schedules(SchedulesLock);
if (Schedules)
cEIT EIT(Schedules, Source(), Tid, Data, true);
}
}
}
break;
case 0x14: {
if (Setup.SetSystemTime && Setup.TimeTransponder && ISTRANSPONDER(Transponder(), Setup.TimeTransponder))
cTDT TDT(Data);
}
break;
default: ;
}
}
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