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vdr/device.c
Klaus Schmidinger 5619c0602b Version 1.7.17 
- Updated the Estonian OSD texts (thanks to Arthur Konovalov).
- Fixed following symbolic links in RemoveFileOrDir() (cont'd) (thanks to
  Steffen Barszus).
- Changed the description of cDevice::GetSTC() to make it mandatory for devices
  that can replay.
- Removed the check for positive STC values from cDvbSubtitleConverter::Action().
- Added cString::operator=(const char *String) (suggested by Antti Seppälä).
- Some spelling fixes (thanks to Ville Skyttä).
- Passing package name and version to xgettext (thanks to Ville Skyttä).
- Made 'dist' target dependent on up to date *.po (thanks to Ville Skyttä).
- Added Language and fixed Language-Team header of *.po (thanks to Ville Skyttä).
- Updated the Lithuanian OSD texts (thanks to Valdemaras Pipiras).
- Fixed detecting frames on channels that broadcast with 50 or 60 fps.
  This avoids artifacts during fast forward/rewind when replaying recordings from such
  channels. To fix the index of existing recordings from such channels, just delete the
  'index' file of the recording and VDR will generate a new one the next time you play it.
  You should also change the line "F 25" to "F 50" in the 'info' file of that recording.
- Added support for "registration descriptor" to 'libsi' and using it in pat.c (thanks
  to Rolf Ahrenberg).
- Fixed unjustified log entries about changed channel pids (reported by Derek Kelly).
- Added an include of VDR's 'Make.global' to libsi's Makefile (thanks to Rolf
  Ahrenberg).
- Removed displaying the "contents" information from the "Classic VDR" and
  "ST:TNG Panels" skins, because it is often wrong and nothing but irritating.
- Added typecasts to avoid gcc 4.5 warnings in switch statements on eKeys
  variables where additional 'k_...' flags are used.
- Fixed inclusion of <stdarg.h> (thanks to Henning Heinold).
- Changed "frame duration" to "frame rate" in vdr.5 (reported by Tobias Grimm).
- Removing a cRemote from the Remotes list in case its initialization failed (thanks
  to Dominik Strasser).
- Added LDFLAGS to the linker calls in the Makefiles (thanks to Joerg Bornkessel and
  Paul Menzel).
- Now updating the 'frames per second' data in the list of recordings when a new
  recording is started that has a frame rate other than the default.
- The include path to the freetype2 header files is now retrieved via a call to
  'pkg-config --cflags freetype2' (suggested by Andreas Oberritter).
- The OSD now has full TrueColor support. There can be several "pixmaps" that can
  be overlayed with alpha blending. All existing skins should work out of the box
  with the TrueColor OSD - the only exception being cOsd::GetBitmap(). Since the
  TrueColor OSD doesn't use bitmaps, this function will return a dummy bitmap, which
  may not be what the plugin expects. As long as this bitmap is only used for setting
  the palette, there is no problem. However, any other operations on this bitmap will
  have no effect. See the description of the cPixmap functions in osd.h for details
  about the new functionalities.
  The "ST:TNG Panels" skin has been enhanced to automatically use the TrueColor OSD
  if available.
  The "osddemo" plugin has been extended to show some of the possibilities of the
  TrueColor OSD if it is run on a system that actually provides TrueColor support.
  Thanks to Reinhard Nissl for some valuable input, help with debugging, and an
  implementation of the AlphaBlend() function.
- Updated the Slovakian language texts (thanks to Milan Hrala).
- Added Serbian language texts (thanks to Milan Cvijanovic).
- Fixed reallocating memory in the "pictures" plugin (reported by Paul Menzel, with
  input from Oliver Endriss).
- Fixed reallocating memory in cTsToPes::PutTs() (suggested by Oliver Endriss).
- Now checking the result of all realloc() calls.
- Fixed setting up the 'Recordings' menu in case there are several recordings
  with exactly the same name (reported by Marcus Hilbrich).
- Setting the audio type of language descriptors to 0x00 in the PAT/PMT generator
  (thanks to Anssi Hannula).
- Changed the compiler optimization flag to -O3, which gives quite a performance
  boost in the AlphaBlend() function.
- While replaying, the editing marks are now updated every 10 seconds (based on a
  patch from Manuel Reimer).
- Now reducing the thread and I/O priority cCuttingThread::Action() to make the
  foreground process more responsive (suggested by Frank Neumann).
- Removed checking for minimum line length of 21 characters in the LIRC receiver code
  (reported by Gerald Dachs).
- Updated the Romanian OSD texts (thanks to Lucian Muresan).
- Now storing the original display size when handling DVB subtitles (thanks to
  Reinhard Nissl).
- The original display size of subtitles is now used to scale them properly when
  displaying them on an HD OSD.
2011-03-19 19:02:09 +01:00

1705 lines
51 KiB
C
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/*
* device.c: The basic device interface
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: device.c 2.38 2011/02/25 15:12:03 kls Exp $
*/
#include "device.h"
#include <errno.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include "audio.h"
#include "channels.h"
#include "i18n.h"
#include "player.h"
#include "receiver.h"
#include "status.h"
#include "transfer.h"
// --- cLiveSubtitle ---------------------------------------------------------
class cLiveSubtitle : public cReceiver {
protected:
virtual void Receive(uchar *Data, int Length);
public:
cLiveSubtitle(int SPid);
virtual ~cLiveSubtitle();
};
cLiveSubtitle::cLiveSubtitle(int SPid)
{
AddPid(SPid);
}
cLiveSubtitle::~cLiveSubtitle()
{
cReceiver::Detach();
}
void cLiveSubtitle::Receive(uchar *Data, int Length)
{
cDevice::PrimaryDevice()->PlayTs(Data, Length);
}
// --- cDeviceHook -----------------------------------------------------------
cDeviceHook::cDeviceHook(void)
{
cDevice::deviceHooks.Add(this);
}
bool cDeviceHook::DeviceProvidesTransponder(const cDevice *Device, const cChannel *Channel) const
{
return true;
}
// --- cDevice ---------------------------------------------------------------
// The default priority for non-primary devices:
#define DEFAULTPRIORITY -1
// The minimum number of unknown PS1 packets to consider this a "pre 1.3.19 private stream":
#define MIN_PRE_1_3_19_PRIVATESTREAM 10
int cDevice::numDevices = 0;
int cDevice::useDevice = 0;
int cDevice::nextCardIndex = 0;
int cDevice::currentChannel = 1;
cDevice *cDevice::device[MAXDEVICES] = { NULL };
cDevice *cDevice::primaryDevice = NULL;
cDevice *cDevice::avoidDevice = NULL;
cList<cDeviceHook> cDevice::deviceHooks;
cDevice::cDevice(void)
:patPmtParser(true)
{
cardIndex = nextCardIndex++;
dsyslog("new device number %d", CardIndex() + 1);
SetDescription("receiver on device %d", CardIndex() + 1);
SetVideoFormat(Setup.VideoFormat);
mute = false;
volume = Setup.CurrentVolume;
sectionHandler = NULL;
eitFilter = NULL;
patFilter = NULL;
sdtFilter = NULL;
nitFilter = NULL;
camSlot = NULL;
startScrambleDetection = 0;
player = NULL;
isPlayingVideo = false;
ClrAvailableTracks();
currentAudioTrack = ttNone;
currentAudioTrackMissingCount = 0;
currentSubtitleTrack = ttNone;
liveSubtitle = NULL;
dvbSubtitleConverter = NULL;
autoSelectPreferredSubtitleLanguage = true;
for (int i = 0; i < MAXRECEIVERS; i++)
receiver[i] = NULL;
if (numDevices < MAXDEVICES)
device[numDevices++] = this;
else
esyslog("ERROR: too many devices!");
}
cDevice::~cDevice()
{
Detach(player);
DetachAllReceivers();
delete liveSubtitle;
delete dvbSubtitleConverter;
}
bool cDevice::WaitForAllDevicesReady(int Timeout)
{
for (time_t t0 = time(NULL); time(NULL) - t0 < Timeout; ) {
bool ready = true;
for (int i = 0; i < numDevices; i++) {
if (device[i] && !device[i]->Ready()) {
ready = false;
cCondWait::SleepMs(100);
}
}
if (ready)
return true;
}
return false;
}
void cDevice::SetUseDevice(int n)
{
if (n < MAXDEVICES)
useDevice |= (1 << n);
}
int cDevice::NextCardIndex(int n)
{
if (n > 0) {
nextCardIndex += n;
if (nextCardIndex >= MAXDEVICES)
esyslog("ERROR: nextCardIndex too big (%d)", nextCardIndex);
}
else if (n < 0)
esyslog("ERROR: invalid value in nextCardIndex(%d)", n);
return nextCardIndex;
}
int cDevice::DeviceNumber(void) const
{
for (int i = 0; i < numDevices; i++) {
if (device[i] == this)
return i;
}
return -1;
}
void cDevice::MakePrimaryDevice(bool On)
{
if (!On) {
DELETENULL(liveSubtitle);
DELETENULL(dvbSubtitleConverter);
}
}
bool cDevice::SetPrimaryDevice(int n)
{
n--;
if (0 <= n && n < numDevices && device[n]) {
isyslog("setting primary device to %d", n + 1);
if (primaryDevice)
primaryDevice->MakePrimaryDevice(false);
primaryDevice = device[n];
primaryDevice->MakePrimaryDevice(true);
primaryDevice->SetVideoFormat(Setup.VideoFormat);
primaryDevice->SetVolumeDevice(Setup.CurrentVolume);
return true;
}
esyslog("ERROR: invalid primary device number: %d", n + 1);
return false;
}
bool cDevice::HasDecoder(void) const
{
return false;
}
cSpuDecoder *cDevice::GetSpuDecoder(void)
{
return NULL;
}
cDevice *cDevice::ActualDevice(void)
{
cDevice *d = cTransferControl::ReceiverDevice();
if (!d)
d = PrimaryDevice();
return d;
}
cDevice *cDevice::GetDevice(int Index)
{
return (0 <= Index && Index < numDevices) ? device[Index] : NULL;
}
static int GetClippedNumProvidedSystems(int AvailableBits, cDevice *Device)
{
int MaxNumProvidedSystems = (1 << AvailableBits) - 1;
int NumProvidedSystems = Device->NumProvidedSystems();
if (NumProvidedSystems > MaxNumProvidedSystems) {
esyslog("ERROR: device %d supports %d modulation systems but cDevice::GetDevice() currently only supports %d delivery systems which should be fixed", Device->CardIndex() + 1, NumProvidedSystems, MaxNumProvidedSystems);
NumProvidedSystems = MaxNumProvidedSystems;
}
else if (NumProvidedSystems <= 0) {
esyslog("ERROR: device %d reported an invalid number (%d) of supported delivery systems - assuming 1", Device->CardIndex() + 1, NumProvidedSystems);
NumProvidedSystems = 1;
}
return NumProvidedSystems;
}
cDevice *cDevice::GetDevice(const cChannel *Channel, int Priority, bool LiveView)
{
cDevice *AvoidDevice = avoidDevice;
avoidDevice = NULL;
// Collect the current priorities of all CAM slots that can decrypt the channel:
int NumCamSlots = CamSlots.Count();
int SlotPriority[NumCamSlots];
int NumUsableSlots = 0;
if (Channel->Ca() >= CA_ENCRYPTED_MIN) {
for (cCamSlot *CamSlot = CamSlots.First(); CamSlot; CamSlot = CamSlots.Next(CamSlot)) {
SlotPriority[CamSlot->Index()] = MAXPRIORITY + 1; // assumes it can't be used
if (CamSlot->ModuleStatus() == msReady) {
if (CamSlot->ProvidesCa(Channel->Caids())) {
if (!ChannelCamRelations.CamChecked(Channel->GetChannelID(), CamSlot->SlotNumber())) {
SlotPriority[CamSlot->Index()] = CamSlot->Priority();
NumUsableSlots++;
}
}
}
}
if (!NumUsableSlots)
return NULL; // no CAM is able to decrypt this channel
}
bool NeedsDetachReceivers = false;
cDevice *d = NULL;
cCamSlot *s = NULL;
uint32_t Impact = 0xFFFFFFFF; // we're looking for a device with the least impact
for (int j = 0; j < NumCamSlots || !NumUsableSlots; j++) {
if (NumUsableSlots && SlotPriority[j] > MAXPRIORITY)
continue; // there is no CAM available in this slot
for (int i = 0; i < numDevices; i++) {
if (device[i] == AvoidDevice)
continue; // this device shall be temporarily avoided
if (Channel->Ca() && Channel->Ca() <= CA_DVB_MAX && Channel->Ca() != device[i]->CardIndex() + 1)
continue; // a specific card was requested, but not this one
if (NumUsableSlots && !CamSlots.Get(j)->Assign(device[i], true))
continue; // CAM slot can't be used with this device
bool ndr;
if (device[i]->ProvidesChannel(Channel, Priority, &ndr)) { // this device is basicly able to do the job
if (NumUsableSlots && device[i]->CamSlot() && device[i]->CamSlot() != CamSlots.Get(j))
ndr = true; // using a different CAM slot requires detaching receivers
// Put together an integer number that reflects the "impact" using
// this device would have on the overall system. Each condition is represented
// by one bit in the number (or several bits, if the condition is actually
// a numeric value). The sequence in which the conditions are listed corresponds
// to their individual severity, where the one listed first will make the most
// difference, because it results in the most significant bit of the result.
uint32_t imp = 0;
imp <<= 1; imp |= LiveView ? !device[i]->IsPrimaryDevice() || ndr : 0; // prefer the primary device for live viewing if we don't need to detach existing receivers
imp <<= 1; imp |= !device[i]->Receiving() && (device[i] != cTransferControl::ReceiverDevice() || device[i]->IsPrimaryDevice()) || ndr; // use receiving devices if we don't need to detach existing receivers, but avoid primary device in local transfer mode
imp <<= 1; imp |= device[i]->Receiving(); // avoid devices that are receiving
imp <<= 4; imp |= GetClippedNumProvidedSystems(4, device[i]) - 1; // avoid cards which support multiple delivery systems
imp <<= 1; imp |= device[i] == cTransferControl::ReceiverDevice(); // avoid the Transfer Mode receiver device
imp <<= 8; imp |= min(max(device[i]->Priority() + MAXPRIORITY, 0), 0xFF); // use the device with the lowest priority (+MAXPRIORITY to assure that values -99..99 can be used)
imp <<= 8; imp |= min(max((NumUsableSlots ? SlotPriority[j] : 0) + MAXPRIORITY, 0), 0xFF); // use the CAM slot with the lowest priority (+MAXPRIORITY to assure that values -99..99 can be used)
imp <<= 1; imp |= ndr; // avoid devices if we need to detach existing receivers
imp <<= 1; imp |= device[i]->IsPrimaryDevice(); // avoid the primary device
imp <<= 1; imp |= NumUsableSlots ? 0 : device[i]->HasCi(); // avoid cards with Common Interface for FTA channels
imp <<= 1; imp |= device[i]->HasDecoder(); // avoid full featured cards
imp <<= 1; imp |= NumUsableSlots ? !ChannelCamRelations.CamDecrypt(Channel->GetChannelID(), j + 1) : 0; // prefer CAMs that are known to decrypt this channel
if (imp < Impact) {
// This device has less impact than any previous one, so we take it.
Impact = imp;
d = device[i];
NeedsDetachReceivers = ndr;
if (NumUsableSlots)
s = CamSlots.Get(j);
}
}
}
if (!NumUsableSlots)
break; // no CAM necessary, so just one loop over the devices
}
if (d) {
if (NeedsDetachReceivers)
d->DetachAllReceivers();
if (s) {
if (s->Device() != d) {
if (s->Device())
s->Device()->DetachAllReceivers();
if (d->CamSlot())
d->CamSlot()->Assign(NULL);
s->Assign(d);
}
}
else if (d->CamSlot() && !d->CamSlot()->IsDecrypting())
d->CamSlot()->Assign(NULL);
}
return d;
}
bool cDevice::HasCi(void)
{
return false;
}
void cDevice::SetCamSlot(cCamSlot *CamSlot)
{
camSlot = CamSlot;
}
void cDevice::Shutdown(void)
{
primaryDevice = NULL;
for (int i = 0; i < numDevices; i++) {
delete device[i];
device[i] = NULL;
}
}
uchar *cDevice::GrabImage(int &Size, bool Jpeg, int Quality, int SizeX, int SizeY)
{
return NULL;
}
bool cDevice::GrabImageFile(const char *FileName, bool Jpeg, int Quality, int SizeX, int SizeY)
{
int result = 0;
int fd = open(FileName, O_WRONLY | O_CREAT | O_NOFOLLOW | O_TRUNC, DEFFILEMODE);
if (fd >= 0) {
int ImageSize;
uchar *Image = GrabImage(ImageSize, Jpeg, Quality, SizeX, SizeY);
if (Image) {
if (safe_write(fd, Image, ImageSize) == ImageSize)
isyslog("grabbed image to %s", FileName);
else {
LOG_ERROR_STR(FileName);
result |= 1;
}
free(Image);
}
else
result |= 1;
close(fd);
}
else {
LOG_ERROR_STR(FileName);
result |= 1;
}
return result == 0;
}
void cDevice::SetVideoDisplayFormat(eVideoDisplayFormat VideoDisplayFormat)
{
cSpuDecoder *spuDecoder = GetSpuDecoder();
if (spuDecoder) {
if (Setup.VideoFormat)
spuDecoder->setScaleMode(cSpuDecoder::eSpuNormal);
else {
switch (VideoDisplayFormat) {
case vdfPanAndScan:
spuDecoder->setScaleMode(cSpuDecoder::eSpuPanAndScan);
break;
case vdfLetterBox:
spuDecoder->setScaleMode(cSpuDecoder::eSpuLetterBox);
break;
case vdfCenterCutOut:
spuDecoder->setScaleMode(cSpuDecoder::eSpuNormal);
break;
default: esyslog("ERROR: invalid value for VideoDisplayFormat '%d'", VideoDisplayFormat);
}
}
}
}
void cDevice::SetVideoFormat(bool VideoFormat16_9)
{
}
eVideoSystem cDevice::GetVideoSystem(void)
{
return vsPAL;
}
void cDevice::GetVideoSize(int &Width, int &Height, double &VideoAspect)
{
Width = 0;
Height = 0;
VideoAspect = 1.0;
}
void cDevice::GetOsdSize(int &Width, int &Height, double &PixelAspect)
{
Width = 720;
Height = 480;
PixelAspect = 1.0;
}
//#define PRINTPIDS(s) { char b[500]; char *q = b; q += sprintf(q, "%d %s ", CardIndex(), s); for (int i = 0; i < MAXPIDHANDLES; i++) q += sprintf(q, " %s%4d %d", i == ptOther ? "* " : "", pidHandles[i].pid, pidHandles[i].used); dsyslog("%s", b); }
#define PRINTPIDS(s)
bool cDevice::HasPid(int Pid) const
{
for (int i = 0; i < MAXPIDHANDLES; i++) {
if (pidHandles[i].pid == Pid)
return true;
}
return false;
}
bool cDevice::AddPid(int Pid, ePidType PidType, int StreamType)
{
if (Pid || PidType == ptPcr) {
int n = -1;
int a = -1;
if (PidType != ptPcr) { // PPID always has to be explicit
for (int i = 0; i < MAXPIDHANDLES; i++) {
if (i != ptPcr) {
if (pidHandles[i].pid == Pid)
n = i;
else if (a < 0 && i >= ptOther && !pidHandles[i].used)
a = i;
}
}
}
if (n >= 0) {
// The Pid is already in use
if (++pidHandles[n].used == 2 && n <= ptTeletext) {
// It's a special PID that may have to be switched into "tap" mode
PRINTPIDS("A");
if (!SetPid(&pidHandles[n], n, true)) {
esyslog("ERROR: can't set PID %d on device %d", Pid, CardIndex() + 1);
if (PidType <= ptTeletext)
DetachAll(Pid);
DelPid(Pid, PidType);
return false;
}
if (camSlot)
camSlot->SetPid(Pid, true);
}
PRINTPIDS("a");
return true;
}
else if (PidType < ptOther) {
// The Pid is not yet in use and it is a special one
n = PidType;
}
else if (a >= 0) {
// The Pid is not yet in use and we have a free slot
n = a;
}
else {
esyslog("ERROR: no free slot for PID %d on device %d", Pid, CardIndex() + 1);
return false;
}
if (n >= 0) {
pidHandles[n].pid = Pid;
pidHandles[n].streamType = StreamType;
pidHandles[n].used = 1;
PRINTPIDS("C");
if (!SetPid(&pidHandles[n], n, true)) {
esyslog("ERROR: can't set PID %d on device %d", Pid, CardIndex() + 1);
if (PidType <= ptTeletext)
DetachAll(Pid);
DelPid(Pid, PidType);
return false;
}
if (camSlot)
camSlot->SetPid(Pid, true);
}
}
return true;
}
void cDevice::DelPid(int Pid, ePidType PidType)
{
if (Pid || PidType == ptPcr) {
int n = -1;
if (PidType == ptPcr)
n = PidType; // PPID always has to be explicit
else {
for (int i = 0; i < MAXPIDHANDLES; i++) {
if (pidHandles[i].pid == Pid) {
n = i;
break;
}
}
}
if (n >= 0 && pidHandles[n].used) {
PRINTPIDS("D");
if (--pidHandles[n].used < 2) {
SetPid(&pidHandles[n], n, false);
if (pidHandles[n].used == 0) {
pidHandles[n].handle = -1;
pidHandles[n].pid = 0;
if (camSlot)
camSlot->SetPid(Pid, false);
}
}
PRINTPIDS("E");
}
}
}
bool cDevice::SetPid(cPidHandle *Handle, int Type, bool On)
{
return false;
}
void cDevice::StartSectionHandler(void)
{
if (!sectionHandler) {
sectionHandler = new cSectionHandler(this);
AttachFilter(eitFilter = new cEitFilter);
AttachFilter(patFilter = new cPatFilter);
AttachFilter(sdtFilter = new cSdtFilter(patFilter));
AttachFilter(nitFilter = new cNitFilter);
}
}
void cDevice::StopSectionHandler(void)
{
if (sectionHandler) {
delete nitFilter;
delete sdtFilter;
delete patFilter;
delete eitFilter;
delete sectionHandler;
nitFilter = NULL;
sdtFilter = NULL;
patFilter = NULL;
eitFilter = NULL;
sectionHandler = NULL;
}
}
int cDevice::OpenFilter(u_short Pid, u_char Tid, u_char Mask)
{
return -1;
}
void cDevice::CloseFilter(int Handle)
{
close(Handle);
}
void cDevice::AttachFilter(cFilter *Filter)
{
if (sectionHandler)
sectionHandler->Attach(Filter);
}
void cDevice::Detach(cFilter *Filter)
{
if (sectionHandler)
sectionHandler->Detach(Filter);
}
bool cDevice::ProvidesSource(int Source) const
{
return false;
}
bool cDevice::DeviceHooksProvidesTransponder(const cChannel *Channel) const
{
cDeviceHook *Hook = deviceHooks.First();
while (Hook) {
if (!Hook->DeviceProvidesTransponder(this, Channel))
return false;
Hook = deviceHooks.Next(Hook);
}
return true;
}
bool cDevice::ProvidesTransponder(const cChannel *Channel) const
{
return false;
}
bool cDevice::ProvidesTransponderExclusively(const cChannel *Channel) const
{
for (int i = 0; i < numDevices; i++) {
if (device[i] && device[i] != this && device[i]->ProvidesTransponder(Channel))
return false;
}
return true;
}
bool cDevice::ProvidesChannel(const cChannel *Channel, int Priority, bool *NeedsDetachReceivers) const
{
return false;
}
int cDevice::NumProvidedSystems(void) const
{
return 0;
}
const cChannel *cDevice::GetCurrentlyTunedTransponder(void) const
{
return NULL;
}
bool cDevice::IsTunedToTransponder(const cChannel *Channel)
{
return false;
}
bool cDevice::MaySwitchTransponder(void)
{
return !Receiving(true) && !(pidHandles[ptAudio].pid || pidHandles[ptVideo].pid || pidHandles[ptDolby].pid);
}
bool cDevice::SwitchChannel(const cChannel *Channel, bool LiveView)
{
if (LiveView) {
isyslog("switching to channel %d", Channel->Number());
cControl::Shutdown(); // prevents old channel from being shown too long if GetDevice() takes longer
}
for (int i = 3; i--;) {
switch (SetChannel(Channel, LiveView)) {
case scrOk: return true;
case scrNotAvailable: Skins.Message(mtInfo, tr("Channel not available!"));
return false;
case scrNoTransfer: Skins.Message(mtError, tr("Can't start Transfer Mode!"));
return false;
case scrFailed: break; // loop will retry
default: esyslog("ERROR: invalid return value from SetChannel");
}
esyslog("retrying");
}
return false;
}
bool cDevice::SwitchChannel(int Direction)
{
bool result = false;
Direction = sgn(Direction);
if (Direction) {
cControl::Shutdown(); // prevents old channel from being shown too long if GetDevice() takes longer
int n = CurrentChannel() + Direction;
int first = n;
cChannel *channel;
while ((channel = Channels.GetByNumber(n, Direction)) != NULL) {
// try only channels which are currently available
if (GetDevice(channel, 0, true))
break;
n = channel->Number() + Direction;
}
if (channel) {
int d = n - first;
if (abs(d) == 1)
dsyslog("skipped channel %d", first);
else if (d)
dsyslog("skipped channels %d..%d", first, n - sgn(d));
if (PrimaryDevice()->SwitchChannel(channel, true))
result = true;
}
else if (n != first)
Skins.Message(mtError, tr("Channel not available!"));
}
return result;
}
eSetChannelResult cDevice::SetChannel(const cChannel *Channel, bool LiveView)
{
if (LiveView) {
StopReplay();
DELETENULL(liveSubtitle);
DELETENULL(dvbSubtitleConverter);
}
cDevice *Device = (LiveView && IsPrimaryDevice()) ? GetDevice(Channel, 0, LiveView) : this;
bool NeedsTransferMode = Device != this;
eSetChannelResult Result = scrOk;
// If this DVB card can't receive this channel, let's see if we can
// use the card that actually can receive it and transfer data from there:
if (NeedsTransferMode) {
if (Device && CanReplay()) {
cStatus::MsgChannelSwitch(this, 0); // only report status if we are actually going to switch the channel
if (Device->SetChannel(Channel, false) == scrOk) // calling SetChannel() directly, not SwitchChannel()!
cControl::Launch(new cTransferControl(Device, Channel));
else
Result = scrNoTransfer;
}
else
Result = scrNotAvailable;
}
else {
Channels.Lock(false);
cStatus::MsgChannelSwitch(this, 0); // only report status if we are actually going to switch the channel
// Stop section handling:
if (sectionHandler) {
sectionHandler->SetStatus(false);
sectionHandler->SetChannel(NULL);
}
// Tell the camSlot about the channel switch and add all PIDs of this
// channel to it, for possible later decryption:
if (camSlot)
camSlot->AddChannel(Channel);
if (SetChannelDevice(Channel, LiveView)) {
// Start section handling:
if (sectionHandler) {
sectionHandler->SetChannel(Channel);
sectionHandler->SetStatus(true);
}
// Start decrypting any PIDs that might have been set in SetChannelDevice():
if (camSlot)
camSlot->StartDecrypting();
}
else
Result = scrFailed;
Channels.Unlock();
}
if (Result == scrOk) {
if (LiveView && IsPrimaryDevice()) {
currentChannel = Channel->Number();
// Set the available audio tracks:
ClrAvailableTracks();
for (int i = 0; i < MAXAPIDS; i++)
SetAvailableTrack(ttAudio, i, Channel->Apid(i), Channel->Alang(i));
if (Setup.UseDolbyDigital) {
for (int i = 0; i < MAXDPIDS; i++)
SetAvailableTrack(ttDolby, i, Channel->Dpid(i), Channel->Dlang(i));
}
for (int i = 0; i < MAXSPIDS; i++)
SetAvailableTrack(ttSubtitle, i, Channel->Spid(i), Channel->Slang(i));
if (!NeedsTransferMode)
EnsureAudioTrack(true);
EnsureSubtitleTrack();
}
cStatus::MsgChannelSwitch(this, Channel->Number()); // only report status if channel switch successfull
}
return Result;
}
void cDevice::ForceTransferMode(void)
{
if (!cTransferControl::ReceiverDevice()) {
cChannel *Channel = Channels.GetByNumber(CurrentChannel());
if (Channel)
SetChannelDevice(Channel, false); // this implicitly starts Transfer Mode
}
}
bool cDevice::SetChannelDevice(const cChannel *Channel, bool LiveView)
{
return false;
}
bool cDevice::HasLock(int TimeoutMs)
{
return true;
}
bool cDevice::HasProgramme(void)
{
return Replaying() || pidHandles[ptAudio].pid || pidHandles[ptVideo].pid;
}
int cDevice::GetAudioChannelDevice(void)
{
return 0;
}
void cDevice::SetAudioChannelDevice(int AudioChannel)
{
}
void cDevice::SetVolumeDevice(int Volume)
{
}
void cDevice::SetDigitalAudioDevice(bool On)
{
}
void cDevice::SetAudioTrackDevice(eTrackType Type)
{
}
void cDevice::SetSubtitleTrackDevice(eTrackType Type)
{
}
bool cDevice::ToggleMute(void)
{
int OldVolume = volume;
mute = !mute;
//XXX why is it necessary to use different sequences???
if (mute) {
SetVolume(0, true);
Audios.MuteAudio(mute); // Mute external audio after analog audio
}
else {
Audios.MuteAudio(mute); // Enable external audio before analog audio
SetVolume(OldVolume, true);
}
volume = OldVolume;
return mute;
}
int cDevice::GetAudioChannel(void)
{
int c = GetAudioChannelDevice();
return (0 <= c && c <= 2) ? c : 0;
}
void cDevice::SetAudioChannel(int AudioChannel)
{
if (0 <= AudioChannel && AudioChannel <= 2)
SetAudioChannelDevice(AudioChannel);
}
void cDevice::SetVolume(int Volume, bool Absolute)
{
int OldVolume = volume;
volume = min(max(Absolute ? Volume : volume + Volume, 0), MAXVOLUME);
SetVolumeDevice(volume);
Absolute |= mute;
cStatus::MsgSetVolume(Absolute ? volume : volume - OldVolume, Absolute);
if (volume > 0) {
mute = false;
Audios.MuteAudio(mute);
}
}
void cDevice::ClrAvailableTracks(bool DescriptionsOnly, bool IdsOnly)
{
if (DescriptionsOnly) {
for (int i = ttNone; i < ttMaxTrackTypes; i++)
*availableTracks[i].description = 0;
}
else {
if (IdsOnly) {
for (int i = ttNone; i < ttMaxTrackTypes; i++)
availableTracks[i].id = 0;
}
else
memset(availableTracks, 0, sizeof(availableTracks));
pre_1_3_19_PrivateStream = 0;
SetAudioChannel(0); // fall back to stereo
currentAudioTrackMissingCount = 0;
currentAudioTrack = ttNone;
currentSubtitleTrack = ttNone;
}
}
bool cDevice::SetAvailableTrack(eTrackType Type, int Index, uint16_t Id, const char *Language, const char *Description)
{
eTrackType t = eTrackType(Type + Index);
if (Type == ttAudio && IS_AUDIO_TRACK(t) ||
Type == ttDolby && IS_DOLBY_TRACK(t) ||
Type == ttSubtitle && IS_SUBTITLE_TRACK(t)) {
if (Language)
strn0cpy(availableTracks[t].language, Language, sizeof(availableTracks[t].language));
if (Description)
Utf8Strn0Cpy(availableTracks[t].description, Description, sizeof(availableTracks[t].description));
if (Id) {
availableTracks[t].id = Id; // setting 'id' last to avoid the need for extensive locking
if (Type == ttAudio || Type == ttDolby) {
int numAudioTracks = NumAudioTracks();
if (!availableTracks[currentAudioTrack].id && numAudioTracks && currentAudioTrackMissingCount++ > numAudioTracks * 10)
EnsureAudioTrack();
else if (t == currentAudioTrack)
currentAudioTrackMissingCount = 0;
}
else if (Type == ttSubtitle && autoSelectPreferredSubtitleLanguage)
EnsureSubtitleTrack();
}
return true;
}
else
esyslog("ERROR: SetAvailableTrack called with invalid Type/Index (%d/%d)", Type, Index);
return false;
}
const tTrackId *cDevice::GetTrack(eTrackType Type)
{
return (ttNone < Type && Type < ttMaxTrackTypes) ? &availableTracks[Type] : NULL;
}
int cDevice::NumTracks(eTrackType FirstTrack, eTrackType LastTrack) const
{
int n = 0;
for (int i = FirstTrack; i <= LastTrack; i++) {
if (availableTracks[i].id)
n++;
}
return n;
}
int cDevice::NumAudioTracks(void) const
{
return NumTracks(ttAudioFirst, ttDolbyLast);
}
int cDevice::NumSubtitleTracks(void) const
{
return NumTracks(ttSubtitleFirst, ttSubtitleLast);
}
bool cDevice::SetCurrentAudioTrack(eTrackType Type)
{
if (ttNone < Type && Type <= ttDolbyLast) {
cMutexLock MutexLock(&mutexCurrentAudioTrack);
if (IS_DOLBY_TRACK(Type))
SetDigitalAudioDevice(true);
currentAudioTrack = Type;
if (player)
player->SetAudioTrack(currentAudioTrack, GetTrack(currentAudioTrack));
else
SetAudioTrackDevice(currentAudioTrack);
if (IS_AUDIO_TRACK(Type))
SetDigitalAudioDevice(false);
return true;
}
return false;
}
bool cDevice::SetCurrentSubtitleTrack(eTrackType Type, bool Manual)
{
if (Type == ttNone || IS_SUBTITLE_TRACK(Type)) {
currentSubtitleTrack = Type;
autoSelectPreferredSubtitleLanguage = !Manual;
if (dvbSubtitleConverter)
dvbSubtitleConverter->Reset();
if (Type == ttNone && dvbSubtitleConverter) {
cMutexLock MutexLock(&mutexCurrentSubtitleTrack);
DELETENULL(dvbSubtitleConverter);
}
DELETENULL(liveSubtitle);
if (player)
player->SetSubtitleTrack(currentSubtitleTrack, GetTrack(currentSubtitleTrack));
else
SetSubtitleTrackDevice(currentSubtitleTrack);
if (currentSubtitleTrack != ttNone && !Replaying() && !Transferring()) {
const tTrackId *TrackId = GetTrack(currentSubtitleTrack);
if (TrackId && TrackId->id) {
liveSubtitle = new cLiveSubtitle(TrackId->id);
AttachReceiver(liveSubtitle);
}
}
return true;
}
return false;
}
void cDevice::EnsureAudioTrack(bool Force)
{
if (Force || !availableTracks[currentAudioTrack].id) {
eTrackType PreferredTrack = ttAudioFirst;
int PreferredAudioChannel = 0;
int LanguagePreference = -1;
int StartCheck = Setup.CurrentDolby ? ttDolbyFirst : ttAudioFirst;
int EndCheck = ttDolbyLast;
for (int i = StartCheck; i <= EndCheck; i++) {
const tTrackId *TrackId = GetTrack(eTrackType(i));
int pos = 0;
if (TrackId && TrackId->id && I18nIsPreferredLanguage(Setup.AudioLanguages, TrackId->language, LanguagePreference, &pos)) {
PreferredTrack = eTrackType(i);
PreferredAudioChannel = pos;
}
if (Setup.CurrentDolby && i == ttDolbyLast) {
i = ttAudioFirst - 1;
EndCheck = ttAudioLast;
}
}
// Make sure we're set to an available audio track:
const tTrackId *Track = GetTrack(GetCurrentAudioTrack());
if (Force || !Track || !Track->id || PreferredTrack != GetCurrentAudioTrack()) {
if (!Force) // only log this for automatic changes
dsyslog("setting audio track to %d (%d)", PreferredTrack, PreferredAudioChannel);
SetCurrentAudioTrack(PreferredTrack);
SetAudioChannel(PreferredAudioChannel);
}
}
}
void cDevice::EnsureSubtitleTrack(void)
{
if (Setup.DisplaySubtitles) {
eTrackType PreferredTrack = ttNone;
int LanguagePreference = INT_MAX; // higher than the maximum possible value
for (int i = ttSubtitleFirst; i <= ttSubtitleLast; i++) {
const tTrackId *TrackId = GetTrack(eTrackType(i));
if (TrackId && TrackId->id && I18nIsPreferredLanguage(Setup.SubtitleLanguages, TrackId->language, LanguagePreference))
PreferredTrack = eTrackType(i);
}
// Make sure we're set to an available subtitle track:
const tTrackId *Track = GetTrack(GetCurrentSubtitleTrack());
if (!Track || !Track->id || PreferredTrack != GetCurrentSubtitleTrack())
SetCurrentSubtitleTrack(PreferredTrack);
}
else
SetCurrentSubtitleTrack(ttNone);
}
bool cDevice::CanReplay(void) const
{
return HasDecoder();
}
bool cDevice::SetPlayMode(ePlayMode PlayMode)
{
return false;
}
int64_t cDevice::GetSTC(void)
{
return -1;
}
void cDevice::TrickSpeed(int Speed)
{
}
void cDevice::Clear(void)
{
Audios.ClearAudio();
if (dvbSubtitleConverter)
dvbSubtitleConverter->Reset();
}
void cDevice::Play(void)
{
Audios.MuteAudio(mute);
if (dvbSubtitleConverter)
dvbSubtitleConverter->Freeze(false);
}
void cDevice::Freeze(void)
{
Audios.MuteAudio(true);
if (dvbSubtitleConverter)
dvbSubtitleConverter->Freeze(true);
}
void cDevice::Mute(void)
{
Audios.MuteAudio(true);
}
void cDevice::StillPicture(const uchar *Data, int Length)
{
if (Data[0] == 0x47) {
// TS data
cTsToPes TsToPes;
uchar *buf = NULL;
int Size = 0;
while (Length >= TS_SIZE) {
int Pid = TsPid(Data);
if (Pid == 0)
patPmtParser.ParsePat(Data, TS_SIZE);
else if (Pid == patPmtParser.PmtPid())
patPmtParser.ParsePmt(Data, TS_SIZE);
else if (Pid == patPmtParser.Vpid()) {
if (TsPayloadStart(Data)) {
int l;
while (const uchar *p = TsToPes.GetPes(l)) {
int Offset = Size;
int NewSize = Size + l;
if (uchar *NewBuffer = (uchar *)realloc(buf, NewSize)) {
Size = NewSize;
buf = NewBuffer;
memcpy(buf + Offset, p, l);
}
else {
LOG_ERROR_STR("out of memory");
free(buf);
return;
}
}
TsToPes.Reset();
}
TsToPes.PutTs(Data, TS_SIZE);
}
Length -= TS_SIZE;
Data += TS_SIZE;
}
int l;
while (const uchar *p = TsToPes.GetPes(l)) {
int Offset = Size;
int NewSize = Size + l;
if (uchar *NewBuffer = (uchar *)realloc(buf, NewSize)) {
Size = NewSize;
buf = NewBuffer;
memcpy(buf + Offset, p, l);
}
else {
esyslog("ERROR: out of memory");
free(buf);
return;
}
}
StillPicture(buf, Size);
free(buf);
}
}
bool cDevice::Replaying(void) const
{
return player != NULL;
}
bool cDevice::Transferring(void) const
{
return ActualDevice() != PrimaryDevice();
}
bool cDevice::AttachPlayer(cPlayer *Player)
{
if (CanReplay()) {
if (player)
Detach(player);
DELETENULL(liveSubtitle);
DELETENULL(dvbSubtitleConverter);
patPmtParser.Reset();
player = Player;
if (!Transferring())
ClrAvailableTracks(false, true);
SetPlayMode(player->playMode);
player->device = this;
player->Activate(true);
return true;
}
return false;
}
void cDevice::Detach(cPlayer *Player)
{
if (Player && player == Player) {
cPlayer *p = player;
player = NULL; // avoids recursive calls to Detach()
p->Activate(false);
p->device = NULL;
cMutexLock MutexLock(&mutexCurrentSubtitleTrack);
delete dvbSubtitleConverter;
dvbSubtitleConverter = NULL;
SetPlayMode(pmNone);
SetVideoDisplayFormat(eVideoDisplayFormat(Setup.VideoDisplayFormat));
PlayTs(NULL, 0);
patPmtParser.Reset();
Audios.ClearAudio();
isPlayingVideo = false;
}
}
void cDevice::StopReplay(void)
{
if (player) {
Detach(player);
if (IsPrimaryDevice())
cControl::Shutdown();
}
}
bool cDevice::Poll(cPoller &Poller, int TimeoutMs)
{
return false;
}
bool cDevice::Flush(int TimeoutMs)
{
return true;
}
int cDevice::PlayVideo(const uchar *Data, int Length)
{
return -1;
}
int cDevice::PlayAudio(const uchar *Data, int Length, uchar Id)
{
return -1;
}
int cDevice::PlaySubtitle(const uchar *Data, int Length)
{
if (!dvbSubtitleConverter)
dvbSubtitleConverter = new cDvbSubtitleConverter;
return dvbSubtitleConverter->ConvertFragments(Data, Length);
}
int cDevice::PlayPesPacket(const uchar *Data, int Length, bool VideoOnly)
{
cMutexLock MutexLock(&mutexCurrentAudioTrack);
bool FirstLoop = true;
uchar c = Data[3];
const uchar *Start = Data;
const uchar *End = Start + Length;
while (Start < End) {
int d = End - Start;
int w = d;
switch (c) {
case 0xBE: // padding stream, needed for MPEG1
case 0xE0 ... 0xEF: // video
isPlayingVideo = true;
w = PlayVideo(Start, d);
break;
case 0xC0 ... 0xDF: // audio
SetAvailableTrack(ttAudio, c - 0xC0, c);
if ((!VideoOnly || HasIBPTrickSpeed()) && c == availableTracks[currentAudioTrack].id) {
w = PlayAudio(Start, d, c);
if (FirstLoop)
Audios.PlayAudio(Data, Length, c);
}
break;
case 0xBD: { // private stream 1
int PayloadOffset = Data[8] + 9;
// Compatibility mode for old subtitles plugin:
if ((Data[7] & 0x01) && (Data[PayloadOffset - 3] & 0x81) == 0x01 && Data[PayloadOffset - 2] == 0x81)
PayloadOffset--;
uchar SubStreamId = Data[PayloadOffset];
uchar SubStreamType = SubStreamId & 0xF0;
uchar SubStreamIndex = SubStreamId & 0x1F;
// Compatibility mode for old VDR recordings, where 0xBD was only AC3:
pre_1_3_19_PrivateStreamDetected:
if (pre_1_3_19_PrivateStream > MIN_PRE_1_3_19_PRIVATESTREAM) {
SubStreamId = c;
SubStreamType = 0x80;
SubStreamIndex = 0;
}
else if (pre_1_3_19_PrivateStream)
pre_1_3_19_PrivateStream--; // every known PS1 packet counts down towards 0 to recover from glitches...
switch (SubStreamType) {
case 0x20: // SPU
case 0x30: // SPU
SetAvailableTrack(ttSubtitle, SubStreamIndex, SubStreamId);
if ((!VideoOnly || HasIBPTrickSpeed()) && currentSubtitleTrack != ttNone && SubStreamId == availableTracks[currentSubtitleTrack].id)
w = PlaySubtitle(Start, d);
break;
case 0x80: // AC3 & DTS
if (Setup.UseDolbyDigital) {
SetAvailableTrack(ttDolby, SubStreamIndex, SubStreamId);
if ((!VideoOnly || HasIBPTrickSpeed()) && SubStreamId == availableTracks[currentAudioTrack].id) {
w = PlayAudio(Start, d, SubStreamId);
if (FirstLoop)
Audios.PlayAudio(Data, Length, SubStreamId);
}
}
break;
case 0xA0: // LPCM
SetAvailableTrack(ttAudio, SubStreamIndex, SubStreamId);
if ((!VideoOnly || HasIBPTrickSpeed()) && SubStreamId == availableTracks[currentAudioTrack].id) {
w = PlayAudio(Start, d, SubStreamId);
if (FirstLoop)
Audios.PlayAudio(Data, Length, SubStreamId);
}
break;
default:
// Compatibility mode for old VDR recordings, where 0xBD was only AC3:
if (pre_1_3_19_PrivateStream <= MIN_PRE_1_3_19_PRIVATESTREAM) {
dsyslog("unknown PS1 packet, substream id = %02X (counter is at %d)", SubStreamId, pre_1_3_19_PrivateStream);
pre_1_3_19_PrivateStream += 2; // ...and every unknown PS1 packet counts up (the very first one counts twice, but that's ok)
if (pre_1_3_19_PrivateStream > MIN_PRE_1_3_19_PRIVATESTREAM) {
dsyslog("switching to pre 1.3.19 Dolby Digital compatibility mode - substream id = %02X", SubStreamId);
ClrAvailableTracks();
pre_1_3_19_PrivateStream = MIN_PRE_1_3_19_PRIVATESTREAM + 1;
goto pre_1_3_19_PrivateStreamDetected;
}
}
}
}
break;
default:
;//esyslog("ERROR: unexpected packet id %02X", c);
}
if (w > 0)
Start += w;
else {
if (Start != Data)
esyslog("ERROR: incomplete PES packet write!");
return Start == Data ? w : Start - Data;
}
FirstLoop = false;
}
return Length;
}
int cDevice::PlayPes(const uchar *Data, int Length, bool VideoOnly)
{
if (!Data) {
if (dvbSubtitleConverter)
dvbSubtitleConverter->Reset();
return 0;
}
int i = 0;
while (i <= Length - 6) {
if (Data[i] == 0x00 && Data[i + 1] == 0x00 && Data[i + 2] == 0x01) {
int l = PesLength(Data + i);
if (i + l > Length) {
esyslog("ERROR: incomplete PES packet!");
return Length;
}
int w = PlayPesPacket(Data + i, l, VideoOnly);
if (w > 0)
i += l;
else
return i == 0 ? w : i;
}
else
i++;
}
if (i < Length)
esyslog("ERROR: leftover PES data!");
return Length;
}
int cDevice::PlayTsVideo(const uchar *Data, int Length)
{
// Video PES has no explicit length, so we can only determine the end of
// a PES packet when the next TS packet that starts a payload comes in:
if (TsPayloadStart(Data)) {
int l;
while (const uchar *p = tsToPesVideo.GetPes(l)) {
int w = PlayVideo(p, l);
if (w <= 0) {
tsToPesVideo.SetRepeatLast();
return w;
}
}
tsToPesVideo.Reset();
}
tsToPesVideo.PutTs(Data, Length);
return Length;
}
int cDevice::PlayTsAudio(const uchar *Data, int Length)
{
// Audio PES always has an explicit length and consists of single packets:
int l;
if (const uchar *p = tsToPesAudio.GetPes(l)) {
int w = PlayAudio(p, l, p[3]);
if (w <= 0) {
tsToPesAudio.SetRepeatLast();
return w;
}
tsToPesAudio.Reset();
}
tsToPesAudio.PutTs(Data, Length);
return Length;
}
int cDevice::PlayTsSubtitle(const uchar *Data, int Length)
{
if (!dvbSubtitleConverter)
dvbSubtitleConverter = new cDvbSubtitleConverter;
tsToPesSubtitle.PutTs(Data, Length);
int l;
if (const uchar *p = tsToPesSubtitle.GetPes(l)) {
dvbSubtitleConverter->Convert(p, l);
tsToPesSubtitle.Reset();
}
return Length;
}
//TODO detect and report continuity errors?
int cDevice::PlayTs(const uchar *Data, int Length, bool VideoOnly)
{
int Played = 0;
if (Data == NULL) {
tsToPesVideo.Reset();
tsToPesAudio.Reset();
tsToPesSubtitle.Reset();
}
else if (Length < TS_SIZE) {
esyslog("ERROR: skipped %d bytes of TS fragment", Length);
return Length;
}
else {
cMutexLock MutexLock(&mutexCurrentAudioTrack);
while (Length >= TS_SIZE) {
if (Data[0] != TS_SYNC_BYTE) {
int Skipped = 1;
while (Skipped < Length && (Data[Skipped] != TS_SYNC_BYTE || Length - Skipped > TS_SIZE && Data[Skipped + TS_SIZE] != TS_SYNC_BYTE))
Skipped++;
esyslog("ERROR: skipped %d bytes to sync on start of TS packet", Skipped);
return Played + Skipped;
}
int Pid = TsPid(Data);
if (TsHasPayload(Data)) { // silently ignore TS packets w/o payload
int PayloadOffset = TsPayloadOffset(Data);
if (PayloadOffset < TS_SIZE) {
if (Pid == 0)
patPmtParser.ParsePat(Data, TS_SIZE);
else if (Pid == patPmtParser.PmtPid())
patPmtParser.ParsePmt(Data, TS_SIZE);
else if (Pid == patPmtParser.Vpid()) {
isPlayingVideo = true;
int w = PlayTsVideo(Data, TS_SIZE);
if (w < 0)
return Played ? Played : w;
if (w == 0)
break;
}
else if (Pid == availableTracks[currentAudioTrack].id) {
if (!VideoOnly || HasIBPTrickSpeed()) {
int w = PlayTsAudio(Data, TS_SIZE);
if (w < 0)
return Played ? Played : w;
if (w == 0)
break;
Audios.PlayTsAudio(Data, TS_SIZE);
}
}
else if (Pid == availableTracks[currentSubtitleTrack].id) {
if (!VideoOnly || HasIBPTrickSpeed())
PlayTsSubtitle(Data, TS_SIZE);
}
}
}
else if (Pid == patPmtParser.Ppid()) {
int w = PlayTsVideo(Data, TS_SIZE);
if (w < 0)
return Played ? Played : w;
if (w == 0)
break;
}
Played += TS_SIZE;
Length -= TS_SIZE;
Data += TS_SIZE;
}
}
return Played;
}
int cDevice::Priority(void) const
{
int priority = IsPrimaryDevice() ? Setup.PrimaryLimit - 1 : DEFAULTPRIORITY;
for (int i = 0; i < MAXRECEIVERS; i++) {
if (receiver[i])
priority = max(receiver[i]->priority, priority);
}
return priority;
}
bool cDevice::Ready(void)
{
return true;
}
bool cDevice::Receiving(bool CheckAny) const
{
for (int i = 0; i < MAXRECEIVERS; i++) {
if (receiver[i] && (CheckAny || receiver[i]->priority >= 0)) // cReceiver with priority < 0 doesn't count
return true;
}
return false;
}
#define TS_SCRAMBLING_TIMEOUT 3 // seconds to wait until a TS becomes unscrambled
#define TS_SCRAMBLING_TIME_OK 10 // seconds before a Channel/CAM combination is marked as known to decrypt
void cDevice::Action(void)
{
if (Running() && OpenDvr()) {
while (Running()) {
// Read data from the DVR device:
uchar *b = NULL;
if (GetTSPacket(b)) {
if (b) {
int Pid = TsPid(b);
// Check whether the TS packets are scrambled:
bool DetachReceivers = false;
bool DescramblingOk = false;
int CamSlotNumber = 0;
if (startScrambleDetection) {
cCamSlot *cs = CamSlot();
CamSlotNumber = cs ? cs->SlotNumber() : 0;
if (CamSlotNumber) {
bool Scrambled = b[3] & TS_SCRAMBLING_CONTROL;
int t = time(NULL) - startScrambleDetection;
if (Scrambled) {
if (t > TS_SCRAMBLING_TIMEOUT)
DetachReceivers = true;
}
else if (t > TS_SCRAMBLING_TIME_OK) {
DescramblingOk = true;
startScrambleDetection = 0;
}
}
}
// Distribute the packet to all attached receivers:
Lock();
for (int i = 0; i < MAXRECEIVERS; i++) {
if (receiver[i] && receiver[i]->WantsPid(Pid)) {
if (DetachReceivers) {
ChannelCamRelations.SetChecked(receiver[i]->ChannelID(), CamSlotNumber);
Detach(receiver[i]);
}
else
receiver[i]->Receive(b, TS_SIZE);
if (DescramblingOk)
ChannelCamRelations.SetDecrypt(receiver[i]->ChannelID(), CamSlotNumber);
}
}
Unlock();
}
}
else
break;
}
CloseDvr();
}
}
bool cDevice::OpenDvr(void)
{
return false;
}
void cDevice::CloseDvr(void)
{
}
bool cDevice::GetTSPacket(uchar *&Data)
{
return false;
}
bool cDevice::AttachReceiver(cReceiver *Receiver)
{
if (!Receiver)
return false;
if (Receiver->device == this)
return true;
// activate the following line if you need it - actually the driver should be fixed!
//#define WAIT_FOR_TUNER_LOCK
#ifdef WAIT_FOR_TUNER_LOCK
#define TUNER_LOCK_TIMEOUT 5000 // ms
if (!HasLock(TUNER_LOCK_TIMEOUT)) {
esyslog("ERROR: device %d has no lock, can't attach receiver!", CardIndex() + 1);
return false;
}
#endif
cMutexLock MutexLock(&mutexReceiver);
for (int i = 0; i < MAXRECEIVERS; i++) {
if (!receiver[i]) {
for (int n = 0; n < Receiver->numPids; n++) {
if (!AddPid(Receiver->pids[n])) {
for ( ; n-- > 0; )
DelPid(Receiver->pids[n]);
return false;
}
}
Receiver->Activate(true);
Lock();
Receiver->device = this;
receiver[i] = Receiver;
Unlock();
if (camSlot) {
camSlot->StartDecrypting();
startScrambleDetection = time(NULL);
}
Start();
return true;
}
}
esyslog("ERROR: no free receiver slot!");
return false;
}
void cDevice::Detach(cReceiver *Receiver)
{
if (!Receiver || Receiver->device != this)
return;
bool receiversLeft = false;
cMutexLock MutexLock(&mutexReceiver);
for (int i = 0; i < MAXRECEIVERS; i++) {
if (receiver[i] == Receiver) {
Receiver->Activate(false);
Lock();
receiver[i] = NULL;
Receiver->device = NULL;
Unlock();
for (int n = 0; n < Receiver->numPids; n++)
DelPid(Receiver->pids[n]);
}
else if (receiver[i])
receiversLeft = true;
}
if (camSlot)
camSlot->StartDecrypting();
if (!receiversLeft)
Cancel(-1);
}
void cDevice::DetachAll(int Pid)
{
if (Pid) {
cMutexLock MutexLock(&mutexReceiver);
for (int i = 0; i < MAXRECEIVERS; i++) {
cReceiver *Receiver = receiver[i];
if (Receiver && Receiver->WantsPid(Pid))
Detach(Receiver);
}
}
}
void cDevice::DetachAllReceivers(void)
{
cMutexLock MutexLock(&mutexReceiver);
for (int i = 0; i < MAXRECEIVERS; i++)
Detach(receiver[i]);
}
// --- cTSBuffer -------------------------------------------------------------
cTSBuffer::cTSBuffer(int File, int Size, int CardIndex)
{
SetDescription("TS buffer on device %d", CardIndex);
f = File;
cardIndex = CardIndex;
delivered = false;
ringBuffer = new cRingBufferLinear(Size, TS_SIZE, true, "TS");
ringBuffer->SetTimeouts(100, 100);
Start();
}
cTSBuffer::~cTSBuffer()
{
Cancel(3);
delete ringBuffer;
}
void cTSBuffer::Action(void)
{
if (ringBuffer) {
bool firstRead = true;
cPoller Poller(f);
while (Running()) {
if (firstRead || Poller.Poll(100)) {
firstRead = false;
int r = ringBuffer->Read(f);
if (r < 0 && FATALERRNO) {
if (errno == EOVERFLOW)
esyslog("ERROR: driver buffer overflow on device %d", cardIndex);
else {
LOG_ERROR;
break;
}
}
}
}
}
}
uchar *cTSBuffer::Get(void)
{
int Count = 0;
if (delivered) {
ringBuffer->Del(TS_SIZE);
delivered = false;
}
uchar *p = ringBuffer->Get(Count);
if (p && Count >= TS_SIZE) {
if (*p != TS_SYNC_BYTE) {
for (int i = 1; i < Count; i++) {
if (p[i] == TS_SYNC_BYTE) {
Count = i;
break;
}
}
ringBuffer->Del(Count);
esyslog("ERROR: skipped %d bytes to sync on TS packet on device %d", Count, cardIndex);
return NULL;
}
delivered = true;
return p;
}
return NULL;
}
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