mirror of
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776 lines
39 KiB
C++
776 lines
39 KiB
C++
/*
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* device.h: The basic device interface
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*
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* See the main source file 'vdr.c' for copyright information and
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* how to reach the author.
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*
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* $Id: device.h 2.37 2012/03/06 12:13:46 kls Exp $
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*/
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#ifndef __DEVICE_H
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#define __DEVICE_H
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#include "channels.h"
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#include "ci.h"
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#include "dvbsubtitle.h"
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#include "eit.h"
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#include "filter.h"
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#include "nit.h"
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#include "pat.h"
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#include "remux.h"
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#include "ringbuffer.h"
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#include "sdt.h"
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#include "sections.h"
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#include "spu.h"
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#include "thread.h"
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#include "tools.h"
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#define MAXDEVICES 16 // the maximum number of devices in the system
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#define MAXPIDHANDLES 64 // the maximum number of different PIDs per device
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#define MAXRECEIVERS 16 // the maximum number of receivers per device
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#define MAXVOLUME 255
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#define VOLUMEDELTA 5 // used to increase/decrease the volume
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#define MAXOCCUPIEDTIMEOUT 99 // max. time (in seconds) a device may be occupied
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enum eSetChannelResult { scrOk, scrNotAvailable, scrNoTransfer, scrFailed };
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enum ePlayMode { pmNone, // audio/video from decoder
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pmAudioVideo, // audio/video from player
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pmAudioOnly, // audio only from player, video from decoder
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pmAudioOnlyBlack, // audio only from player, no video (black screen)
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pmVideoOnly, // video only from player, audio from decoder
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pmExtern_THIS_SHOULD_BE_AVOIDED
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// external player (e.g. MPlayer), release the device
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// WARNING: USE THIS MODE ONLY AS A LAST RESORT, IF YOU
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// ABSOLUTELY, POSITIVELY CAN'T IMPLEMENT YOUR PLAYER
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// THE WAY IT IS SUPPOSED TO WORK. FORCING THE DEVICE
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// TO RELEASE ITS FILES HANDLES (OR WHATEVER RESOURCES
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// IT MAY USE) TO ALLOW AN EXTERNAL PLAYER TO ACCESS
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// THEM MEANS THAT SUCH A PLAYER WILL NEED TO HAVE
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// DETAILED KNOWLEDGE ABOUT THE INTERNALS OF THE DEVICE
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// IN USE. AS A CONSEQUENCE, YOUR PLAYER MAY NOT WORK
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// IF A PARTICULAR VDR INSTALLATION USES A DEVICE NOT
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// KNOWN TO YOUR PLAYER.
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};
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enum eVideoSystem { vsPAL,
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vsNTSC
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};
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enum eVideoDisplayFormat { vdfPanAndScan,
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vdfLetterBox,
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vdfCenterCutOut
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};
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enum eTrackType { ttNone,
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ttAudio,
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ttAudioFirst = ttAudio,
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ttAudioLast = ttAudioFirst + 31, // MAXAPIDS - 1
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ttDolby,
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ttDolbyFirst = ttDolby,
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ttDolbyLast = ttDolbyFirst + 15, // MAXDPIDS - 1
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ttSubtitle,
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ttSubtitleFirst = ttSubtitle,
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ttSubtitleLast = ttSubtitleFirst + 31, // MAXSPIDS - 1
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ttMaxTrackTypes
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};
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#define IS_AUDIO_TRACK(t) (ttAudioFirst <= (t) && (t) <= ttAudioLast)
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#define IS_DOLBY_TRACK(t) (ttDolbyFirst <= (t) && (t) <= ttDolbyLast)
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#define IS_SUBTITLE_TRACK(t) (ttSubtitleFirst <= (t) && (t) <= ttSubtitleLast)
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struct tTrackId {
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uint16_t id; // The PES packet id or the PID.
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char language[MAXLANGCODE2]; // something like either "eng" or "deu+eng"
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char description[32]; // something like "Dolby Digital 5.1"
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};
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class cPlayer;
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class cReceiver;
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class cLiveSubtitle;
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class cDeviceHook : public cListObject {
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public:
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cDeviceHook(void);
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///< Creates a new device hook object.
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///< Do not delete this object - it will be automatically deleted when the
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///< program ends.
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virtual bool DeviceProvidesTransponder(const cDevice *Device, const cChannel *Channel) const;
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///< Returns true if the given Device can provide the given Channel's transponder.
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};
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/// The cDevice class is the base from which actual devices can be derived.
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class cDevice : public cThread {
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friend class cLiveSubtitle;
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friend class cDeviceHook;
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private:
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static int numDevices;
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static int useDevice;
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static cDevice *device[MAXDEVICES];
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static cDevice *primaryDevice;
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public:
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static int NumDevices(void) { return numDevices; }
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///< Returns the total number of devices.
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static bool WaitForAllDevicesReady(int Timeout = 0);
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///< Waits until all devices have become ready, or the given Timeout
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///< (seconds) has expired. While waiting, the Ready() function of each
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///< device is called in turn, until they all return true.
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///< \return True if all devices have become ready within the given
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///< timeout.
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static void SetUseDevice(int n);
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///< Sets the 'useDevice' flag of the given device.
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///< If this function is not called before initializing, all devices
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///< will be used.
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static bool UseDevice(int n) { return useDevice == 0 || (useDevice & (1 << n)) != 0; }
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///< Tells whether the device with the given card index shall be used in
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///< this instance of VDR.
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static bool SetPrimaryDevice(int n);
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///< Sets the primary device to 'n'.
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///< \param n must be in the range 1...numDevices.
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///< \return true if this was possible.
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static cDevice *PrimaryDevice(void) { return primaryDevice; }
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///< Returns the primary device.
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static cDevice *ActualDevice(void);
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///< Returns the actual receiving device in case of Transfer Mode, or the
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///< primary device otherwise.
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static cDevice *GetDevice(int Index);
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///< Gets the device with the given Index.
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///< \param Index must be in the range 0..numDevices-1.
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///< \return A pointer to the device, or NULL if the Index was invalid.
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static cDevice *GetDevice(const cChannel *Channel, int Priority, bool LiveView, bool Query = false);
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///< Returns a device that is able to receive the given Channel at the
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///< given Priority, with the least impact on active recordings and
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///< live viewing. The LiveView parameter tells whether the device will
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///< be used for live viewing or a recording.
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///< If the Channel is encrypted, a CAM slot that claims to be able to
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///< decrypt the channel is automatically selected and assigned to the
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///< returned device. Whether or not this combination of device and CAM
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///< slot is actually able to decrypt the channel can only be determined
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///< by checking the "scrambling control" bits of the received TS packets.
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///< The Action() function automatically does this and takes care that
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///< after detaching any receivers because the channel can't be decrypted,
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///< this device/CAM combination will be skipped in the next call to
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///< GetDevice().
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///< If Query is true, no actual CAM assignments or receiver detachments will
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///< be done, so that this function can be called without any side effects
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///< in order to just determine whether a device is available for the given
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///< Channel.
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///< See also ProvidesChannel().
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static cDevice *GetDeviceForTransponder(const cChannel *Channel, int Priority);
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///< Returns a device that is not currently "occupied" and can be tuned to
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///< the transponder of the given Channel, without disturbing any receiver
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///< at priorities higher or equal to Priority.
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///< If no such device is currently available, NULL will be returned.
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static void Shutdown(void);
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///< Closes down all devices.
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///< Must be called at the end of the program.
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private:
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static int nextCardIndex;
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int cardIndex;
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protected:
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cDevice(void);
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virtual ~cDevice();
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virtual bool Ready(void);
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///< Returns true if this device is ready. Devices with conditional
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///< access hardware may need some time until they are up and running.
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///< This function is called in a loop at startup until all devices
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///< are ready (see WaitForAllDevicesReady()).
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static int NextCardIndex(int n = 0);
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///< Calculates the next card index.
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///< Each device in a given machine must have a unique card index, which
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///< will be used to identify the device for assigning Ca parameters and
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///< deciding whether to actually use that device in this particular
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///< instance of VDR. Every time a new cDevice is created, it will be
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///< given the current nextCardIndex, and then nextCardIndex will be
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///< automatically incremented by 1. A derived class can determine whether
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///< a given device shall be used by checking UseDevice(NextCardIndex()).
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///< If a device is skipped, or if there are possible device indexes left
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///< after a derived class has set up all its devices, NextCardIndex(n)
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///< must be called, where n is the number of card indexes to skip.
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virtual void MakePrimaryDevice(bool On);
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///< Informs a device that it will be the primary device. If there is
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///< anything the device needs to set up when it becomes the primary
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///< device (On = true) or to shut down when it no longer is the primary
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///< device (On = false), it should do so in this function.
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///< A derived class must call the MakePrimaryDevice() function of its
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///< base class.
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public:
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bool IsPrimaryDevice(void) const { return this == primaryDevice; }
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int CardIndex(void) const { return cardIndex; }
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///< Returns the card index of this device (0 ... MAXDEVICES - 1).
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int DeviceNumber(void) const;
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///< Returns the number of this device (0 ... numDevices).
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virtual bool HasDecoder(void) const;
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///< Tells whether this device has an MPEG decoder.
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virtual bool AvoidRecording(void) const { return false; }
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///< Returns true if this device should only be used for recording
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///< if no other device is available.
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// Device hooks
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private:
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static cList<cDeviceHook> deviceHooks;
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protected:
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bool DeviceHooksProvidesTransponder(const cChannel *Channel) const;
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// SPU facilities
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private:
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cLiveSubtitle *liveSubtitle;
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cDvbSubtitleConverter *dvbSubtitleConverter;
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public:
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virtual cSpuDecoder *GetSpuDecoder(void);
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///< Returns a pointer to the device's SPU decoder (or NULL, if this
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///< device doesn't have an SPU decoder).
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// Channel facilities
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private:
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time_t occupiedTimeout;
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protected:
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static int currentChannel;
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public:
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virtual bool ProvidesSource(int Source) const;
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///< Returns true if this device can provide the given source.
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virtual bool ProvidesTransponder(const cChannel *Channel) const;
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///< Returns true if this device can provide the transponder of the
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///< given Channel (which implies that it can provide the Channel's
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///< source).
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virtual bool ProvidesTransponderExclusively(const cChannel *Channel) const;
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///< Returns true if this is the only device that is able to provide
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///< the given channel's transponder.
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virtual bool ProvidesChannel(const cChannel *Channel, int Priority = IDLEPRIORITY, bool *NeedsDetachReceivers = NULL) const;
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///< Returns true if this device can provide the given channel.
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///< In case the device has cReceivers attached to it, Priority is used to
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///< decide whether the caller's request can be honored.
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///< The special Priority value IDLEPRIORITY will tell the caller whether this device
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///< is principally able to provide the given Channel, regardless of any
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///< attached cReceivers.
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///< If NeedsDetachReceivers is given, the resulting value in it will tell the
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///< caller whether or not it will have to detach any currently attached
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///< receivers from this device before calling SwitchChannel. Note
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///< that the return value in NeedsDetachReceivers is only meaningful if the
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///< function itself actually returns true.
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///< The default implementation always returns false, so a derived cDevice
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///< class that can provide channels must implement this function.
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virtual bool ProvidesEIT(void) const;
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///< Returns true if this device provides EIT data and thus wants to be tuned
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///< to the channels it can receive regularly to update the data.
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///< The default implementation returns false.
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virtual int NumProvidedSystems(void) const;
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///< Returns the number of individual "delivery systems" this device provides.
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///< The default implementation returns 0, so any derived class that can
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///< actually provide channels must implement this function.
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///< The result of this function is used when selecting a device, in order
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///< to avoid devices that provide more than one system.
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virtual int SignalStrength(void) const;
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///< Returns the "strength" of the currently received signal.
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///< This is a value in the range 0 (no signal at all) through
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///< 100 (best possible signal). A value of -1 indicates that this
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///< device has no concept of a "signal strength".
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virtual int SignalQuality(void) const;
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///< Returns the "quality" of the currently received signal.
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///< This is a value in the range 0 (worst quality) through
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///< 100 (best possible quality). A value of -1 indicates that this
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///< device has no concept of a "signal quality".
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virtual const cChannel *GetCurrentlyTunedTransponder(void) const;
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///< Returns a pointer to the currently tuned transponder.
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///< This is not one of the channels in the global cChannels list, but rather
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///< a local copy. The result may be NULL if the device is not tuned to any
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///< transponder.
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virtual bool IsTunedToTransponder(const cChannel *Channel) const;
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///< Returns true if this device is currently tuned to the given Channel's
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///< transponder.
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virtual bool MaySwitchTransponder(const cChannel *Channel) const;
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///< Returns true if it is ok to switch to the Channel's transponder on this
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///< device, without disturbing any other activities. If an occupied timeout
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///< has been set for this device, and that timeout has not yet expired,
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///< this function returns false,
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bool SwitchChannel(const cChannel *Channel, bool LiveView);
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///< Switches the device to the given Channel, initiating transfer mode
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///< if necessary.
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static bool SwitchChannel(int Direction);
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///< Switches the primary device to the next available channel in the given
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///< Direction (only the sign of Direction is evaluated, positive values
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///< switch to higher channel numbers).
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private:
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eSetChannelResult SetChannel(const cChannel *Channel, bool LiveView);
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///< Sets the device to the given channel (general setup).
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protected:
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virtual bool SetChannelDevice(const cChannel *Channel, bool LiveView);
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///< Sets the device to the given channel (actual physical setup).
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public:
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static int CurrentChannel(void) { return primaryDevice ? currentChannel : 0; }
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///< Returns the number of the current channel on the primary device.
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static void SetCurrentChannel(const cChannel *Channel) { currentChannel = Channel ? Channel->Number() : 0; }
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///< Sets the number of the current channel on the primary device, without
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///< actually switching to it. This can be used to correct the current
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///< channel number while replaying.
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void ForceTransferMode(void);
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///< Forces the device into transfermode for the current channel.
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int Occupied(void) const;
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///< Returns the number of seconds this device is still occupied for.
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void SetOccupied(int Seconds);
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///< Sets the occupied timeout for this device to the given number of
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///< Seconds, This can be used to tune a device to a particular transponder
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///< and make sure it will stay there for a certain amount of time, for
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///< instance to collect EPG data. This function shall only be called
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///< after the device has been successfully tuned to the requested transponder.
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///< Seconds will be silently limited to MAXOCCUPIEDTIMEOUT. Values less than
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///< 0 will be silently ignored.
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virtual bool HasLock(int TimeoutMs = 0);
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///< Returns true if the device has a lock on the requested transponder.
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///< Default is true, a specific device implementation may return false
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///< to indicate that it is not ready yet.
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///< If TimeoutMs is not zero, waits for the given number of milliseconds
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///< before returning false.
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virtual bool HasProgramme(void);
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///< Returns true if the device is currently showing any programme to
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///< the user, either through replaying or live.
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// PID handle facilities
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private:
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virtual void Action(void);
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protected:
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enum ePidType { ptAudio, ptVideo, ptPcr, ptTeletext, ptDolby, ptOther };
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class cPidHandle {
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public:
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int pid;
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int streamType;
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int handle;
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int used;
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cPidHandle(void) { pid = streamType = used = 0; handle = -1; }
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};
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cPidHandle pidHandles[MAXPIDHANDLES];
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bool HasPid(int Pid) const;
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///< Returns true if this device is currently receiving the given PID.
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bool AddPid(int Pid, ePidType PidType = ptOther, int StreamType = 0);
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///< Adds a PID to the set of PIDs this device shall receive.
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void DelPid(int Pid, ePidType PidType = ptOther);
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///< Deletes a PID from the set of PIDs this device shall receive.
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virtual bool SetPid(cPidHandle *Handle, int Type, bool On);
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///< Does the actual PID setting on this device.
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///< On indicates whether the PID shall be added or deleted.
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///< Handle->handle can be used by the device to store information it
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///< needs to receive this PID (for instance a file handle).
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///< Handle->used indicates how many receivers are using this PID.
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///< Type indicates some special types of PIDs, which the device may
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///< need to set in a specific way.
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public:
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void DelLivePids(void);
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///< Deletes the live viewing PIDs.
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// Section filter facilities
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private:
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cSectionHandler *sectionHandler;
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cEitFilter *eitFilter;
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cPatFilter *patFilter;
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cSdtFilter *sdtFilter;
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cNitFilter *nitFilter;
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protected:
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void StartSectionHandler(void);
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///< A derived device that provides section data must call
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///< this function (typically in its constructor) to actually set
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///< up the section handler.
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void StopSectionHandler(void);
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///< A device that has called StartSectionHandler() must call this
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///< function (typically in its destructor) to stop the section
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///< handler.
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public:
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virtual int OpenFilter(u_short Pid, u_char Tid, u_char Mask);
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///< Opens a file handle for the given filter data.
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///< A derived device that provides section data must
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///< implement this function.
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virtual void CloseFilter(int Handle);
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///< Closes a file handle that has previously been opened
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///< by OpenFilter(). If this is as simple as calling close(Handle),
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///< a derived class need not implement this function, because this
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///< is done by the default implementation.
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void AttachFilter(cFilter *Filter);
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///< Attaches the given filter to this device.
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void Detach(cFilter *Filter);
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///< Detaches the given filter from this device.
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// Common Interface facilities:
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private:
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time_t startScrambleDetection;
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cCamSlot *camSlot;
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public:
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virtual bool HasCi(void);
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///< Returns true if this device has a Common Interface.
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void SetCamSlot(cCamSlot *CamSlot);
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///< Sets the given CamSlot to be used with this device.
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cCamSlot *CamSlot(void) const { return camSlot; }
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///< Returns the CAM slot that is currently used with this device,
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///< or NULL if no CAM slot is in use.
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// Image Grab facilities
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public:
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virtual uchar *GrabImage(int &Size, bool Jpeg = true, int Quality = -1, int SizeX = -1, int SizeY = -1);
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///< Grabs the currently visible screen image.
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///< \param Size The size of the returned data block.
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///< \param Jpeg If true will write a JPEG file. Otherwise a PNM file will be written.
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///< \param Quality The compression factor for JPEG. 1 will create a very blocky
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///< and small image, 70..80 will yield reasonable quality images while keeping the
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///< image file size around 50 KB for a full frame. The default will create a big
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///< but very high quality image.
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///< \param SizeX The number of horizontal pixels in the frame (default is the current screen width).
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///< \param SizeY The number of vertical pixels in the frame (default is the current screen height).
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///< \return A pointer to the grabbed image data, or NULL in case of an error.
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///< The caller takes ownership of the returned memory and must free() it once it isn't needed any more.
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bool GrabImageFile(const char *FileName, bool Jpeg = true, int Quality = -1, int SizeX = -1, int SizeY = -1);
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///< Calls GrabImage() and stores the resulting image in a file with the given name.
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///< \return True if all went well.
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///< The caller is responsible for making sure that the given file name
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///< doesn't lead to overwriting any important other file.
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// Video format facilities
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public:
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virtual void SetVideoDisplayFormat(eVideoDisplayFormat VideoDisplayFormat);
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///< Sets the video display format to the given one (only useful
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///< if this device has an MPEG decoder).
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///< A derived class must first call the base class function!
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virtual void SetVideoFormat(bool VideoFormat16_9);
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///< Sets the output video format to either 16:9 or 4:3 (only useful
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///< if this device has an MPEG decoder).
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virtual eVideoSystem GetVideoSystem(void);
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///< Returns the video system of the currently displayed material
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///< (default is PAL).
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virtual void GetVideoSize(int &Width, int &Height, double &VideoAspect);
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///< Returns the Width, Height and VideoAspect ratio of the currently
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///< displayed video material. Width and Height are given in pixel
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///< (e.g. 720x576) and VideoAspect is e.g. 1.33333 for a 4:3 broadcast,
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///< or 1.77778 for 16:9.
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///< The default implementation returns 0 for Width and Height
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///< and 1.0 for VideoAspect.
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virtual void GetOsdSize(int &Width, int &Height, double &PixelAspect);
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///< Returns the Width, Height and PixelAspect ratio the OSD should use
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///< to best fit the resolution of the output device. If PixelAspect
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///< is not 1.0, the OSD may take this as a hint to scale its
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///< graphics in a way that, e.g., a circle will actually
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///< show up as a circle on the screen, and not as an ellipse.
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///< Values greater than 1.0 mean to stretch the graphics in the
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///< vertical direction (or shrink it in the horizontal direction,
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///< depending on which dimension shall be fixed). Values less than
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///< 1.0 work the other way round. Note that the OSD is not guaranteed
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///< to actually use this hint.
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// Track facilities
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private:
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tTrackId availableTracks[ttMaxTrackTypes];
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eTrackType currentAudioTrack;
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eTrackType currentSubtitleTrack;
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cMutex mutexCurrentAudioTrack;
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cMutex mutexCurrentSubtitleTrack;
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int currentAudioTrackMissingCount;
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bool autoSelectPreferredSubtitleLanguage;
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int pre_1_3_19_PrivateStream;
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protected:
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virtual void SetAudioTrackDevice(eTrackType Type);
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///< Sets the current audio track to the given value.
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virtual void SetSubtitleTrackDevice(eTrackType Type);
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///< Sets the current subtitle track to the given value.
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public:
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void ClrAvailableTracks(bool DescriptionsOnly = false, bool IdsOnly = false);
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///< Clears the list of currently available tracks. If DescriptionsOnly
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///< is true, only the track descriptions will be cleared. With IdsOnly
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///< set to true only the ids will be cleared. IdsOnly is only taken
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///< into account if DescriptionsOnly is false.
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bool SetAvailableTrack(eTrackType Type, int Index, uint16_t Id, const char *Language = NULL, const char *Description = NULL);
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///< Sets the track of the given Type and Index to the given values.
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///< Type must be one of the basic eTrackType values, like ttAudio or ttDolby.
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///< Index tells which track of the given basic type is meant.
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///< If Id is 0 any existing id will be left untouched and only the
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///< given Language and Description will be set.
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///< \return Returns true if the track was set correctly, false otherwise.
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const tTrackId *GetTrack(eTrackType Type);
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///< Returns a pointer to the given track id, or NULL if Type is not
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///< less than ttMaxTrackTypes.
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int NumTracks(eTrackType FirstTrack, eTrackType LastTrack) const;
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///< Returns the number of tracks in the given range that are currently
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///< available.
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int NumAudioTracks(void) const;
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///< Returns the number of audio tracks that are currently available.
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///< This is just for information, to quickly find out whether there
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///< is more than one audio track.
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int NumSubtitleTracks(void) const;
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///< Returns the number of subtitle tracks that are currently available.
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eTrackType GetCurrentAudioTrack(void) const { return currentAudioTrack; }
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bool SetCurrentAudioTrack(eTrackType Type);
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///< Sets the current audio track to the given Type.
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///< \return Returns true if Type is a valid audio track, false otherwise.
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eTrackType GetCurrentSubtitleTrack(void) const { return currentSubtitleTrack; }
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bool SetCurrentSubtitleTrack(eTrackType Type, bool Manual = false);
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///< Sets the current subtitle track to the given Type.
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///< IF Manual is true, no automatic preferred subtitle language selection
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///< will be done for the rest of the current replay session, or until
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///< the channel is changed.
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///< \return Returns true if Type is a valid subtitle track, false otherwise.
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void EnsureAudioTrack(bool Force = false);
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///< Makes sure an audio track is selected that is actually available.
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///< If Force is true, the language and Dolby Digital settings will
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///< be verified even if the current audio track is available.
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void EnsureSubtitleTrack(void);
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///< Makes sure one of the preferred language subtitle tracks is selected.
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///< Only has an effect if Setup.DisplaySubtitles is on.
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// Audio facilities
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private:
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bool mute;
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int volume;
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protected:
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virtual int GetAudioChannelDevice(void);
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///< Gets the current audio channel, which is stereo (0), mono left (1) or
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///< mono right (2).
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virtual void SetAudioChannelDevice(int AudioChannel);
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///< Sets the audio channel to stereo (0), mono left (1) or mono right (2).
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virtual void SetVolumeDevice(int Volume);
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///< Sets the audio volume on this device (Volume = 0...255).
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virtual void SetDigitalAudioDevice(bool On);
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///< Tells the actual device that digital audio output shall be switched
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///< on or off.
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public:
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bool IsMute(void) const { return mute; }
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bool ToggleMute(void);
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///< Turns the volume off or on and returns the new mute state.
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int GetAudioChannel(void);
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///< Gets the current audio channel, which is stereo (0), mono left (1) or
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///< mono right (2).
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void SetAudioChannel(int AudioChannel);
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///< Sets the audio channel to stereo (0), mono left (1) or mono right (2).
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///< Any other values will be silently ignored.
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void SetVolume(int Volume, bool Absolute = false);
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///< Sets the volume to the given value, either absolutely or relative to
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///< the current volume.
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static int CurrentVolume(void) { return primaryDevice ? primaryDevice->volume : 0; }//XXX???
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// Player facilities
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private:
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cPlayer *player;
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cPatPmtParser patPmtParser;
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cTsToPes tsToPesVideo;
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cTsToPes tsToPesAudio;
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cTsToPes tsToPesSubtitle;
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bool isPlayingVideo;
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protected:
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const cPatPmtParser *PatPmtParser(void) const { return &patPmtParser; }
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///< Returns a pointer to the patPmtParser, so that a derived device
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///< can use the stream information from it.
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virtual bool CanReplay(void) const;
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///< Returns true if this device can currently start a replay session.
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virtual bool SetPlayMode(ePlayMode PlayMode);
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///< Sets the device into the given play mode.
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///< \return true if the operation was successful.
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virtual int PlayVideo(const uchar *Data, int Length);
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///< Plays the given data block as video.
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///< Data points to exactly one complete PES packet of the given Length.
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///< PlayVideo() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< \return Returns the number of bytes actually taken from Data, or -1
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///< in case of an error.
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virtual int PlayAudio(const uchar *Data, int Length, uchar Id);
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///< Plays the given data block as audio.
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///< Data points to exactly one complete PES packet of the given Length.
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///< Id indicates the type of audio data this packet holds.
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///< PlayAudio() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< \return Returns the number of bytes actually taken from Data, or -1
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///< in case of an error.
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virtual int PlaySubtitle(const uchar *Data, int Length);
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///< Plays the given data block as a subtitle.
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///< Data points to exactly one complete PES packet of the given Length.
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///< PlaySubtitle() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< \return Returns the number of bytes actually taken from Data, or -1
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///< in case of an error.
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virtual int PlayPesPacket(const uchar *Data, int Length, bool VideoOnly = false);
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///< Plays the single PES packet in Data with the given Length.
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///< If VideoOnly is true, only the video will be displayed,
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///< which is necessary for trick modes like 'fast forward'.
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///< Data must point to one single, complete PES packet.
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virtual int PlayTsVideo(const uchar *Data, int Length);
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///< Plays the given data block as video.
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///< Data points to exactly one complete TS packet of the given Length
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///< (which is always TS_SIZE).
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///< PlayTsVideo() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< The default implementation collects all incoming TS payload belonging
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///< to one PES packet and calls PlayVideo() with the resulting packet.
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virtual int PlayTsAudio(const uchar *Data, int Length);
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///< Plays the given data block as audio.
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///< Data points to exactly one complete TS packet of the given Length
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///< (which is always TS_SIZE).
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///< PlayTsAudio() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< The default implementation collects all incoming TS payload belonging
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///< to one PES packet and calls PlayAudio() with the resulting packet.
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virtual int PlayTsSubtitle(const uchar *Data, int Length);
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///< Plays the given data block as a subtitle.
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///< Data points to exactly one complete TS packet of the given Length
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///< (which is always TS_SIZE).
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///< PlayTsSubtitle() shall process the packet either as a whole (returning
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///< Length) or not at all (returning 0 or -1 and setting 'errno' accordingly).
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///< The default implementation collects all incoming TS payload belonging
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///< to one PES packet and displays the resulting subtitle via the OSD.
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public:
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virtual int64_t GetSTC(void);
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///< Gets the current System Time Counter, which can be used to
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///< synchronize audio, video and subtitles. If this device is able to
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///< replay, it must provide an STC.
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///< The value returned doesn't need to be an actual "clock" value,
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///< it is sufficient if it holds the PTS (Presentation Time Stamp) of
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///< the most recently presented frame. A proper value must be returned
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///< in normal replay mode as well as in any trick modes (like slow motion,
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///< fast forward/rewind).
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///< Only the lower 32 bit of this value are actually used, since some
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///< devices can't handle the msb correctly.
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virtual bool IsPlayingVideo(void) const { return isPlayingVideo; }
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///< \return Returns true if the currently attached player has delivered
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///< any video packets.
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virtual bool HasIBPTrickSpeed(void) { return false; }
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///< Returns true if this device can handle all frames in 'fast forward'
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///< trick speeds.
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virtual void TrickSpeed(int Speed);
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///< Sets the device into a mode where replay is done slower.
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///< Every single frame shall then be displayed the given number of
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///< times.
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///< The cDvbPlayer uses the following values for the various speeds:
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///< 1x 2x 3x
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///< Fast Forward 6 3 1
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///< Fast Reverse 6 3 1
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///< Slow Forward 8 4 2
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///< Slow Reverse 63 48 24
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virtual void Clear(void);
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///< Clears all video and audio data from the device.
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///< A derived class must call the base class function to make sure
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///< all registered cAudio objects are notified.
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virtual void Play(void);
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///< Sets the device into play mode (after a previous trick
|
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///< mode).
|
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virtual void Freeze(void);
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///< Puts the device into "freeze frame" mode.
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virtual void Mute(void);
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///< Turns off audio while replaying.
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///< A derived class must call the base class function to make sure
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///< all registered cAudio objects are notified.
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virtual void StillPicture(const uchar *Data, int Length);
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///< Displays the given I-frame as a still picture.
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///< Data points either to TS (first byte is 0x47) or PES (first byte
|
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///< is 0x00) data of the given Length. The default implementation
|
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///< converts TS to PES and calls itself again, allowing a derived class
|
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///< to display PES if it can't handle TS directly.
|
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virtual bool Poll(cPoller &Poller, int TimeoutMs = 0);
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///< Returns true if the device itself or any of the file handles in
|
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///< Poller is ready for further action.
|
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///< If TimeoutMs is not zero, the device will wait up to the given number
|
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///< of milliseconds before returning in case it can't accept any data.
|
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virtual bool Flush(int TimeoutMs = 0);
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///< Returns true if the device's output buffers are empty, i. e. any
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///< data which was buffered so far has been processed.
|
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///< If TimeoutMs is not zero, the device will wait up to the given
|
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///< number of milliseconds before returning in case there is still
|
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///< data in the buffers.
|
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virtual int PlayPes(const uchar *Data, int Length, bool VideoOnly = false);
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///< Plays all valid PES packets in Data with the given Length.
|
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///< If Data is NULL any leftover data from a previous call will be
|
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///< discarded. If VideoOnly is true, only the video will be displayed,
|
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///< which is necessary for trick modes like 'fast forward'.
|
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///< Data should point to a sequence of complete PES packets. If the
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///< last packet in Data is not complete, it will be copied and combined
|
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///< to a complete packet with data from the next call to PlayPes().
|
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///< That way any functions called from within PlayPes() will be
|
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///< guaranteed to always receive complete PES packets.
|
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virtual int PlayTs(const uchar *Data, int Length, bool VideoOnly = false);
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///< Plays the given TS packet.
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///< If VideoOnly is true, only the video will be displayed,
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///< which is necessary for trick modes like 'fast forward'.
|
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///< Data points to a single TS packet, Length is always TS_SIZE (the total
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///< size of a single TS packet).
|
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///< If Data is NULL any leftover data from a previous call will be
|
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///< discarded.
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///< A derived device can reimplement this function to handle the
|
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///< TS packets itself. Any packets the derived function can't handle
|
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///< must be sent to the base class function. This applies especially
|
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///< to the PAT/PMT packets.
|
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///< Returns -1 in case of error, otherwise the number of actually
|
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///< processed bytes is returned.
|
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///< PlayTs() shall process the TS packets either as a whole (returning
|
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///< n*TS_SIZE) or not at all, returning 0 or -1 and setting 'errno' accordingly).
|
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bool Replaying(void) const;
|
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///< Returns true if we are currently replaying.
|
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bool Transferring(void) const;
|
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///< Returns true if we are currently in Transfer Mode.
|
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void StopReplay(void);
|
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///< Stops the current replay session (if any).
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bool AttachPlayer(cPlayer *Player);
|
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///< Attaches the given player to this device.
|
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void Detach(cPlayer *Player);
|
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///< Detaches the given player from this device.
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|
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// Receiver facilities
|
|
|
|
private:
|
|
mutable cMutex mutexReceiver;
|
|
cReceiver *receiver[MAXRECEIVERS];
|
|
public:
|
|
int Priority(void) const;
|
|
///< Returns the priority of the current receiving session (-MAXPRIORITY..MAXPRIORITY),
|
|
///< or IDLEPRIORITY if no receiver is currently active.
|
|
protected:
|
|
virtual bool OpenDvr(void);
|
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///< Opens the DVR of this device and prepares it to deliver a Transport
|
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///< Stream for use in a cReceiver.
|
|
virtual void CloseDvr(void);
|
|
///< Shuts down the DVR.
|
|
virtual bool GetTSPacket(uchar *&Data);
|
|
///< Gets exactly one TS packet from the DVR of this device and returns
|
|
///< a pointer to it in Data. Only the first 188 bytes (TS_SIZE) Data
|
|
///< points to are valid and may be accessed. If there is currently no
|
|
///< new data available, Data will be set to NULL. The function returns
|
|
///< false in case of a non recoverable error, otherwise it returns true,
|
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///< even if Data is NULL.
|
|
public:
|
|
bool Receiving(bool Dummy = false) const;
|
|
///< Returns true if we are currently receiving. The parameter has no meaning (for backwards compatibility only).
|
|
bool AttachReceiver(cReceiver *Receiver);
|
|
///< Attaches the given receiver to this device.
|
|
void Detach(cReceiver *Receiver);
|
|
///< Detaches the given receiver from this device.
|
|
void DetachAll(int Pid);
|
|
///< Detaches all receivers from this device for this pid.
|
|
virtual void DetachAllReceivers(void);
|
|
///< Detaches all receivers from this device.
|
|
};
|
|
|
|
/// Derived cDevice classes that can receive channels will have to provide
|
|
/// Transport Stream (TS) packets one at a time. cTSBuffer implements a
|
|
/// simple buffer that allows the device to read a larger amount of data
|
|
/// from the driver with each call to Read(), thus avoiding the overhead
|
|
/// of getting each TS packet separately from the driver. It also makes
|
|
/// sure the returned data points to a TS packet and automatically
|
|
/// re-synchronizes after broken packets.
|
|
|
|
class cTSBuffer : public cThread {
|
|
private:
|
|
int f;
|
|
int cardIndex;
|
|
bool delivered;
|
|
cRingBufferLinear *ringBuffer;
|
|
virtual void Action(void);
|
|
public:
|
|
cTSBuffer(int File, int Size, int CardIndex);
|
|
~cTSBuffer();
|
|
uchar *Get(void);
|
|
};
|
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|
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#endif //__DEVICE_H
|