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vdr/dvbapi.h
2001-06-02 10:47:40 +02:00

283 lines
10 KiB
C++

/*
* dvbapi.h: Interface to the DVB driver
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: dvbapi.h 1.36 2001/06/02 09:44:00 kls Exp $
*/
#ifndef __DVBAPI_H
#define __DVBAPI_H
#if defined(DEBUG_OSD) || defined(REMOTE_KBD)
#include <ncurses.h>
#endif
#include <stdlib.h> // FIXME: this is apparently necessary for the ost/... header files
// FIXME: shouldn't every header file include ALL the other header
// FIXME: files it depends on? The sequence in which header files
// FIXME: are included here should not matter - and it should NOT
// FIXME: be necessary to include <stdlib.h> here!
#include <linux/videodev.h>
#include <ost/dmx.h>
#include <ost/sec.h>
#include <ost/frontend.h>
#include <ost/video.h>
#include <ost/audio.h>
#include <ost/osd.h>
#include <stdio.h>
#include "dvbosd.h"
#include "eit.h"
#include "thread.h"
// Overlay facilities
#define MAXCLIPRECTS 100
typedef struct CRect {
signed short x, y, width, height;
};
#define MenuLines 13 // XXX originally 15, but since driver version 2001-05-25 there is less OSD memory :-(
#define MenuColumns 40
const char *IndexToHMSF(int Index, bool WithFrame = false);
// Converts the given index to a string, optionally containing the frame number.
int HMSFToIndex(const char *HMSF);
// Converts the given string (format: "hh:mm:ss.ff") to an index.
class cChannel;
class cRecordBuffer;
class cReplayBuffer;
class cTransferBuffer;
class cCuttingBuffer;
class cVideoCutter {
private:
static cCuttingBuffer *cuttingBuffer;
public:
static bool Start(const char *FileName);
static void Stop(void);
static bool Active(void);
};
class cDvbApi {
friend class cRecordBuffer;
friend class cReplayBuffer;
friend class cTransferBuffer;
private:
int videoDev;
int fd_osd, fd_qpskfe, fd_qamfe, fd_sec, fd_dvr, fd_audio, fd_video, fd_demuxa, fd_demuxv, fd_demuxt;
int vPid, aPid;
bool SetPid(int fd, dmxPesType_t PesType, dvb_pid_t Pid, dmxOutput_t Output);
bool SetVpid(int Vpid, dmxOutput_t Output) { return SetPid(fd_demuxv, DMX_PES_VIDEO, Vpid, Output); }
bool SetApid(int Apid, dmxOutput_t Output) { return SetPid(fd_demuxa, DMX_PES_AUDIO, Apid, Output); }
bool SetTpid(int Tpid, dmxOutput_t Output) { return SetPid(fd_demuxt, DMX_PES_TELETEXT, Tpid, Output); }
bool SetPids(bool ForRecording);
cDvbApi(int n);
public:
~cDvbApi();
#define MAXDVBAPI 4
static int NumDvbApis;
private:
static cDvbApi *dvbApi[MAXDVBAPI];
static int useDvbApi;
public:
static cDvbApi *PrimaryDvbApi;
static void SetUseDvbApi(int n);
// Sets the 'useDvbApi' flag of the given DVB device.
// If this function is not called before Init(), all DVB devices
// will be used.
static bool SetPrimaryDvbApi(int n);
// Sets the primary DVB device to 'n' (which must be in the range
// 1...NumDvbApis) and returns true if this was possible.
static cDvbApi *GetDvbApi(int Ca, int Priority);
// Selects a free DVB device, starting with the highest device number
// (but avoiding, if possible, the PrimaryDvbApi).
// If Ca is not 0, the device with the given number will be returned.
// If all DVB devices are currently recording, the one recording the
// lowest priority timer (if any) that is lower than the given Priority
// will be returned.
// The caller must check whether the returned DVB device is actually
// recording and stop recording if necessary.
int Index(void);
// Returns the index of this DvbApi.
static bool Probe(const char *FileName);
// Probes for existing DVB devices.
static bool Init(void);
// Initializes the DVB API.
// Must be called before accessing any DVB functions.
static void Cleanup(void);
// Closes down all DVB devices.
// Must be called at the end of the program.
// EIT facilities
private:
cSIProcessor *siProcessor;
public:
const cSchedules *Schedules(cThreadLock *ThreadLock) const;
// Caller must provide a cThreadLock which has to survive the entire
// time the returned cSchedules is accessed. Once the cSchedules is no
// longer used, the cThreadLock must be destroyed.
void SetUseTSTime(bool On) { if (siProcessor) siProcessor->SetUseTSTime(On); }
// Image Grab facilities
bool GrabImage(const char *FileName, bool Jpeg = true, int Quality = -1, int SizeX = -1, int SizeY = -1);
// Overlay facilities
private:
bool ovlStat, ovlGeoSet, ovlFbSet;
int ovlSizeX, ovlSizeY, ovlPosX, ovlPosY, ovlBpp, ovlPalette, ovlClips, ovlClipCount;
int ovlFbSizeX, ovlFbSizeY;
__u16 ovlBrightness, ovlColour, ovlHue, ovlContrast;
struct video_clip ovlClipRects[MAXCLIPRECTS];
public:
bool OvlF(int SizeX, int SizeY, int FbAddr, int Bpp, int Palette);
bool OvlG(int SizeX, int SizeY, int PosX, int PosY);
bool OvlC(int ClipCount, CRect *Cr);
bool OvlP(__u16 Brightness, __u16 Color, __u16 Hue, __u16 Contrast);
bool OvlO(bool Value);
// On Screen Display facilities
private:
enum { charWidth = 12, // average character width
lineHeight = 27 // smallest text height
};
#ifdef DEBUG_OSD
WINDOW *window;
enum { MaxColorPairs = 16 };
int colorPairs[MaxColorPairs];
void SetColor(eDvbColor colorFg, eDvbColor colorBg = clrBackground);
#else
cDvbOsd *osd;
#endif
int cols, rows;
void Cmd(OSD_Command cmd, int color = 0, int x0 = 0, int y0 = 0, int x1 = 0, int y1 = 0, const void *data = NULL);
public:
void Open(int w, int h);
void Close(void);
void Clear(void);
void Fill(int x, int y, int w, int h, eDvbColor color = clrBackground);
void SetBitmap(int x, int y, const cBitmap &Bitmap);
void ClrEol(int x, int y, eDvbColor color = clrBackground);
int CellWidth(void);
int LineHeight(void);
int Width(unsigned char c);
int WidthInCells(const char *s);
eDvbFont SetFont(eDvbFont Font);
void Text(int x, int y, const char *s, eDvbColor colorFg = clrWhite, eDvbColor colorBg = clrBackground);
void Flush(void);
// Channel facilities
private:
int currentChannel;
public:
bool SetChannel(int ChannelNumber, int FrequencyMHz, char Polarization, int Diseqc, int Srate, int Vpid, int Apid, int Tpid, int Ca, int Pnr);
static int CurrentChannel(void) { return PrimaryDvbApi ? PrimaryDvbApi->currentChannel : 0; }
int Channel(void) { return currentChannel; }
// Transfer facilities
private:
cTransferBuffer *transferBuffer;
cDvbApi *transferringFromDvbApi;
public:
bool Transferring(void);
// Returns true if we are currently transferring video data.
private:
cDvbApi *StartTransfer(int TransferToVideoDev);
// Starts transferring video data from this DVB device to TransferToVideoDev.
void StopTransfer(void);
// Stops transferring video data (in case a transfer is currently active).
// Record/Replay facilities
private:
cRecordBuffer *recordBuffer;
cReplayBuffer *replayBuffer;
int ca;
int priority;
int Ca(void) { return ca; }
// Returns the ca of the current recording session (0..MAXDVBAPI).
int Priority(void) { return priority; }
// Returns the priority of the current recording session (0..MAXPRIORITY),
// or -1 if no recording is currently active.
int SetModeRecord(void);
// Initiates recording mode and returns the file handle to read from.
void SetModeReplay(void);
void SetModeNormal(bool FromRecording);
public:
int SecondsToFrames(int Seconds);
// Returns the number of frames corresponding to the given number of seconds.
bool Recording(void);
// Returns true if we are currently recording.
bool Replaying(void);
// Returns true if we are currently replaying.
bool StartRecord(const char *FileName, int Ca, int Priority);
// Starts recording the current channel into the given file, with
// the given ca and priority.
// In order to be able to record longer movies,
// a numerical suffix will be appended to the file name. The inital
// value of that suffix will be larger than any existing file under
// the given name, thus allowing an interrupted recording to continue
// gracefully.
// Returns true if recording was started successfully.
// If there is already a recording session active, false will be
// returned.
void StopRecord(void);
// Stops the current recording session (if any).
bool StartReplay(const char *FileName);
// Starts replaying the given file.
// If there is already a replay session active, it will be stopped
// and the new file will be played back.
void StopReplay(void);
// Stops the current replay session (if any).
void Pause(void);
// Pauses the current replay session, or resumes a paused session.
void Play(void);
// Resumes normal replay mode.
void Forward(void);
// Runs the current replay session forward at a higher speed.
void Backward(void);
// Runs the current replay session backwards at a higher speed.
void SkipSeconds(int Seconds);
// Skips the given number of seconds in the current replay session.
// The sign of 'Seconds' determines the direction in which to skip.
// Use a very large negative value to go all the way back to the
// beginning of the recording.
int SkipFrames(int Frames);
// Returns the new index into the current replay session after skipping
// the given number of frames (no actual repositioning is done!).
// The sign of 'Frames' determines the direction in which to skip.
bool GetIndex(int &Current, int &Total, bool SnapToIFrame = false);
// Returns the current and total frame index, optionally snapped to the
// nearest I-frame.
void Goto(int Index, bool Still = false);
// Positions to the given index and displays that frame as a still picture
// if Still is true.
};
class cEITScanner {
private:
enum { ActivityTimeout = 60,
ScanTimeout = 20
};
time_t lastScan, lastActivity;
int currentChannel, lastChannel;
int numTransponders, *transponders;
bool TransponderScanned(cChannel *Channel);
public:
cEITScanner(void);
~cEITScanner();
bool Active(void) { return currentChannel; }
void Activity(void);
void Process(void);
};
#endif //__DVBAPI_H