vdr-plugin-softhddevice/softhddev.c

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///
/// @file softhddev.c @brief A software HD device plugin for VDR.
///
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/// Copyright (c) 2011, 2012 by Johns. All Rights Reserved.
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///
/// Contributor(s):
///
/// License: AGPLv3
///
/// This program is free software: you can redistribute it and/or modify
/// it under the terms of the GNU Affero General Public License as
/// published by the Free Software Foundation, either version 3 of the
/// License.
///
/// This program is distributed in the hope that it will be useful,
/// but WITHOUT ANY WARRANTY; without even the implied warranty of
/// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
/// GNU Affero General Public License for more details.
///
/// $Id$
//////////////////////////////////////////////////////////////////////////////
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdint.h>
#include <inttypes.h>
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#include <unistd.h>
#include <libintl.h>
#define _(str) gettext(str) ///< gettext shortcut
#define _N(str) str ///< gettext_noop shortcut
#include <libavcodec/avcodec.h>
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#ifndef __USE_GNU
#define __USE_GNU
#endif
#include <pthread.h>
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#include "misc.h"
#include "softhddev.h"
#include "audio.h"
#include "video.h"
#include "codec.h"
#ifdef DEBUG
static int H264Dump(const uint8_t * data, int size);
#endif
//////////////////////////////////////////////////////////////////////////////
// Variables
//////////////////////////////////////////////////////////////////////////////
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#ifdef USE_VDPAU
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static char ConfigVdpauDecoder = 1; ///< use vdpau decoder, if possible
#else
#define ConfigVdpauDecoder 0 ///< no vdpau decoder configured
#endif
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extern int ConfigAudioBufferTime; ///< config size ms of audio buffer
static char ConfigStartSuspended; ///< flag to start in suspend mode
static char ConfigFullscreen; ///< fullscreen modus
static char ConfigStartX11Server; ///< flag start the x11 server
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static pthread_mutex_t SuspendLockMutex; ///< suspend lock mutex
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static volatile char StreamFreezed; ///< stream freezed
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//////////////////////////////////////////////////////////////////////////////
// Audio
//////////////////////////////////////////////////////////////////////////////
static volatile char NewAudioStream; ///< new audio stream
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static volatile char SkipAudio; ///< skip audio stream
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static AudioDecoder *MyAudioDecoder; ///< audio decoder
static enum CodecID AudioCodecID; ///< current codec id
static int AudioChannelID; ///< current audio channel id
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/// Minimum free space in audio buffer 8 packets for 8 channels
#define AUDIO_MIN_BUFFER_FREE (3072 * 8 * 8)
#define AUDIO_BUFFER_SIZE (512 * 1024) ///< audio PES buffer default size
static AVPacket AudioAvPkt[1]; ///< audio a/v packet
//////////////////////////////////////////////////////////////////////////////
// Audio codec parser
//////////////////////////////////////////////////////////////////////////////
///
/// Mpeg bitrate table.
///
/// BitRateTable[Version][Layer][Index]
///
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static const uint16_t BitRateTable[2][4][16] = {
// MPEG Version 1
{{},
{0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448,
0},
{0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 0},
{0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 0}},
// MPEG Version 2 & 2.5
{{},
{0, 32, 48, 56, 64, 80, 96, 112, 128, 144, 160, 176, 192, 224, 256, 0},
{0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160, 0},
{0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160, 0}
}
};
///
/// Mpeg samperate table.
///
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static const uint16_t SampleRateTable[4] = {
44100, 48000, 32000, 0
};
///
/// Fast check for Mpeg audio.
///
/// 4 bytes 0xFFExxxxx Mpeg audio
///
static inline int FastMpegCheck(const uint8_t * p)
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{
if (p[0] != 0xFF) { // 11bit frame sync
return 0;
}
if ((p[1] & 0xE0) != 0xE0) {
return 0;
}
if ((p[1] & 0x18) == 0x08) { // version ID - 01 reserved
return 0;
}
if (!(p[1] & 0x06)) { // layer description - 00 reserved
return 0;
}
if ((p[2] & 0xF0) == 0xF0) { // bitrate index - 1111 reserved
return 0;
}
if ((p[2] & 0x0C) == 0x0C) { // sampling rate index - 11 reserved
return 0;
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}
return 1;
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}
///
/// Check for Mpeg audio.
///
/// 0xFFEx already checked.
///
/// @param data incomplete PES packet
/// @param size number of bytes
///
/// @retval <0 possible mpeg audio, but need more data
/// @retval 0 no valid mpeg audio
/// @retval >0 valid mpeg audio
///
/// From: http://www.mpgedit.org/mpgedit/mpeg_format/mpeghdr.htm
///
/// AAAAAAAA AAABBCCD EEEEFFGH IIJJKLMM
///
/// o a 11x Frame sync
/// o b 2x Mpeg audio version (2.5, reserved, 2, 1)
/// o c 2x Layer (reserved, III, II, I)
/// o e 2x BitRate index
/// o f 2x SampleRate index (4100, 48000, 32000, 0)
/// o g 1x Paddding bit
/// o .. Doesn't care
///
/// frame length:
/// Layer I:
/// FrameLengthInBytes = (12 * BitRate / SampleRate + Padding) * 4
/// Layer II & III:
/// FrameLengthInBytes = 144 * BitRate / SampleRate + Padding
///
static int MpegCheck(const uint8_t * data, int size)
{
int mpeg2;
int mpeg25;
int layer;
int bit_rate_index;
int sample_rate_index;
int padding;
int bit_rate;
int sample_rate;
int frame_size;
mpeg2 = !(data[1] & 0x08) && (data[1] & 0x10);
mpeg25 = !(data[1] & 0x08) && !(data[1] & 0x10);
layer = 4 - ((data[1] >> 1) & 0x03);
bit_rate_index = (data[2] >> 4) & 0x0F;
sample_rate_index = (data[2] >> 2) & 0x03;
padding = (data[2] >> 1) & 0x01;
sample_rate = SampleRateTable[sample_rate_index];
if (!sample_rate) { // no valid sample rate try next
// moved into fast check
abort();
return 0;
}
sample_rate >>= mpeg2; // mpeg 2 half rate
sample_rate >>= mpeg25; // mpeg 2.5 quarter rate
bit_rate = BitRateTable[mpeg2 | mpeg25][layer][bit_rate_index];
if (!bit_rate) { // no valid bit-rate try next
// FIXME: move into fast check?
return 0;
}
bit_rate *= 1000;
switch (layer) {
case 1:
frame_size = (12 * bit_rate) / sample_rate;
frame_size = (frame_size + padding) * 4;
break;
case 2:
case 3:
default:
frame_size = (144 * bit_rate) / sample_rate;
frame_size = frame_size + padding;
break;
}
if (0) {
Debug(3,
"pesdemux: mpeg%s layer%d bitrate=%d samplerate=%d %d bytes\n",
mpeg25 ? "2.5" : mpeg2 ? "2" : "1", layer, bit_rate, sample_rate,
frame_size);
}
if (frame_size + 4 > size) {
return -frame_size - 4;
}
// check if after this frame a new mpeg frame starts
if (FastMpegCheck(data + frame_size)) {
return frame_size;
}
return 0;
}
///
/// Fast check for AAC LATM audio.
///
/// 3 bytes 0x56Exxx AAC LATM audio
///
static inline int FastLatmCheck(const uint8_t * p)
{
if (p[0] != 0x56) { // 11bit sync
return 0;
}
if ((p[1] & 0xE0) != 0xE0) {
return 0;
}
return 1;
}
///
/// Check for AAC LATM audio.
///
/// 0x56Exxx already checked.
///
/// @param data incomplete PES packet
/// @param size number of bytes
///
/// @retval <0 possible AAC LATM audio, but need more data
/// @retval 0 no valid AAC LATM audio
/// @retval >0 valid AAC LATM audio
///
static int LatmCheck(const uint8_t * data, int size)
{
int frame_size;
// 13 bit frame size without header
frame_size = ((data[1] & 0x1F) << 8) + data[2];
frame_size += 3;
if (frame_size + 2 > size) {
return -frame_size - 2;
}
// check if after this frame a new AAC LATM frame starts
if (FastLatmCheck(data + frame_size)) {
return frame_size;
}
return 0;
}
///
/// Possible AC3 frame sizes.
///
/// from ATSC A/52 table 5.18 frame size code table.
///
const uint16_t Ac3FrameSizeTable[38][3] = {
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{64, 69, 96}, {64, 70, 96}, {80, 87, 120}, {80, 88, 120},
{96, 104, 144}, {96, 105, 144}, {112, 121, 168}, {112, 122, 168},
{128, 139, 192}, {128, 140, 192}, {160, 174, 240}, {160, 175, 240},
{192, 208, 288}, {192, 209, 288}, {224, 243, 336}, {224, 244, 336},
{256, 278, 384}, {256, 279, 384}, {320, 348, 480}, {320, 349, 480},
{384, 417, 576}, {384, 418, 576}, {448, 487, 672}, {448, 488, 672},
{512, 557, 768}, {512, 558, 768}, {640, 696, 960}, {640, 697, 960},
{768, 835, 1152}, {768, 836, 1152}, {896, 975, 1344}, {896, 976, 1344},
{1024, 1114, 1536}, {1024, 1115, 1536}, {1152, 1253, 1728},
{1152, 1254, 1728}, {1280, 1393, 1920}, {1280, 1394, 1920},
};
///
/// Fast check for AC3 audio.
///
/// 5 bytes 0x0B77xxxxxx AC3 audio
///
static inline int FastAc3Check(const uint8_t * p)
{
if (p[0] != 0x0B) { // 16bit sync
return 0;
}
if (p[1] != 0x77) {
return 0;
}
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if ((p[4] & 0xC0) == 0xC0) { // invalid sample rate
return 0;
}
if ((p[4] & 0x3F) > 37) { // invalid frame size
return 0;
}
return 1;
}
///
/// Check for AC-3 audio.
///
/// 0x0B77xxxxxx already checked.
///
/// @param data incomplete PES packet
/// @param size number of bytes
///
/// @retval <0 possible AC-3 audio, but need more data
/// @retval 0 no valid AC-3 audio
/// @retval >0 valid AC-3 audio
///
static int Ac3Check(const uint8_t * data, int size)
{
int fscod;
int frmsizcod;
int frame_size;
// crc1 crc1 fscod|frmsizcod
fscod = data[4] >> 6;
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frmsizcod = data[4] & 0x3F; // invalid is checked by fast
frame_size = Ac3FrameSizeTable[frmsizcod][fscod] * 2;
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if (frame_size + 5 > size) {
return -frame_size - 5;
}
// check if after this frame a new AC-3 frame starts
if (FastAc3Check(data + frame_size)) {
return frame_size;
}
return 0;
}
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///
/// Fast check for ADTS Audio Data Transport Stream.
///
/// 7/9 bytes 0xFFFxxxxxxxxxxx(xxxx) ADTS audio
///
static inline int FastAdtsCheck(const uint8_t * p)
{
if (p[0] != 0xFF) { // 12bit sync
return 0;
}
if ((p[1] & 0xF6) != 0xF0) { // sync + layer must be 0
return 0;
}
if ((p[2] & 0x3C) == 0x3C) { // sampling frequency index != 15
return 0;
}
return 1;
}
///
/// Check for ADTS Audio Data Transport Stream.
///
/// 0xFFF already checked.
///
/// @param data incomplete PES packet
/// @param size number of bytes
///
/// @retval <0 possible ADTS audio, but need more data
/// @retval 0 no valid ADTS audio
/// @retval >0 valid AC-3 audio
///
/// AAAAAAAA AAAABCCD EEFFFFGH HHIJKLMM MMMMMMMM MMMOOOOO OOOOOOPP
/// (QQQQQQQQ QQQQQQQ)
///
/// o A*12 syncword 0xFFF
/// o B*1 MPEG Version: 0 for MPEG-4, 1 for MPEG-2
/// o C*2 layer: always 0
/// o ..
/// o F*4 sampling frequency index (15 is invalid)
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/// o ..
/// o M*13 frame length
///
static int AdtsCheck(const uint8_t * data, int size)
{
int frame_size;
if (size < 6) {
return -6;
}
frame_size = (data[3] & 0x03) << 11;
frame_size |= (data[4] & 0xFF) << 3;
frame_size |= (data[5] & 0xE0) >> 5;
if (frame_size + 3 > size) {
return -frame_size - 3;
}
// check if after this frame a new ADTS frame starts
if (FastAdtsCheck(data + frame_size)) {
return frame_size;
}
return 0;
}
#ifndef NO_TS_AUDIO
//////////////////////////////////////////////////////////////////////////////
// PES Demux
//////////////////////////////////////////////////////////////////////////////
///
/// PES type.
///
enum
{
PES_PROG_STREAM_MAP = 0xBC,
PES_PRIVATE_STREAM1 = 0xBD,
PES_PADDING_STREAM = 0xBE, ///< filler, padding stream
PES_PRIVATE_STREAM2 = 0xBF,
PES_AUDIO_STREAM_S = 0xC0,
PES_AUDIO_STREAM_E = 0xDF,
PES_VIDEO_STREAM_S = 0xE0,
PES_VIDEO_STREAM_E = 0xEF,
PES_ECM_STREAM = 0xF0,
PES_EMM_STREAM = 0xF1,
PES_DSM_CC_STREAM = 0xF2,
PES_ISO13522_STREAM = 0xF3,
PES_TYPE_E_STREAM = 0xF8, ///< ITU-T rec. h.222.1 type E stream
PES_PROG_STREAM_DIR = 0xFF,
};
///
/// PES parser state.
///
enum
{
PES_INIT, ///< unknown codec
PES_SKIP, ///< skip packet
PES_SYNC, ///< search packet sync byte
PES_HEADER, ///< copy header
PES_START, ///< pes packet start found
PES_PAYLOAD, ///< copy payload
PES_LPCM_HEADER, ///< copy lcpm header
PES_LPCM_PAYLOAD, ///< copy lcpm payload
};
#define PES_START_CODE_SIZE 6 ///< size of pes start code with length
#define PES_HEADER_SIZE 9 ///< size of pes header
#define PES_MAX_HEADER_SIZE (PES_HEADER_SIZE + 256) ///< maximal header size
#define PES_MAX_PAYLOAD (512 * 1024) ///< max pay load size
///
/// PES demuxer.
///
typedef struct _pes_demux_
{
//int Pid; ///< packet id
//int PcrPid; ///< program clock reference pid
//int StreamType; ///< stream type
int State; ///< parsing state
uint8_t Header[PES_MAX_HEADER_SIZE]; ///< buffer for pes header
int HeaderIndex; ///< header index
int HeaderSize; ///< size of pes header
uint8_t *Buffer; ///< payload buffer
int Index; ///< buffer index
int Skip; ///< buffer skip
int Size; ///< size of payload buffer
uint8_t StartCode; ///< pes packet start code
int64_t PTS; ///< presentation time stamp
int64_t DTS; ///< decode time stamp
} PesDemux;
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///
/// Reset packetized elementary stream demuxer.
///
static void PesReset(PesDemux * pesdx)
{
pesdx->State = PES_INIT;
pesdx->Index = 0;
pesdx->Skip = 0;
pesdx->StartCode = -1;
pesdx->PTS = AV_NOPTS_VALUE;
pesdx->DTS = AV_NOPTS_VALUE;
}
///
/// Initialize a packetized elementary stream demuxer.
///
/// @param pesdx packetized elementary stream demuxer
///
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static void PesInit(PesDemux * pesdx)
{
memset(pesdx, 0, sizeof(*pesdx));
pesdx->Size = PES_MAX_PAYLOAD;
pesdx->Buffer = av_malloc(PES_MAX_PAYLOAD + FF_INPUT_BUFFER_PADDING_SIZE);
if (!pesdx->Buffer) {
Fatal(_("pesdemux: out of memory\n"));
}
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PesReset(pesdx);
}
///
/// Parse packetized elementary stream.
///
/// @param pesdx packetized elementary stream demuxer
/// @param data payload data of transport stream
/// @param size number of payload data bytes
/// @param is_start flag, start of pes packet
///
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static void PesParse(PesDemux * pesdx, const uint8_t * data, int size,
int is_start)
{
const uint8_t *p;
const uint8_t *q;
if (is_start) { // start of pes packet
if (pesdx->Index && pesdx->Skip) {
// copy remaining bytes down
pesdx->Index -= pesdx->Skip;
memmove(pesdx->Buffer, pesdx->Buffer + pesdx->Skip, pesdx->Index);
pesdx->Skip = 0;
}
pesdx->State = PES_SYNC;
pesdx->HeaderIndex = 0;
pesdx->PTS = AV_NOPTS_VALUE; // reset if not yet used
pesdx->DTS = AV_NOPTS_VALUE;
}
// cleanup, if too much cruft
if (pesdx->Skip > PES_MAX_PAYLOAD / 2) {
// copy remaining bytes down
pesdx->Index -= pesdx->Skip;
memmove(pesdx->Buffer, pesdx->Buffer + pesdx->Skip, pesdx->Index);
pesdx->Skip = 0;
}
p = data;
do {
int n;
switch (pesdx->State) {
case PES_SKIP: // skip this packet
return;
case PES_START: // at start of pes packet payload
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#if 0
// Played with PlayAudio
// FIXME: need 0x80 -- 0xA0 state
if (AudioCodecID == CODEC_ID_NONE) {
if ((*p & 0xF0) == 0x80) { // AC-3 & DTS
Debug(3, "pesdemux: dvd ac-3\n");
} else if ((*p & 0xFF) == 0xA0) { // LPCM
Debug(3, "pesdemux: dvd lpcm\n");
pesdx->State = PES_LPCM_HEADER;
pesdx->HeaderIndex = 0;
pesdx->HeaderSize = 7;
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// FIXME: need harder LPCM check
//break;
}
}
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#endif
case PES_INIT: // find start of audio packet
// FIXME: increase if needed the buffer
// fill buffer
n = pesdx->Size - pesdx->Index;
if (n > size) {
n = size;
}
memcpy(pesdx->Buffer + pesdx->Index, p, n);
pesdx->Index += n;
p += n;
size -= n;
q = pesdx->Buffer + pesdx->Skip;
n = pesdx->Index - pesdx->Skip;
while (n >= 5) {
int r;
unsigned codec_id;
// 4 bytes 0xFFExxxxx Mpeg audio
// 5 bytes 0x0B77xxxxxx AC3 audio
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// 3 bytes 0x56Exxx AAC LATM audio
// 7/9 bytes 0xFFFxxxxxxxxxxx ADTS audio
// PCM audio can't be found
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// FIXME: simple+faster detection, if codec already known
r = 0;
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if (!r && FastMpegCheck(q)) {
r = MpegCheck(q, n);
codec_id = CODEC_ID_MP2;
}
if (!r && FastAc3Check(q)) {
r = Ac3Check(q, n);
codec_id = CODEC_ID_AC3;
}
if (!r && FastLatmCheck(q)) {
r = LatmCheck(q, n);
codec_id = CODEC_ID_AAC_LATM;
}
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if (!r && FastAdtsCheck(q)) {
r = AdtsCheck(q, n);
codec_id = CODEC_ID_AAC;
}
if (r < 0) { // need more bytes
break;
}
if (r > 0) {
AVPacket avpkt[1];
// new codec id, close and open new
if (AudioCodecID != codec_id) {
Debug(3, "pesdemux: new codec %#06x -> %#06x\n",
AudioCodecID, codec_id);
CodecAudioClose(MyAudioDecoder);
CodecAudioOpen(MyAudioDecoder, NULL, codec_id);
AudioCodecID = codec_id;
}
av_init_packet(avpkt);
avpkt->data = (void *)q;
avpkt->size = r;
avpkt->pts = pesdx->PTS;
avpkt->dts = pesdx->DTS;
CodecAudioDecode(MyAudioDecoder, avpkt);
pesdx->PTS = AV_NOPTS_VALUE;
pesdx->DTS = AV_NOPTS_VALUE;
pesdx->Skip += r;
// FIXME: switch to decoder state
//pesdx->State = PES_MPEG_DECODE;
break;
}
if (AudioCodecID != CODEC_ID_NONE) {
// shouldn't happen after we have a vaild codec
// detected
Debug(4, "pesdemux: skip @%d %02x\n", pesdx->Skip,
q[0]);
}
// try next byte
++pesdx->Skip;
++q;
--n;
}
break;
case PES_SYNC: // wait for pes sync
n = PES_START_CODE_SIZE - pesdx->HeaderIndex;
if (n > size) {
n = size;
}
memcpy(pesdx->Header + pesdx->HeaderIndex, p, n);
pesdx->HeaderIndex += n;
p += n;
size -= n;
// have complete packet start code
if (pesdx->HeaderIndex >= PES_START_CODE_SIZE) {
unsigned code;
// bad mpeg pes packet start code prefix 0x00001xx
if (pesdx->Header[0] || pesdx->Header[1]
|| pesdx->Header[2] != 0x01) {
Debug(3, "pesdemux: bad pes packet\n");
pesdx->State = PES_SKIP;
return;
}
code = pesdx->Header[3];
if (code != pesdx->StartCode) {
Debug(3, "pesdemux: pes start code id %#02x\n", code);
// FIXME: need to save start code id?
pesdx->StartCode = code;
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// we could have already detect a valid stream type
// don't switch to codec 'none'
}
pesdx->State = PES_HEADER;
pesdx->HeaderSize = PES_HEADER_SIZE;
}
break;
case PES_HEADER: // parse PES header
n = pesdx->HeaderSize - pesdx->HeaderIndex;
if (n > size) {
n = size;
}
memcpy(pesdx->Header + pesdx->HeaderIndex, p, n);
pesdx->HeaderIndex += n;
p += n;
size -= n;
// have header upto size bits
if (pesdx->HeaderIndex == PES_HEADER_SIZE) {
if ((pesdx->Header[6] & 0xC0) == 0x80) {
pesdx->HeaderSize += pesdx->Header[8];
} else {
Error(_("pesdemux: mpeg1 pes packet unsupported\n"));
pesdx->State = PES_SKIP;
return;
}
// have complete header
} else if (pesdx->HeaderIndex == pesdx->HeaderSize) {
int64_t pts;
int64_t dts;
if ((pesdx->Header[7] & 0xC0) == 0x80) {
pts =
(int64_t) (data[9] & 0x0E) << 29 | data[10] << 22 |
(data[11] & 0xFE) << 14 | data[12] << 7 | (data[13]
& 0xFE) >> 1;
Debug(4, "pesdemux: pts %#012" PRIx64 "\n", pts);
pesdx->PTS = pts;
} else if ((pesdx->Header[7] & 0xC0) == 0xC0) {
pts =
(int64_t) (data[9] & 0x0E) << 29 | data[10] << 22 |
(data[11] & 0xFE) << 14 | data[12] << 7 | (data[13]
& 0xFE) >> 1;
pesdx->PTS = pts;
dts =
(int64_t) (data[14] & 0x0E) << 29 | data[15] << 22
| (data[16] & 0xFE) << 14 | data[17] << 7 |
(data[18] & 0xFE) >> 1;
pesdx->DTS = dts;
Debug(4,
"pesdemux: pts %#012" PRIx64 " %#012" PRIx64 "\n",
pts, dts);
}
pesdx->State = PES_INIT;
if (pesdx->StartCode == PES_PRIVATE_STREAM1) {
// only private stream 1, has sub streams
pesdx->State = PES_START;
}
}
break;
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#if 0
// Played with PlayAudio
case PES_LPCM_HEADER: // lpcm header
n = pesdx->HeaderSize - pesdx->HeaderIndex;
if (n > size) {
n = size;
}
memcpy(pesdx->Header + pesdx->HeaderIndex, p, n);
pesdx->HeaderIndex += n;
p += n;
size -= n;
if (pesdx->HeaderIndex == pesdx->HeaderSize) {
static int samplerates[] = { 48000, 96000, 44100, 32000 };
int samplerate;
int channels;
int bits_per_sample;
const uint8_t *q;
if (AudioCodecID != CODEC_ID_PCM_DVD) {
q = pesdx->Header;
Debug(3, "pesdemux: LPCM %d sr:%d bits:%d chan:%d\n",
q[0], q[5] >> 4, (((q[5] >> 6) & 0x3) + 4) * 4,
(q[5] & 0x7) + 1);
CodecAudioClose(MyAudioDecoder);
bits_per_sample = (((q[5] >> 6) & 0x3) + 4) * 4;
if (bits_per_sample != 16) {
Error(_
("softhddev: LPCM %d bits per sample aren't supported\n"),
bits_per_sample);
// FIXME: handle unsupported formats.
}
samplerate = samplerates[q[5] >> 4];
channels = (q[5] & 0x7) + 1;
AudioSetup(&samplerate, &channels, 0);
if (samplerate != samplerates[q[5] >> 4]) {
Error(_
("softhddev: LPCM %d sample-rate is unsupported\n"),
samplerates[q[5] >> 4]);
// FIXME: support resample
}
if (channels != (q[5] & 0x7) + 1) {
Error(_
("softhddev: LPCM %d channels are unsupported\n"),
(q[5] & 0x7) + 1);
// FIXME: support resample
}
//CodecAudioOpen(MyAudioDecoder, NULL, CODEC_ID_PCM_DVD);
AudioCodecID = CODEC_ID_PCM_DVD;
}
pesdx->State = PES_LPCM_PAYLOAD;
pesdx->Index = 0;
pesdx->Skip = 0;
}
break;
case PES_LPCM_PAYLOAD: // lpcm payload
// fill buffer
n = pesdx->Size - pesdx->Index;
if (n > size) {
n = size;
}
memcpy(pesdx->Buffer + pesdx->Index, p, n);
pesdx->Index += n;
p += n;
size -= n;
if (pesdx->PTS != (int64_t) AV_NOPTS_VALUE) {
// FIXME: needs bigger buffer
AudioSetClock(pesdx->PTS);
pesdx->PTS = AV_NOPTS_VALUE;
}
swab(pesdx->Buffer, pesdx->Buffer, pesdx->Index);
AudioEnqueue(pesdx->Buffer, pesdx->Index);
pesdx->Index = 0;
break;
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#endif
}
} while (size > 0);
}
//////////////////////////////////////////////////////////////////////////////
// Transport stream demux
//////////////////////////////////////////////////////////////////////////////
/// Transport stream packet size
#define TS_PACKET_SIZE 188
/// Transport stream packet sync byte
#define TS_PACKET_SYNC 0x47
///
/// transport stream demuxer typedef.
///
typedef struct _ts_demux_ TsDemux;
///
/// transport stream demuxer structure.
///
struct _ts_demux_
{
int Packets; ///< packets between PCR
};
static PesDemux PesDemuxAudio[1]; ///< audio demuxer
///
/// Transport stream demuxer.
///
/// @param tsdx transport stream demuxer
/// @param data buffer of transport stream packets
/// @param size size of buffer
///
/// @returns number of bytes consumed from buffer.
///
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static int TsDemuxer(TsDemux * tsdx, const uint8_t * data, int size)
{
const uint8_t *p;
p = data;
while (size >= TS_PACKET_SIZE) {
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#ifdef DEBUG
int pid;
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#endif
int payload;
if (p[0] != TS_PACKET_SYNC) {
Error(_("tsdemux: transport stream out of sync\n"));
// FIXME: kill all buffers
return size;
}
++tsdx->Packets;
if (p[1] & 0x80) { // error indicator
Debug(3, "tsdemux: transport error\n");
// FIXME: kill all buffers
goto next_packet;
}
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#ifdef DEBUG
pid = (p[1] & 0x1F) << 8 | p[2];
Debug(4, "tsdemux: PID: %#04x%s%s\n", pid, p[1] & 0x40 ? " start" : "",
p[3] & 0x10 ? " payload" : "");
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#endif
// skip adaptation field
switch (p[3] & 0x30) { // adaption field
case 0x00: // reserved
case 0x20: // adaptation field only
default:
goto next_packet;
case 0x10: // only payload
payload = 4;
break;
case 0x30: // skip adapation field
payload = 5 + p[4];
// illegal length, ignore packet
if (payload >= TS_PACKET_SIZE) {
Debug(3, "tsdemux: illegal adaption field length\n");
goto next_packet;
}
break;
}
PesParse(PesDemuxAudio, p + payload, TS_PACKET_SIZE - payload,
p[1] & 0x40);
#if 0
int tmp;
// check continuity
tmp = p[3] & 0x0F; // continuity counter
if (((tsdx->CC + 1) & 0x0F) != tmp) {
Debug(3, "tsdemux: OUT OF SYNC: %d %d\n", tmp, tsdx->CC);
//TS discontinuity (received 8, expected 0) for PID
}
tsdx->CC = tmp;
#endif
next_packet:
p += TS_PACKET_SIZE;
size -= TS_PACKET_SIZE;
}
return p - data;
}
#endif
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/**
** Play audio packet.
**
** @param data data of exactly one complete PES packet
** @param size size of PES packet
** @param id PES packet type
*/
int PlayAudio(const uint8_t * data, int size, uint8_t id)
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{
int n;
const uint8_t *p;
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// channel switch: SetAudioChannelDevice: SetDigitalAudioDevice:
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if (SkipAudio || !MyAudioDecoder) { // skip audio
return size;
}
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if (StreamFreezed) { // stream freezed
return 0;
}
if (NewAudioStream) {
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// this clears the audio ringbuffer indirect, open and setup does it
CodecAudioClose(MyAudioDecoder);
AudioFlushBuffers();
AudioSetBufferTime(ConfigAudioBufferTime);
AudioCodecID = CODEC_ID_NONE;
AudioChannelID = -1;
NewAudioStream = 0;
}
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// hard limit buffer full: don't overrun audio buffers on replay
if (AudioFreeBytes() < AUDIO_MIN_BUFFER_FREE) {
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return 0;
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}
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// soft limit buffer full
if (AudioUsedBytes() > AUDIO_MIN_BUFFER_FREE && VideoGetBuffers() > 3) {
return 0;
}
// PES header 0x00 0x00 0x01 ID
// ID 0xBD 0xC0-0xCF
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// must be a PES start code
if (size < 9 || !data || data[0] || data[1] || data[2] != 0x01) {
Error(_("[softhddev] invalid PES audio packet\n"));
return size;
}
n = data[8]; // header size
if (size < 9 + n + 4) { // wrong size
if (size == 9 + n) {
Warning(_("[softhddev] empty audio packet\n"));
} else {
Error(_("[softhddev] invalid audio packet %d bytes\n"), size);
}
return size;
}
if (data[7] & 0x80 && n >= 5) {
AudioAvPkt->pts =
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(int64_t) (data[9] & 0x0E) << 29 | data[10] << 22 | (data[11] &
0xFE) << 14 | data[12] << 7 | (data[13] & 0xFE) >> 1;
//Debug(3, "audio: pts %#012" PRIx64 "\n", AudioAvPkt->pts);
}
if (0) { // dts is unused
if (data[7] & 0x40) {
AudioAvPkt->dts =
(int64_t) (data[14] & 0x0E) << 29 | data[15] << 22 | (data[16]
& 0xFE) << 14 | data[17] << 7 | (data[18] & 0xFE) >> 1;
Debug(3, "audio: dts %#012" PRIx64 "\n", AudioAvPkt->dts);
}
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}
p = data + 9 + n;
n = size - 9 - n; // skip pes header
if (n + AudioAvPkt->stream_index > AudioAvPkt->size) {
Fatal(_("[softhddev] audio buffer too small\n"));
AudioAvPkt->stream_index = 0;
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}
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if (AudioChannelID != id) { // id changed audio track changed
AudioChannelID = id;
AudioCodecID = CODEC_ID_NONE;
}
// Private stream + LPCM ID
if ((id & 0xF0) == 0xA0) {
if (n < 7) {
Error(_("[softhddev] invalid LPCM audio packet %d bytes\n"), size);
return size;
}
if (AudioCodecID != CODEC_ID_PCM_DVD) {
static int samplerates[] = { 48000, 96000, 44100, 32000 };
int samplerate;
int channels;
int bits_per_sample;
Debug(3, "[softhddev]%s: LPCM %d sr:%d bits:%d chan:%d\n",
__FUNCTION__, id, p[5] >> 4, (((p[5] >> 6) & 0x3) + 4) * 4,
(p[5] & 0x7) + 1);
CodecAudioClose(MyAudioDecoder);
bits_per_sample = (((p[5] >> 6) & 0x3) + 4) * 4;
if (bits_per_sample != 16) {
Error(_
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("[softhddev] LPCM %d bits per sample aren't supported\n"),
bits_per_sample);
// FIXME: handle unsupported formats.
}
samplerate = samplerates[p[5] >> 4];
channels = (p[5] & 0x7) + 1;
// FIXME: ConfigAudioBufferTime + x
AudioSetBufferTime(400);
AudioSetup(&samplerate, &channels, 0);
if (samplerate != samplerates[p[5] >> 4]) {
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Error(_("[softhddev] LPCM %d sample-rate is unsupported\n"),
samplerates[p[5] >> 4]);
// FIXME: support resample
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}
if (channels != (p[5] & 0x7) + 1) {
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Error(_("[softhddev] LPCM %d channels are unsupported\n"),
(p[5] & 0x7) + 1);
// FIXME: support resample
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}
//CodecAudioOpen(MyAudioDecoder, NULL, CODEC_ID_PCM_DVD);
AudioCodecID = CODEC_ID_PCM_DVD;
}
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if (AudioAvPkt->pts != (int64_t) AV_NOPTS_VALUE) {
AudioSetClock(AudioAvPkt->pts);
AudioAvPkt->pts = AV_NOPTS_VALUE;
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}
swab(p + 7, AudioAvPkt->data, n - 7);
AudioEnqueue(AudioAvPkt->data, n - 7);
return size;
}
// DVD track header
if ((id & 0xF0) == 0x80 && (p[0] & 0xF0) == 0x80) {
p += 4;
n -= 4; // skip track header
if (AudioCodecID == CODEC_ID_NONE) {
// FIXME: ConfigAudioBufferTime + x
AudioSetBufferTime(400);
}
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}
// append new packet, to partial old data
memcpy(AudioAvPkt->data + AudioAvPkt->stream_index, p, n);
AudioAvPkt->stream_index += n;
n = AudioAvPkt->stream_index;
p = AudioAvPkt->data;
while (n >= 5) {
int r;
unsigned codec_id;
// 4 bytes 0xFFExxxxx Mpeg audio
// 3 bytes 0x56Exxx AAC LATM audio
// 5 bytes 0x0B77xxxxxx AC3 audio
// 7/9 bytes 0xFFFxxxxxxxxxxx ADTS audio
// PCM audio can't be found
r = 0;
codec_id = CODEC_ID_NONE; // keep compiler happy
if (id != 0xbd && FastMpegCheck(p)) {
r = MpegCheck(p, n);
codec_id = CODEC_ID_MP2;
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}
if (id != 0xbd && !r && FastLatmCheck(p)) {
r = LatmCheck(p, n);
codec_id = CODEC_ID_AAC_LATM;
}
if ((id == 0xbd || (id & 0xF0) == 0x80) && !r && FastAc3Check(p)) {
r = Ac3Check(p, n);
codec_id = CODEC_ID_AC3;
/* faster ac3 detection at end of pes packet (no improvemnts)
if (AudioCodecID == codec_id && -r - 2 == n) {
r = n;
}
*/
}
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if (id != 0xbd && !r && FastAdtsCheck(p)) {
r = AdtsCheck(p, n);
codec_id = CODEC_ID_AAC;
}
if (r < 0) { // need more bytes
break;
}
if (r > 0) {
AVPacket avpkt[1];
// new codec id, close and open new
if (AudioCodecID != codec_id) {
CodecAudioClose(MyAudioDecoder);
CodecAudioOpen(MyAudioDecoder, NULL, codec_id);
AudioCodecID = codec_id;
}
av_init_packet(avpkt);
avpkt->data = (void *)p;
avpkt->size = r;
avpkt->pts = AudioAvPkt->pts;
avpkt->dts = AudioAvPkt->dts;
CodecAudioDecode(MyAudioDecoder, avpkt);
AudioAvPkt->pts = AV_NOPTS_VALUE;
AudioAvPkt->dts = AV_NOPTS_VALUE;
p += r;
n -= r;
continue;
}
++p;
--n;
}
// copy remaining bytes to start of packet
if (n) {
memmove(AudioAvPkt->data, p, n);
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}
AudioAvPkt->stream_index = n;
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return size;
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}
#ifndef NO_TS_AUDIO
/**
** Play transport stream audio packet.
**
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** VDR can have buffered data belonging to previous channel!
**
** @param data data of exactly one complete TS packet
** @param size size of TS packet (always TS_PACKET_SIZE)
**
** @returns number of bytes consumed;
*/
int PlayTsAudio(const uint8_t * data, int size)
{
static TsDemux tsdx[1];
if (SkipAudio || !MyAudioDecoder) { // skip audio
return size;
}
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if (StreamFreezed) { // stream freezed
return 0;
}
if (NewAudioStream) {
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// this clears the audio ringbuffer indirect, open and setup does it
CodecAudioClose(MyAudioDecoder);
AudioFlushBuffers();
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// max time between audio packets 200ms + 24ms hw buffer
AudioSetBufferTime(ConfigAudioBufferTime);
AudioCodecID = CODEC_ID_NONE;
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AudioChannelID = -1;
NewAudioStream = 0;
PesReset(PesDemuxAudio);
}
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// hard limit buffer full: don't overrun audio buffers on replay
if (AudioFreeBytes() < AUDIO_MIN_BUFFER_FREE) {
return 0;
}
// soft limit buffer full
if (AudioUsedBytes() > AUDIO_MIN_BUFFER_FREE && VideoGetBuffers() > 3) {
return 0;
}
return TsDemuxer(tsdx, data, size);
}
#endif
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/**
** Set volume of audio device.
**
** @param volume VDR volume (0 .. 255)
*/
void SetVolumeDevice(int volume)
{
AudioSetVolume((volume * 1000) / 255);
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}
//////////////////////////////////////////////////////////////////////////////
// Video
//////////////////////////////////////////////////////////////////////////////
#include <alsa/iatomic.h> // portable atomic_t
#ifdef DEBUG
uint32_t VideoSwitch; ///< debug video switch ticks
#endif
static volatile char NewVideoStream; ///< flag new video stream
static volatile char ClosingVideoStream; ///< flag closing video stream
static VideoHwDecoder *MyHwDecoder; ///< video hw decoder
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static VideoDecoder *MyVideoDecoder; ///< video decoder
static enum CodecID VideoCodecID; ///< current codec id
const char *X11DisplayName; ///< x11 display name
static volatile char Usr1Signal; ///< true got usr1 signal
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#define VIDEO_BUFFER_SIZE (512 * 1024) ///< video PES buffer default size
#define VIDEO_PACKET_MAX 192 ///< max number of video packets
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/// video PES packet ring buffer
static AVPacket VideoPacketRb[VIDEO_PACKET_MAX];
static int VideoPacketWrite; ///< write pointer
static int VideoPacketRead; ///< read pointer
static atomic_t VideoPacketsFilled; ///< how many of the buffer is used
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static volatile char VideoClearBuffers; ///< clear video buffers
static volatile char VideoClearClose; ///< clear video buffers upto close
static volatile char SkipVideo; ///< skip video
static volatile char CurrentTrickSpeed; ///< current trick speed
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#ifdef DEBUG
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static int VideoMaxPacketSize; ///< biggest used packet buffer
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#endif
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/**
** Initialize video packet ringbuffer.
*/
static void VideoPacketInit(void)
{
int i;
for (i = 0; i < VIDEO_PACKET_MAX; ++i) {
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AVPacket *avpkt;
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avpkt = &VideoPacketRb[i];
// build a clean ffmpeg av packet
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if (av_new_packet(avpkt, VIDEO_BUFFER_SIZE)) {
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Fatal(_("[softhddev] out of memory\n"));
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}
avpkt->priv = NULL;
}
atomic_set(&VideoPacketsFilled, 0);
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VideoPacketRead = VideoPacketWrite = 0;
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}
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/**
** Cleanup video packet ringbuffer.
*/
static void VideoPacketExit(void)
{
int i;
atomic_set(&VideoPacketsFilled, 0);
for (i = 0; i < VIDEO_PACKET_MAX; ++i) {
av_free_packet(&VideoPacketRb[i]);
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}
}
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/**
** Place video data in packet ringbuffer.
2011-12-26 14:27:12 +01:00
**
** @param pts presentation timestamp of pes packet
** @param data data of pes packet
** @param data size of pes packet
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*/
static void VideoEnqueue(int64_t pts, const void *data, int size)
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{
AVPacket *avpkt;
// Debug(3, "video: enqueue %d\n", size);
avpkt = &VideoPacketRb[VideoPacketWrite];
if (!avpkt->stream_index) { // add pts only for first added
avpkt->pts = pts;
}
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if (avpkt->stream_index + size >= avpkt->size) {
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Warning(_("video: packet buffer too small for %d\n"),
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avpkt->stream_index + size);
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2011-12-26 14:27:12 +01:00
// new + grow reserves FF_INPUT_BUFFER_PADDING_SIZE
av_grow_packet(avpkt, ((size + VIDEO_BUFFER_SIZE / 2)
2011-12-29 00:55:57 +01:00
/ (VIDEO_BUFFER_SIZE / 2)) * (VIDEO_BUFFER_SIZE / 2));
2012-02-12 16:57:32 +01:00
// FIXME: out of memory!
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#ifdef DEBUG
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if (avpkt->size <= avpkt->stream_index + size) {
fprintf(stderr, "%d %d %d\n", avpkt->size, avpkt->stream_index,
size);
fflush(stderr);
abort();
}
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#endif
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}
memcpy(avpkt->data + avpkt->stream_index, data, size);
avpkt->stream_index += size;
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#ifdef DEBUG
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if (avpkt->stream_index > VideoMaxPacketSize) {
VideoMaxPacketSize = avpkt->stream_index;
Debug(3, "video: max used PES packet size: %d\n", VideoMaxPacketSize);
}
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#endif
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}
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/**
** Reset current packet.
*/
static void VideoResetPacket(void)
{
AVPacket *avpkt;
avpkt = &VideoPacketRb[VideoPacketWrite];
avpkt->stream_index = 0;
avpkt->pts = AV_NOPTS_VALUE;
avpkt->dts = AV_NOPTS_VALUE;
}
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/**
** Finish current packet advance to next.
**
** @param codec_id codec id of packet (MPEG/H264)
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*/
static void VideoNextPacket(int codec_id)
{
AVPacket *avpkt;
avpkt = &VideoPacketRb[VideoPacketWrite];
if (!avpkt->stream_index) { // ignore empty packets
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if (codec_id != CODEC_ID_NONE) {
return;
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}
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Debug(3, "video: possible stream change loss\n");
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}
if (atomic_read(&VideoPacketsFilled) >= VIDEO_PACKET_MAX - 1) {
// no free slot available drop last packet
Error(_("video: no empty slot in packet ringbuffer\n"));
avpkt->stream_index = 0;
if (codec_id == CODEC_ID_NONE) {
Debug(3, "video: possible stream change loss\n");
}
return;
}
// clear area for decoder, always enough space allocated
memset(avpkt->data + avpkt->stream_index, 0, FF_INPUT_BUFFER_PADDING_SIZE);
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2011-12-07 15:05:38 +01:00
avpkt->priv = (void *)(size_t) codec_id;
//H264Dump(avpkt->data, avpkt->stream_index);
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// advance packet write
VideoPacketWrite = (VideoPacketWrite + 1) % VIDEO_PACKET_MAX;
atomic_inc(&VideoPacketsFilled);
VideoDisplayWakeup();
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// intialize next package to use
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VideoResetPacket();
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}
/**
** Fix packet for FFMpeg.
**
** Some tv-stations sends mulitple pictures in a singe PES packet.
** Current ffmpeg 0.10 and libav-0.8 has problems with this.
** Split the packet into single picture packets.
*/
void FixPacketForFFMpeg(VideoDecoder * MyVideoDecoder, AVPacket * avpkt)
{
uint8_t *p;
int n;
AVPacket tmp[1];
int first;
p = avpkt->data;
n = avpkt->size;
*tmp = *avpkt;
first = 1;
while (n > 4) {
// scan for picture header 0x00000100
if (!p[0] && !p[1] && p[2] == 0x01 && !p[3]) {
if (first) {
first = 0;
n -= 4;
p += 4;
continue;
}
// packet has already an picture header
tmp->size = p - tmp->data;
CodecVideoDecode(MyVideoDecoder, tmp);
// time-stamp only valid for first packet
tmp->pts = AV_NOPTS_VALUE;
tmp->dts = AV_NOPTS_VALUE;
tmp->data = p;
tmp->size = n;
}
--n;
++p;
}
CodecVideoDecode(MyVideoDecoder, tmp);
}
/**
** Poll PES packet ringbuffer.
**
** Called if video frame buffers are full.
*/
int VideoPollInput(void)
{
if (VideoClearBuffers) {
atomic_set(&VideoPacketsFilled, 0);
VideoPacketRead = VideoPacketWrite;
if (MyVideoDecoder) {
CodecVideoFlushBuffers(MyVideoDecoder);
VideoResetStart(MyHwDecoder);
}
VideoClearBuffers = 0;
return 1;
}
if (!atomic_read(&VideoPacketsFilled)) {
return -1;
}
return 1;
}
2011-12-07 15:05:38 +01:00
/**
** Decode from PES packet ringbuffer.
**
** @retval 0 packet decoded
** @retval 1 stream paused
** @retval -1 empty stream
2011-12-07 15:05:38 +01:00
*/
int VideoDecodeInput(void)
2011-12-07 15:05:38 +01:00
{
int filled;
AVPacket *avpkt;
int saved_size;
static int last_codec_id = CODEC_ID_NONE;
2011-12-14 18:01:03 +01:00
if (VideoClearBuffers) {
atomic_set(&VideoPacketsFilled, 0);
2012-01-08 21:46:00 +01:00
VideoPacketRead = VideoPacketWrite;
if (MyVideoDecoder) {
CodecVideoFlushBuffers(MyVideoDecoder);
VideoResetStart(MyHwDecoder);
2012-01-08 21:46:00 +01:00
}
2011-12-14 18:01:03 +01:00
VideoClearBuffers = 0;
return 1;
}
if (StreamFreezed) { // stream freezed
// clear is called during freezed
return 1;
}
2011-12-14 18:01:03 +01:00
2011-12-07 15:05:38 +01:00
filled = atomic_read(&VideoPacketsFilled);
if (!filled) {
return -1;
}
// clearing for normal channel switch has no advantage
if (VideoClearClose /*|| ClosingVideoStream */ ) {
int f;
// flush buffers, if close is in the queue
for (f = 0; f < filled; ++f) {
avpkt = &VideoPacketRb[(VideoPacketRead + f) % VIDEO_PACKET_MAX];
if ((int)(size_t) avpkt->priv == CODEC_ID_NONE) {
if (f) {
Debug(3, "video: cleared upto close\n");
atomic_sub(f, &VideoPacketsFilled);
VideoPacketRead = (VideoPacketRead + f) % VIDEO_PACKET_MAX;
VideoClearClose = 0;
}
break;
2012-03-03 16:11:38 +01:00
}
}
ClosingVideoStream = 0;
}
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avpkt = &VideoPacketRb[VideoPacketRead];
//
// handle queued commands
//
switch ((int)(size_t) avpkt->priv) {
case CODEC_ID_NONE:
ClosingVideoStream = 0;
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if (last_codec_id != CODEC_ID_NONE) {
last_codec_id = CODEC_ID_NONE;
CodecVideoClose(MyVideoDecoder);
goto skip;
}
// FIXME: look if more close are in the queue
2012-01-22 22:46:52 +01:00
// size can be zero
goto skip;
2011-12-07 15:05:38 +01:00
case CODEC_ID_MPEG2VIDEO:
if (last_codec_id != CODEC_ID_MPEG2VIDEO) {
last_codec_id = CODEC_ID_MPEG2VIDEO;
2011-12-23 19:33:30 +01:00
CodecVideoOpen(MyVideoDecoder,
ConfigVdpauDecoder ? "mpegvideo_vdpau" : NULL,
2011-12-07 15:05:38 +01:00
CODEC_ID_MPEG2VIDEO);
}
break;
case CODEC_ID_H264:
if (last_codec_id != CODEC_ID_H264) {
last_codec_id = CODEC_ID_H264;
2011-12-23 19:33:30 +01:00
CodecVideoOpen(MyVideoDecoder,
ConfigVdpauDecoder ? "h264video_vdpau" : NULL,
2011-12-07 15:05:38 +01:00
CODEC_ID_H264);
}
break;
default:
break;
}
// avcodec_decode_video2 needs size
saved_size = avpkt->size;
avpkt->size = avpkt->stream_index;
avpkt->stream_index = 0;
if (last_codec_id == CODEC_ID_MPEG2VIDEO) {
FixPacketForFFMpeg(MyVideoDecoder, avpkt);
} else {
CodecVideoDecode(MyVideoDecoder, avpkt);
}
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avpkt->size = saved_size;
skip:
// advance packet read
VideoPacketRead = (VideoPacketRead + 1) % VIDEO_PACKET_MAX;
atomic_dec(&VideoPacketsFilled);
return 0;
}
/**
** Get number of video buffers.
*/
int VideoGetBuffers(void)
{
return atomic_read(&VideoPacketsFilled);
}
2011-12-07 15:05:38 +01:00
/**
** Try video start.
**
2012-01-13 16:31:29 +01:00
** NOT TRUE: Could be called, when already started.
2011-12-07 15:05:38 +01:00
*/
static void StartVideo(void)
{
VideoInit(X11DisplayName);
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if (ConfigFullscreen) {
// FIXME: not good looking, mapped and then resized.
VideoSetFullscreen(1);
}
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VideoOsdInit();
if (!MyVideoDecoder) {
if ((MyHwDecoder = VideoNewHwDecoder())) {
MyVideoDecoder = CodecVideoNewDecoder(MyHwDecoder);
2011-12-07 15:05:38 +01:00
}
2012-01-11 18:01:18 +01:00
VideoCodecID = CODEC_ID_NONE;
2011-12-07 15:05:38 +01:00
}
VideoPacketInit();
}
/**
** Stop video.
*/
static void StopVideo(void)
{
VideoOsdExit();
VideoExit();
if (MyVideoDecoder) {
// FIXME: this can crash, hw decoder released by video exit
CodecVideoClose(MyVideoDecoder);
CodecVideoDelDecoder(MyVideoDecoder);
MyVideoDecoder = NULL;
}
if (MyHwDecoder) {
// done by exit: VideoDelHwDecoder(MyHwDecoder);
MyHwDecoder = NULL;
}
VideoPacketExit();
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NewVideoStream = 1;
}
#ifdef DEBUG
/**
** Dump h264 video packet.
**
** Function to Dump a h264 packet, not needed.
*/
static int H264Dump(const uint8_t * data, int size)
{
printf("H264:");
do {
if (size < 4) {
printf("\n");
return -1;
}
if (!data[0] && !data[1] && data[2] == 0x01) {
printf("%02x ", data[3]);
}
++data;
--size;
} while (size);
printf("\n");
return 0;
}
/**
** Validate mpeg video packet.
**
** Function to validate a mpeg packet, not needed.
*/
static int ValidateMpeg(const uint8_t * data, int size)
{
int pes_l;
do {
if (size < 9) {
return -1;
}
if (data[0] || data[1] || data[2] != 0x01) {
printf("%02x: %02x %02x %02x %02x %02x\n", data[-1], data[0],
data[1], data[2], data[3], data[4]);
return -1;
}
pes_l = (data[4] << 8) | data[5];
if (!pes_l) { // contains unknown length
return 1;
}
if (6 + pes_l > size) {
return -1;
}
data += 6 + pes_l;
size -= 6 + pes_l;
} while (size);
return 0;
}
#endif
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/**
** Play video packet.
**
** @param data data of exactly one complete PES packet
** @param size size of PES packet
**
** @return number of bytes used, 0 if internal buffer are full.
**
2011-12-07 15:05:38 +01:00
** @note vdr sends incomplete packets, va-api h264 decoder only
** supports complete packets.
** We buffer here until we receive an complete PES Packet, which
** is no problem, the audio is always far behind us.
2012-01-19 00:16:15 +01:00
** cTsToPes::GetPes splits the packets.
**
** @todo FIXME: combine the 5 ifs at start of the function
2011-12-07 15:05:38 +01:00
*/
int PlayVideo(const uint8_t * data, int size)
2011-12-07 15:05:38 +01:00
{
const uint8_t *check;
int64_t pts;
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int n;
int z;
int l;
2011-12-07 15:05:38 +01:00
if (!MyVideoDecoder) { // no x11 video started
return size;
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}
if (SkipVideo) { // skip video
return size;
}
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if (StreamFreezed) { // stream freezed
return 0;
}
if (NewVideoStream) { // channel switched
Debug(3, "video: new stream %dms\n", GetMsTicks() - VideoSwitch);
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// FIXME: hack to test results
if (atomic_read(&VideoPacketsFilled) >= VIDEO_PACKET_MAX - 1) {
2011-12-26 14:27:12 +01:00
Debug(3, "video: new video stream lost\n");
NewVideoStream = 0;
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return 0;
}
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VideoNextPacket(CODEC_ID_NONE);
VideoCodecID = CODEC_ID_NONE;
ClosingVideoStream = 1;
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NewVideoStream = 0;
}
// must be a PES start code
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if (size < 9 || !data || data[0] || data[1] || data[2] != 0x01) {
2011-12-07 15:05:38 +01:00
Error(_("[softhddev] invalid PES video packet\n"));
return size;
2011-12-07 15:05:38 +01:00
}
// 0xBE, filler, padding stream
if (data[3] == PES_PADDING_STREAM) { // from DVD plugin
return size;
}
n = data[8]; // header size
if (size <= 9 + n) { // wrong size
if (size == 9 + n) {
Warning(_("[softhddev] empty video packet\n"));
} else {
Error(_("[softhddev] invalid video packet %d/%d bytes\n"), 9 + n,
size);
}
return size;
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}
2012-04-05 15:47:59 +02:00
// hard limit buffer full: needed for replay
if (atomic_read(&VideoPacketsFilled) >= VIDEO_PACKET_MAX - 3) {
return 0;
}
2012-04-05 15:47:59 +02:00
// soft limit buffer full
if (atomic_read(&VideoPacketsFilled) > 3
&& AudioUsedBytes() > AUDIO_MIN_BUFFER_FREE) {
return 0;
}
// get pts/dts
2011-12-07 15:05:38 +01:00
pts = AV_NOPTS_VALUE;
if (data[7] & 0x80) {
pts =
(int64_t) (data[9] & 0x0E) << 29 | data[10] << 22 | (data[11] &
0xFE) << 14 | data[12] << 7 | (data[13] & 0xFE) >> 1;
2011-12-07 15:05:38 +01:00
}
check = data + 9 + n;
l = size - 9 - n;
z = 0;
while (!*check) { // count leading zeros
if (l < 3) {
2012-02-14 15:12:48 +01:00
Warning(_("[softhddev] empty video packet %d bytes\n"), size);
z = 0;
break;
}
--l;
++check;
++z;
}
// H264 NAL AUD Access Unit Delimiter 0x00 0x00 0x00 0x01 0x09
if ((data[6] & 0xC0) == 0x80 && z > 2 && check[0] == 0x01
&& check[1] == 0x09) {
if (VideoCodecID == CODEC_ID_H264) {
if (CurrentTrickSpeed && pts != (int64_t) AV_NOPTS_VALUE) {
// H264 NAL End of Sequence
static uint8_t seq_end_h264[] =
{ 0x00, 0x00, 0x00, 0x01, 0x0A };
// NAL SPS sequence parameter set
if ((check[7] & 0x1F) == 0x07) {
VideoNextPacket(CODEC_ID_H264);
VideoEnqueue(AV_NOPTS_VALUE, seq_end_h264,
sizeof(seq_end_h264));
}
}
VideoNextPacket(CODEC_ID_H264);
} else {
Debug(3, "video: h264 detected\n");
VideoCodecID = CODEC_ID_H264;
}
// SKIP PES header
2012-02-15 22:19:50 +01:00
VideoEnqueue(pts, check - 3, l + 3);
return size;
}
// PES start code 0x00 0x00 0x01
if (z > 1 && check[0] == 0x01) {
if (VideoCodecID == CODEC_ID_MPEG2VIDEO) {
VideoNextPacket(CODEC_ID_MPEG2VIDEO);
} else {
Debug(3, "video: mpeg2 detected ID %02x\n", check[3]);
VideoCodecID = CODEC_ID_MPEG2VIDEO;
}
#ifdef DEBUG
if (ValidateMpeg(data, size)) {
Debug(3, "softhddev/video: invalid mpeg2 video packet\n");
}
#endif
// SKIP PES header, begin of start code
VideoEnqueue(pts, check - z, l + z);
return size;
2011-12-07 15:05:38 +01:00
}
// this happens when vdr sends incomplete packets
if (VideoCodecID == CODEC_ID_NONE) {
Debug(3, "video: not detected\n");
return size;
}
// SKIP PES header
VideoEnqueue(pts, data + 9 + n, size - 9 - n);
// incomplete packets produce artefacts after channel switch
// packet < 65526 is the last split packet, detect it here for
// better latency
if (size < 65526 && VideoCodecID == CODEC_ID_MPEG2VIDEO) {
// mpeg codec supports incomplete packets
// waiting for a full complete packages, increases needed delays
VideoNextPacket(CODEC_ID_MPEG2VIDEO);
}
return size;
2011-12-07 15:05:38 +01:00
}
/// call VDR support function
extern uint8_t *CreateJpeg(uint8_t *, int *, int, int, int);
#if defined(USE_JPEG) && JPEG_LIB_VERSION >= 80
2012-01-24 22:40:06 +01:00
/**
** Create a jpeg image in memory.
**
** @param image raw RGB image
** @param raw_size size of raw image
** @param size[out] size of jpeg image
** @param quality jpeg quality
** @param width number of horizontal pixels in image
** @param height number of vertical pixels in image
**
** @returns allocated jpeg image.
*/
2012-01-24 22:40:06 +01:00
uint8_t *CreateJpeg(uint8_t * image, int raw_size, int *size, int quality,
int width, int height)
{
struct jpeg_compress_struct cinfo;
struct jpeg_error_mgr jerr;
JSAMPROW row_ptr[1];
int row_stride;
uint8_t *outbuf;
long unsigned int outsize;
outbuf = NULL;
outsize = 0;
cinfo.err = jpeg_std_error(&jerr);
jpeg_create_compress(&cinfo);
jpeg_mem_dest(&cinfo, &outbuf, &outsize);
cinfo.image_width = width;
cinfo.image_height = height;
cinfo.input_components = raw_size / height / width;
cinfo.in_color_space = JCS_RGB;
jpeg_set_defaults(&cinfo);
jpeg_set_quality(&cinfo, quality, TRUE);
jpeg_start_compress(&cinfo, TRUE);
row_stride = width * 3;
while (cinfo.next_scanline < cinfo.image_height) {
row_ptr[0] = &image[cinfo.next_scanline * row_stride];
jpeg_write_scanlines(&cinfo, row_ptr, 1);
}
jpeg_finish_compress(&cinfo);
jpeg_destroy_compress(&cinfo);
*size = outsize;
return outbuf;
}
#endif
2012-01-20 21:46:22 +01:00
/**
** Grabs the currently visible screen image.
**
** @param size size of the returned data
** @param jpeg flag true, create JPEG data
** @param quality JPEG quality
** @param width number of horizontal pixels in the frame
** @param height number of vertical pixels in the frame
*/
uint8_t *GrabImage(int *size, int jpeg, int quality, int width, int height)
{
if (jpeg) {
uint8_t *image;
int raw_size;
2012-01-24 22:40:06 +01:00
raw_size = 0;
2012-01-24 22:40:06 +01:00
image = VideoGrab(&raw_size, &width, &height, 0);
if (image) { // can fail, suspended, ...
uint8_t *jpg_image;
jpg_image = CreateJpeg(image, size, quality, width, height);
free(image);
return jpg_image;
}
return NULL;
2012-01-20 21:46:22 +01:00
}
2012-01-24 22:40:06 +01:00
return VideoGrab(size, &width, &height, 1);
2012-01-20 21:46:22 +01:00
}
2011-12-07 15:05:38 +01:00
//////////////////////////////////////////////////////////////////////////////
/**
** Set play mode, called on channel switch.
**
** @param play_mode play mode (none, video+audio, audio-only, ...)
2011-12-07 15:05:38 +01:00
*/
int SetPlayMode(int play_mode)
2011-12-07 15:05:38 +01:00
{
VideoDisplayWakeup();
if (MyVideoDecoder) { // tell video parser we have new stream
2011-12-07 15:05:38 +01:00
if (VideoCodecID != CODEC_ID_NONE) {
NewVideoStream = 1;
// tell hw decoder we are closing stream
VideoSetClosing(MyHwDecoder);
2012-05-09 20:16:46 +02:00
VideoResetStart(MyHwDecoder);
#ifdef DEBUG
2011-12-07 15:05:38 +01:00
VideoSwitch = GetMsTicks();
#endif
2011-12-07 15:05:38 +01:00
}
}
if (MyAudioDecoder) { // tell audio parser we have new stream
2012-01-08 21:46:00 +01:00
if (AudioCodecID != CODEC_ID_NONE) {
NewAudioStream = 1;
}
2011-12-07 15:05:38 +01:00
}
switch (play_mode) {
case 1: // audio/video from player
break;
case 2: // audio only
Debug(3, "softhddev: FIXME: audio only, silence video errors\n");
break;
case 3: // audio only, black screen
Debug(3, "softhddev: FIXME: audio only, silence video errors\n");
break;
case 4: // video only
break;
}
2012-02-16 15:31:53 +01:00
Play();
return 1;
2012-02-16 15:31:53 +01:00
}
/**
** Gets the current System Time Counter, which can be used to
** synchronize audio, video and subtitles.
*/
int64_t GetSTC(void)
{
if (MyHwDecoder) {
return VideoGetClock(MyHwDecoder);
}
Error(_("softhddev: %s called without hw decoder\n"), __FUNCTION__);
return AV_NOPTS_VALUE;
}
2012-02-16 15:31:53 +01:00
/**
** Set trick play speed.
**
** Every single frame shall then be displayed the given number of
** times.
**
** @param speed trick speed
*/
void TrickSpeed(int speed)
{
CurrentTrickSpeed = speed;
if (MyHwDecoder) {
VideoSetTrickSpeed(MyHwDecoder, speed);
} else {
// can happen, during startup
Debug(3, "softhddev: %s called without hw decoder\n", __FUNCTION__);
}
2012-02-12 20:14:43 +01:00
StreamFreezed = 0;
2011-12-07 15:05:38 +01:00
}
2011-12-14 18:01:03 +01:00
/**
** Clears all video and audio data from the device.
*/
void Clear(void)
{
2012-01-08 21:46:00 +01:00
int i;
2012-02-14 15:12:48 +01:00
VideoResetPacket(); // terminate work
//closing not reset:
//VideoSetClosing(MyHwDecoder);
2012-05-09 20:16:46 +02:00
VideoResetStart(MyHwDecoder);
2011-12-14 18:01:03 +01:00
VideoClearBuffers = 1;
2012-01-08 21:46:00 +01:00
AudioFlushBuffers();
2012-02-15 22:19:50 +01:00
//NewAudioStream = 1;
2012-02-14 15:12:48 +01:00
// FIXME: audio avcodec_flush_buffers, video is done by VideoClearBuffers
2012-01-08 21:46:00 +01:00
// wait for empty buffers
2012-05-09 20:16:46 +02:00
// FIXME: without softstart sync VideoDecode isn't called.
2012-01-08 21:46:00 +01:00
for (i = 0; VideoClearBuffers && i < 20; ++i) {
usleep(1 * 1000);
}
2012-05-09 20:16:46 +02:00
Debug(3, "[softhddev]%s: %dms buffers %d\n", __FUNCTION__, i,
VideoGetBuffers());
2011-12-14 18:01:03 +01:00
}
/**
** Sets the device into play mode.
*/
void Play(void)
{
TrickSpeed(0); // normal play
2012-01-08 21:46:00 +01:00
SkipAudio = 0;
2012-02-12 20:14:43 +01:00
AudioPlay();
2011-12-14 18:01:03 +01:00
}
/**
** Sets the device into "freeze frame" mode.
*/
void Freeze(void)
{
2012-02-12 20:14:43 +01:00
StreamFreezed = 1;
AudioPause();
2012-01-08 21:46:00 +01:00
}
2012-02-16 15:31:53 +01:00
/**
** Turns off audio while replaying.
*/
void Mute(void)
{
SkipAudio = 1;
AudioFlushBuffers();
//AudioSetVolume(0);
}
2012-01-08 21:46:00 +01:00
/**
** Display the given I-frame as a still picture.
2012-02-12 16:57:32 +01:00
**
** @param data pes frame data
** @param size number of bytes in frame
2012-01-08 21:46:00 +01:00
*/
void StillPicture(const uint8_t * data, int size)
{
int i;
2012-01-24 16:37:11 +01:00
static uint8_t seq_end_mpeg[] = { 0x00, 0x00, 0x01, 0xB7 };
// H264 NAL End of Sequence
static uint8_t seq_end_h264[] = { 0x00, 0x00, 0x00, 0x01, 0x0A };
2012-01-08 21:46:00 +01:00
// must be a PES start code
if (size < 9 || !data || data[0] || data[1] || data[2] != 0x01) {
2012-01-24 16:37:11 +01:00
Error(_("[softhddev] invalid still video packet\n"));
2012-01-08 21:46:00 +01:00
return;
}
2012-02-12 16:57:32 +01:00
if (VideoCodecID == CODEC_ID_NONE) {
// FIXME: should detect codec, see PlayVideo
Error(_("[softhddev] no codec known for still picture\n"));
}
// FIXME: can check video backend, if a frame was produced.
// output for max reference frames
for (i = 0; i < (VideoCodecID == CODEC_ID_MPEG2VIDEO ? 3 : 17); ++i) {
2012-01-24 16:37:11 +01:00
const uint8_t *split;
int n;
// FIXME: vdr pes recordings sends mixed audio/video
2012-02-12 16:57:32 +01:00
if ((data[3] & 0xF0) == 0xE0) { // PES packet
split = data;
n = size;
// split the I-frame into single pes packets
do {
int len;
2012-01-24 16:37:11 +01:00
#ifdef DEBUG
if (split[0] || split[1] || split[2] != 0x01) {
Error(_("[softhddev] invalid still video packet\n"));
break;
}
#endif
2012-02-12 16:57:32 +01:00
len = (split[4] << 8) + split[5];
if (!len || len + 6 > n) {
// video only
if ((data[3] & 0xF0) == 0xE0) {
while (!PlayVideo(split, n)) { // feed remaining bytes
}
}
2012-02-12 16:57:32 +01:00
break;
}
if ((data[3] & 0xF0) == 0xE0) {
// video only
while (!PlayVideo(split, len + 6)) { // feed it
}
}
2012-02-12 16:57:32 +01:00
split += 6 + len;
n -= 6 + len;
} while (n > 6);
2012-02-12 16:57:32 +01:00
VideoNextPacket(VideoCodecID); // terminate last packet
if (VideoCodecID == CODEC_ID_H264) {
VideoEnqueue(AV_NOPTS_VALUE, seq_end_h264,
sizeof(seq_end_h264));
} else {
VideoEnqueue(AV_NOPTS_VALUE, seq_end_mpeg,
sizeof(seq_end_mpeg));
2012-01-24 16:37:11 +01:00
}
2012-02-12 16:57:32 +01:00
VideoNextPacket(VideoCodecID); // terminate last packet
} else { // ES packet
2012-01-24 16:37:11 +01:00
2012-02-12 16:57:32 +01:00
if (VideoCodecID != CODEC_ID_MPEG2VIDEO) {
VideoNextPacket(CODEC_ID_NONE); // close last stream
VideoCodecID = CODEC_ID_MPEG2VIDEO;
}
VideoEnqueue(AV_NOPTS_VALUE, data, size);
2012-01-24 16:37:11 +01:00
VideoEnqueue(AV_NOPTS_VALUE, seq_end_mpeg, sizeof(seq_end_mpeg));
2012-02-12 16:57:32 +01:00
VideoNextPacket(VideoCodecID); // terminate last packet
2012-01-24 16:37:11 +01:00
}
}
// wait for empty buffers
for (i = 0; VideoGetBuffers() && i < 30; ++i) {
usleep(10 * 1000);
}
Debug(3, "[softhddev]%s: buffers %d\n", __FUNCTION__, VideoGetBuffers());
2011-12-14 18:01:03 +01:00
}
/**
** Poll if device is ready. Called by replay.
2012-01-08 21:46:00 +01:00
**
** This function is useless, the return value is ignored and
** all buffers are overrun by vdr.
**
** The dvd plugin is using this correct.
**
2012-01-08 21:46:00 +01:00
** @param timeout timeout to become ready in ms
**
** @retval true if ready
** @retval false if busy
*/
int Poll(int timeout)
{
// poll is only called during replay, flush buffers after replay
VideoClearClose = 1;
for (;;) {
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#if 0
int empty;
int t;
// buffers are too full
empty = atomic_read(&VideoPacketsFilled) < VIDEO_PACKET_MAX * 1 / 4
|| AudioUsedBytes() < AUDIO_MIN_BUFFER_FREE * 2;
if (empty || !timeout) {
return empty;
}
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#else
int full;
int t;
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int used;
int filled;
used = AudioUsedBytes();
filled = atomic_read(&VideoPacketsFilled);
// soft limit + hard limit
full = (used > AUDIO_MIN_BUFFER_FREE && filled > 3)
|| AudioFreeBytes() < AUDIO_MIN_BUFFER_FREE
|| filled >= VIDEO_PACKET_MAX - 3;
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if (!full || !timeout) {
return !full;
}
#endif
t = 15;
if (timeout < t) {
t = timeout;
}
usleep(t * 1000); // let display thread work
timeout -= t;
}
}
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/**
** Flush the device output buffers.
**
** @param timeout timeout to flush in ms
*/
int Flush(int timeout)
{
if (atomic_read(&VideoPacketsFilled)) {
if (timeout) { // let display thread work
usleep(timeout * 1000);
}
return !atomic_read(&VideoPacketsFilled);
}
return 1;
}
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//////////////////////////////////////////////////////////////////////////////
// OSD
//////////////////////////////////////////////////////////////////////////////
/**
** Get OSD size and aspect.
**
** @param width[OUT] width of OSD
** @param height[OUT] height of OSD
** @param aspect[OUT] aspect ratio (4/3, 16/9, ...) of OSD
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*/
void GetOsdSize(int *width, int *height, double *aspect)
{
#ifdef DEBUG
static int done_width;
static int done_height;
#endif
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VideoGetOsdSize(width, height);
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*aspect = 16.0 / 9.0 / (double)*width * (double)*height;
#ifdef DEBUG
if (done_width != *width || done_height != *height) {
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Debug(3, "[softhddev]%s: %dx%d %g\n", __FUNCTION__, *width, *height,
*aspect);
done_width = *width;
done_height = *height;
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}
#endif
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}
/**
** Close OSD.
*/
void OsdClose(void)
{
VideoOsdClear();
}
/**
** Draw an OSD pixmap.
**
** @param x x-coordinate on screen of argb image
** @param y y-coordinate on screen of argb image
** @paran height height in pixel of argb image
** @paran width width in pixel of argb image
** @param argb height * width 32bit ARGB image data
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*/
void OsdDrawARGB(int x, int y, int height, int width, const uint8_t * argb)
{
// wakeup display for showing remote learning dialog
VideoDisplayWakeup();
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VideoOsdDrawARGB(x, y, height, width, argb);
}
//////////////////////////////////////////////////////////////////////////////
/**
** Return command line help string.
*/
const char *CommandLineHelp(void)
{
return " -a device\taudio device (fe. alsa: hw:0,0 oss: /dev/dsp)\n"
" -p device\taudio device for pass-through (hw:0,1 or /dev/dsp1)\n"
" -c channel\taudio mixer channel name (fe. PCM)\n"
" -d display\tdisplay of x11 server (fe. :0.0)\n"
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" -f\t\tstart with fullscreen window (only with window manager)\n"
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" -g geometry\tx11 window geometry wxh+x+y\n"
" -v device\tvideo device (va-api, vdpau, noop)\n"
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" -s\t\tstart in suspended mode\n" " -x\t\tstart x11 server\n"
" -w workaround\tenable/disable workarounds\n"
"\tno-hw-decoder\t\tdisable hw decoder, use software decoder only\n"
"\tno-mpeg-hw-decoder\tdisable hw decoder for mpeg only\n"
"\talsa-driver-broken\tdisable broken alsa driver message\n"
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"\tignore-repeat-pict\tdisable repeat pict message\n"
" -D\t\tstart in detached mode\n";
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}
/**
** Process the command line arguments.
**
** @param argc number of arguments
** @param argv arguments vector
*/
int ProcessArgs(int argc, char *const argv[])
{
//
// Parse arguments.
//
for (;;) {
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switch (getopt(argc, argv, "-a:c:d:fg:p:sv:w:xD")) {
case 'a': // audio device for pcm
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AudioSetDevice(optarg);
continue;
case 'c': // channel of audio mixer
AudioSetChannel(optarg);
continue;
case 'p': // pass-through audio device
AudioSetDeviceAC3(optarg);
continue;
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case 'd': // x11 display name
X11DisplayName = optarg;
continue;
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case 'f': // fullscreen mode
ConfigFullscreen = 1;
continue;
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case 'g': // geometry
if (VideoSetGeometry(optarg) < 0) {
fprintf(stderr,
_
("Bad formated geometry please use: [=][<width>{xX}<height>][{+-}<xoffset>{+-}<yoffset>]\n"));
return 0;
}
continue;
case 'v': // video driver
VideoSetDevice(optarg);
#ifdef USE_VDPAU
// FIXME: this is a big hack
ConfigVdpauDecoder = !strcasecmp(optarg, "vdpau");
#endif
continue;
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case 'x': // x11 server
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ConfigStartX11Server = 1;
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continue;
case 's': // start in suspend mode
ConfigStartSuspended = 1;
continue;
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case 'D': // start in detached mode
ConfigStartSuspended = -1;
continue;
case 'w': // workarounds
if (!strcasecmp("no-hw-decoder", optarg)) {
VideoHardwareDecoder = 0;
} else if (!strcasecmp("no-mpeg-hw-decoder", optarg)) {
VideoHardwareDecoder = 1;
} else if (!strcasecmp("alsa-driver-broken", optarg)) {
AudioAlsaDriverBroken = 1;
} else if (!strcasecmp("ignore-repeat-pict", optarg)) {
VideoIgnoreRepeatPict = 1;
} else {
fprintf(stderr, _("Workaround '%s' unsupported\n"),
optarg);
return 0;
}
continue;
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case EOF:
break;
case '-':
fprintf(stderr, _("We need no long options\n"));
return 0;
case ':':
fprintf(stderr, _("Missing argument for option '%c'\n"),
optopt);
return 0;
default:
fprintf(stderr, _("Unkown option '%c'\n"), optopt);
return 0;
}
break;
}
while (optind < argc) {
fprintf(stderr, _("Unhandled argument '%s'\n"), argv[optind++]);
}
return 1;
}
//////////////////////////////////////////////////////////////////////////////
// Init/Exit
//////////////////////////////////////////////////////////////////////////////
#include <sys/types.h>
#include <sys/wait.h>
#define XSERVER_MAX_ARGS 512 ///< how many arguments support
static const char *X11Server = "/usr/bin/X"; ///< default x11 server
static const char *X11ServerArguments; ///< default command arguments
static pid_t X11ServerPid; ///< x11 server pid
/**
** USR1 signal handler.
**
** @param sig signal number
*/
static void Usr1Handler(int __attribute__ ((unused)) sig)
{
++Usr1Signal;
Debug(3, "x-setup: got signal usr1\n");
}
/**
** Start the X server
*/
static void StartXServer(void)
{
struct sigaction usr1;
pid_t pid;
const char *sval;
const char *args[XSERVER_MAX_ARGS];
int argn;
char *buf;
// X server
if (X11Server) {
args[0] = X11Server;
} else {
Error(_("x-setup: No X server configured!\n"));
return;
}
argn = 1;
if (X11DisplayName) { // append display name
args[argn++] = X11DisplayName;
// export display for childs
setenv("DISPLAY", X11DisplayName, 1);
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}
// split X server arguments string into words
if ((sval = X11ServerArguments)) {
char *s;
s = buf = strdupa(sval);
while ((sval = strsep(&s, " \t"))) {
args[argn++] = sval;
if (argn == XSERVER_MAX_ARGS - 1) { // argument overflow
Error(_("x-setup: too many arguments for xserver\n"));
// argn = 1;
break;
}
}
}
// FIXME: auth
// FIXME: append VTxx
args[argn] = NULL;
// arm the signal
memset(&usr1, 0, sizeof(struct sigaction));
usr1.sa_handler = Usr1Handler;
sigaction(SIGUSR1, &usr1, NULL);
Debug(3, "x-setup: Starting X server '%s' '%s'\n", args[0],
X11ServerArguments);
// fork
if ((pid = vfork())) { // parent
X11ServerPid = pid;
Debug(3, "x-setup: Started x-server pid=%d\n", X11ServerPid);
return;
}
// child
signal(SIGUSR1, SIG_IGN); // ignore to force answer
//setpgid(0,getpid());
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// start the X server
execvp(args[0], (char *const *)args);
Error(_("x-setup: Failed to start X server '%s'\n"), args[0]);
exit(-1);
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}
/**
** Exit + cleanup.
*/
void SoftHdDeviceExit(void)
{
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// lets hope that vdr does a good thread cleanup
AudioExit();
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if (MyAudioDecoder) {
CodecAudioClose(MyAudioDecoder);
CodecAudioDelDecoder(MyAudioDecoder);
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MyAudioDecoder = NULL;
}
NewAudioStream = 0;
av_free_packet(AudioAvPkt);
StopVideo();
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CodecExit();
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if (ConfigStartX11Server) {
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Debug(3, "x-setup: Stop x11 server\n");
if (X11ServerPid) {
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int waittime;
int timeout;
pid_t wpid;
int status;
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kill(X11ServerPid, SIGTERM);
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waittime = 0;
timeout = 500; // 0.5s
// wait for x11 finishing, with timeout
do {
wpid = waitpid(X11ServerPid, &status, WNOHANG);
if (wpid) {
break;
}
if (waittime++ < timeout) {
usleep(1 * 1000);
continue;
}
kill(X11ServerPid, SIGKILL);
} while (waittime < timeout);
if (wpid && WIFEXITED(status)) {
Debug(3, "x-setup: x11 server exited (%d)\n",
WEXITSTATUS(status));
}
if (wpid && WIFSIGNALED(status)) {
Debug(3, "x-setup: x11 server killed (%d)\n",
WTERMSIG(status));
}
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}
}
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pthread_mutex_destroy(&SuspendLockMutex);
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}
/**
** Prepare plugin.
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**
** @retval 0 normal start
** @retval 1 suspended start
** @retval -1 detached start
*/
int Start(void)
{
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if (ConfigStartX11Server) {
StartXServer();
}
CodecInit();
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if (!ConfigStartSuspended) {
// FIXME: AudioInit for HDMI after X11 startup
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// StartAudio();
AudioInit();
av_new_packet(AudioAvPkt, AUDIO_BUFFER_SIZE);
MyAudioDecoder = CodecAudioNewDecoder();
AudioCodecID = CODEC_ID_NONE;
AudioChannelID = -1;
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if (!ConfigStartX11Server) {
StartVideo();
}
} else {
SkipVideo = 1;
SkipAudio = 1;
}
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pthread_mutex_init(&SuspendLockMutex, NULL);
#ifndef NO_TS_AUDIO
PesInit(PesDemuxAudio);
#endif
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Info(_("[softhddev] ready%s\n"),
ConfigStartSuspended ? ConfigStartSuspended ==
-1 ? "detached" : " suspended" : "");
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return ConfigStartSuspended;
}
/**
** Stop plugin.
**
** @note stop everything, but don't cleanup, module is still called.
*/
void Stop(void)
{
#ifdef DEBUG
Debug(3, "video: max used PES packet size: %d\n", VideoMaxPacketSize);
#endif
}
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/**
** Perform any cleanup or other regular tasks.
*/
void Housekeeping(void)
{
}
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/**
** Main thread hook, periodic called from main thread.
*/
void MainThreadHook(void)
{
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if (Usr1Signal) { // x11 server ready
// FIYME: x11 server keeps sending sigusr1 signals
signal(SIGUSR1, SIG_IGN); // ignore further signals
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Usr1Signal = 0;
StartVideo();
VideoDisplayWakeup();
}
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}
//////////////////////////////////////////////////////////////////////////////
// Suspend/Resume
//////////////////////////////////////////////////////////////////////////////
/**
** Suspend plugin.
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**
** @param video suspend closes video
** @param audio suspend closes audio
** @param dox11 suspend closes x11 server
*/
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void Suspend(int video, int audio, int dox11)
{
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pthread_mutex_lock(&SuspendLockMutex);
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if (SkipVideo && SkipAudio) { // already suspended
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pthread_mutex_unlock(&SuspendLockMutex);
return;
}
Debug(3, "[softhddev]%s:\n", __FUNCTION__);
SkipVideo = 1;
SkipAudio = 1;
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if (audio) {
AudioExit();
if (MyAudioDecoder) {
CodecAudioClose(MyAudioDecoder);
CodecAudioDelDecoder(MyAudioDecoder);
MyAudioDecoder = NULL;
}
NewAudioStream = 0;
av_free_packet(AudioAvPkt);
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}
if (video) {
StopVideo();
}
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if (dox11) {
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// FIXME: stop x11, if started
}
pthread_mutex_unlock(&SuspendLockMutex);
}
/**
** Resume plugin.
*/
void Resume(void)
{
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if (!SkipVideo && !SkipAudio) { // we are not suspended
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return;
}
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Debug(3, "[softhddev]%s:\n", __FUNCTION__);
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pthread_mutex_lock(&SuspendLockMutex);
// FIXME: start x11
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if (!MyHwDecoder) { // video not running
StartVideo();
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}
if (!MyAudioDecoder) { // audio not running
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// StartAudio();
AudioInit();
av_new_packet(AudioAvPkt, AUDIO_BUFFER_SIZE);
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MyAudioDecoder = CodecAudioNewDecoder();
AudioCodecID = CODEC_ID_NONE;
AudioChannelID = -1;
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}
SkipVideo = 0;
SkipAudio = 0;
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pthread_mutex_unlock(&SuspendLockMutex);
}
/*
** Get decoder statistics.
**
** @param[out] missed missed frames
** @param[out] duped duped frames
** @param[out] dropped dropped frames
** @param[out] count number of decoded frames
*/
void GetStats(int *missed, int *duped, int *dropped, int *counter)
{
*missed = 0;
*duped = 0;
*dropped = 0;
*counter = 0;
if (MyHwDecoder) {
VideoGetStats(MyHwDecoder, missed, duped, dropped, counter);
}
}