/** * Copyright 2012-2023 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, are * permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, this list * of conditions and the following disclaimer in the documentation and/or other materials * provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * The views and conclusions contained in the software and documentation are those of the * authors and should not be interpreted as representing official policies, either expressed * or implied, of JogAmp Community. */ // #define FF_FUNC(METHOD) Java_jogamp_opengl_util_av_impl_FFMPEGv08 ## METHOD #include "JoglCommon.h" #include "ffmpeg_tool.h" #include "ffmpeg_static.h" #include "ffmpeg_dshow.h" #include #define HAS_FUNC(f) (NULL!=(f)) typedef unsigned (APIENTRYP AVUTIL_VERSION)(void); typedef unsigned (APIENTRYP AVFORMAT_VERSION)(void); typedef unsigned (APIENTRYP AVCODEC_VERSION)(void); typedef unsigned (APIENTRYP AVDEVICE_VERSION)(void); typedef unsigned (APIENTRYP SWRESAMPLE_VERSION)(void); static AVUTIL_VERSION sp_avutil_version; static AVFORMAT_VERSION sp_avformat_version; static AVCODEC_VERSION sp_avcodec_version; static AVDEVICE_VERSION sp_avdevice_version; static SWRESAMPLE_VERSION sp_swresample_version; // count: 5 // libavcodec typedef int (APIENTRYP AVCODEC_CLOSE)(AVCodecContext *avctx); typedef void (APIENTRYP AVCODEC_STRING)(char *buf, int buf_size, AVCodecContext *enc, int encode); typedef AVCodec *(APIENTRYP AVCODEC_FIND_DECODER)(enum AVCodecID avCodecID); // lavc 53: 'enum CodecID id', lavc 54: 'enum AVCodecID id' typedef AVCodecContext* (APIENTRYP AVCODEC_ALLOC_CONTEXT3)(const AVCodec* codec); typedef void (APIENTRYP AVCODEC_FREE_CONTEXT)(AVCodecContext** avctx); typedef int (APIENTRYP AVCODEC_PARAMTERS_TO_CONTEXT)(AVCodecContext *codec, const AVCodecParameters *par); typedef int (APIENTRYP AVCODEC_OPEN2)(AVCodecContext *avctx, AVCodec *codec, AVDictionary **options); // 53.6.0 typedef AVFrame *(APIENTRYP AV_FRAME_ALLOC)(void); // 55.28.1 typedef void (APIENTRYP AV_FREE_FRAME)(AVFrame **frame); // 55.28.1 typedef int (APIENTRYP AVCODEC_DEFAULT_GET_BUFFER2)(AVCodecContext *s, AVFrame *frame, int flags); // 55. typedef int (APIENTRYP AV_IMAGE_FILL_LINESIZES)(int linesizes[4], enum AVPixelFormat pix_fmt, int width); // lavu 51: 'enum PixelFormat pix_fmt', lavu 53: 'enum AVPixelFormat pix_fmt' typedef void (APIENTRYP AVCODEC_FLUSH_BUFFERS)(AVCodecContext *avctx); typedef AVPacket* (APIENTRYP AV_PACKET_ALLOC)(void); typedef void (APIENTRYP AV_PACKET_FREE)(AVPacket **pkt); typedef int (APIENTRYP AV_NEW_PACKET)(AVPacket *pkt, int size); typedef void (APIENTRYP AV_PACKET_UNREF)(AVPacket *pkt); typedef int (APIENTRYP AVCODEC_SEND_PACKET)(AVCodecContext *avctx, AVPacket *avpkt); // 57 typedef int (APIENTRYP AVCODEC_RECEIVE_FRAME)(AVCodecContext *avctx, AVFrame *picture); // 57 static AVCODEC_CLOSE sp_avcodec_close; static AVCODEC_STRING sp_avcodec_string; static AVCODEC_FIND_DECODER sp_avcodec_find_decoder; static AVCODEC_ALLOC_CONTEXT3 sp_avcodec_alloc_context3; static AVCODEC_FREE_CONTEXT sp_avcodec_free_context; static AVCODEC_PARAMTERS_TO_CONTEXT sp_avcodec_parameters_to_context; static AVCODEC_OPEN2 sp_avcodec_open2; // 53.6.0 static AV_FRAME_ALLOC sp_av_frame_alloc; // 55.28.1 static AV_FREE_FRAME sp_av_free_frame; // 55.28.1 static AVCODEC_DEFAULT_GET_BUFFER2 sp_avcodec_default_get_buffer2; // 55. static AV_IMAGE_FILL_LINESIZES sp_av_image_fill_linesizes; static AVCODEC_FLUSH_BUFFERS sp_avcodec_flush_buffers; static AV_PACKET_ALLOC sp_av_packet_alloc; // sp_av_init_packet static AV_PACKET_FREE sp_av_packet_free; static AV_NEW_PACKET sp_av_new_packet; static AV_PACKET_UNREF sp_av_packet_unref; static AVCODEC_SEND_PACKET sp_avcodec_send_packet; // 57 static AVCODEC_RECEIVE_FRAME sp_avcodec_receive_frame; // 57 // count: +18 = 23 // libavutil typedef AVPixFmtDescriptor* (APIENTRYP AV_PIX_FMT_DESC_GET)(enum AVPixelFormat pix_fmt); // lavu >= 51.45; lavu 51: 'enum PixelFormat pix_fmt', lavu 53: 'enum AVPixelFormat pix_fmt' typedef void (APIENTRYP AV_FRAME_UNREF)(AVFrame *frame); typedef void* (APIENTRYP AV_REALLOC)(void *ptr, size_t size); typedef void (APIENTRYP AV_FREE)(void *ptr); typedef int (APIENTRYP AV_GET_BITS_PER_PIXEL)(const AVPixFmtDescriptor *pixdesc); typedef int (APIENTRYP AV_SAMPLES_GET_BUFFER_SIZE)(int *linesize, int nb_channels, int nb_samples, enum AVSampleFormat sample_fmt, int align); typedef int (APIENTRYP AV_GET_BYTES_PER_SAMPLE)(enum AVSampleFormat sample_fmt); typedef int (APIENTRYP AV_OPT_SET_INT)(void *obj, const char *name, int64_t val, int search_flags); typedef AVDictionaryEntry* (APIENTRYP AV_DICT_GET)(AVDictionary *m, const char *key, const AVDictionaryEntry *prev, int flags); typedef int (APIENTRYP AV_DICT_COUNT)(AVDictionary *m); typedef int (APIENTRYP AV_DICT_SET)(AVDictionary **pm, const char *key, const char *value, int flags); typedef void (APIENTRYP AV_DICT_FREE)(AVDictionary **m); typedef void (APIENTRYP AV_CHANNEL_LAYOUT_DEFAULT)(AVChannelLayoutPtr ch_layout, int nb_channels); typedef void (APIENTRYP AV_CHANNEL_LAYOUT_UNINIT)(AVChannelLayoutPtr ch_layout); typedef int (APIENTRYP AV_CHANNEL_LAYOUT_DESCRIBE)(AVChannelLayoutPtr ch_layout, char* buf, size_t buf_size); typedef int (APIENTRYP AV_OPT_SET_CHLAYOUT)(void *obj, const char *name, const AVChannelLayoutPtr val, int search_flags); static AV_PIX_FMT_DESC_GET sp_av_pix_fmt_desc_get; static AV_FRAME_UNREF sp_av_frame_unref; static AV_REALLOC sp_av_realloc; static AV_FREE sp_av_free; static AV_GET_BITS_PER_PIXEL sp_av_get_bits_per_pixel; static AV_SAMPLES_GET_BUFFER_SIZE sp_av_samples_get_buffer_size; static AV_GET_BYTES_PER_SAMPLE sp_av_get_bytes_per_sample; static AV_OPT_SET_INT sp_av_opt_set_int; static AV_DICT_GET sp_av_dict_get; static AV_DICT_COUNT sp_av_dict_count; static AV_DICT_SET sp_av_dict_set; static AV_DICT_FREE sp_av_dict_free; static AV_CHANNEL_LAYOUT_DEFAULT sp_av_channel_layout_default; // >= 59 static AV_CHANNEL_LAYOUT_UNINIT sp_av_channel_layout_uninit; // >= 59 static AV_CHANNEL_LAYOUT_DESCRIBE sp_av_channel_layout_describe; // >= 59 static AV_OPT_SET_CHLAYOUT sp_av_opt_set_chlayout; // >= 59 // count: +16 = 39 // libavformat typedef AVFormatContext *(APIENTRYP AVFORMAT_ALLOC_CONTEXT)(void); typedef void (APIENTRYP AVFORMAT_FREE_CONTEXT)(AVFormatContext *s); // 52.96.0 typedef void (APIENTRYP AVFORMAT_CLOSE_INPUT)(AVFormatContext **s); // 53.17.0 typedef AVInputFormat *(APIENTRYP AV_FIND_INPUT_FORMAT)(const char *short_name); typedef int (APIENTRYP AVFORMAT_OPEN_INPUT)(AVFormatContext **ps, const char *filename, AVInputFormat *fmt, AVDictionary **options); typedef void (APIENTRYP AV_DUMP_FORMAT)(AVFormatContext *ic, int index, const char *url, int is_output); typedef int (APIENTRYP AV_READ_FRAME)(AVFormatContext *s, AVPacket *pkt); typedef int (APIENTRYP AV_SEEK_FRAME)(AVFormatContext *s, int stream_index, int64_t timestamp, int flags); typedef int (APIENTRYP AVFORMAT_SEEK_FILE)(AVFormatContext *s, int stream_index, int64_t min_ts, int64_t ts, int64_t max_ts, int flags); typedef int (APIENTRYP AV_READ_PLAY)(AVFormatContext *s); typedef int (APIENTRYP AV_READ_PAUSE)(AVFormatContext *s); typedef int (APIENTRYP AVFORMAT_NETWORK_INIT)(void); // 53.13.0 typedef int (APIENTRYP AVFORMAT_NETWORK_DEINIT)(void); // 53.13.0 typedef int (APIENTRYP AVFORMAT_FIND_STREAM_INFO)(AVFormatContext *ic, AVDictionary **options); // 53.3.0 static AVFORMAT_ALLOC_CONTEXT sp_avformat_alloc_context; static AVFORMAT_FREE_CONTEXT sp_avformat_free_context; // 52.96.0 (not used, only for outfile cts) static AVFORMAT_CLOSE_INPUT sp_avformat_close_input; // 53.17.0 static AV_FIND_INPUT_FORMAT sp_av_find_input_format; static AVFORMAT_OPEN_INPUT sp_avformat_open_input; static AV_DUMP_FORMAT sp_av_dump_format; static AV_READ_FRAME sp_av_read_frame; static AV_SEEK_FRAME sp_av_seek_frame; static AVFORMAT_SEEK_FILE sp_avformat_seek_file; static AV_READ_PLAY sp_av_read_play; static AV_READ_PAUSE sp_av_read_pause; static AVFORMAT_NETWORK_INIT sp_avformat_network_init; // 53.13.0 static AVFORMAT_NETWORK_DEINIT sp_avformat_network_deinit; // 53.13.0 static AVFORMAT_FIND_STREAM_INFO sp_avformat_find_stream_info; // 53.3.0 // count: +14 = 53 // libavdevice [53.0.0] typedef int (APIENTRYP AVDEVICE_REGISTER_ALL)(void); static AVDEVICE_REGISTER_ALL sp_avdevice_register_all; // count: +1 = 54 // libswresample [1...] typedef int (APIENTRYP AV_OPT_SET_SAMPLE_FMT)(void *obj, const char *name, enum AVSampleFormat fmt, int search_flags); // actually lavu .. but exist only w/ swresample! typedef struct SwrContext *(APIENTRYP SWR_ALLOC)(void); typedef int (APIENTRYP SWR_INIT)(struct SwrContext *s); typedef void (APIENTRYP SWR_FREE)(struct SwrContext **s); typedef int (APIENTRYP SWR_CONVERT)(struct SwrContext *s, uint8_t **out, int out_count, const uint8_t **in , int in_count); static AV_OPT_SET_SAMPLE_FMT sp_av_opt_set_sample_fmt; static SWR_ALLOC sp_swr_alloc; static SWR_INIT sp_swr_init; static SWR_FREE sp_swr_free; static SWR_CONVERT sp_swr_convert; // count: +5 = 59 // We use JNI Monitor Locking, since this removes the need // to statically link-in pthreads on window .. // #define USE_PTHREAD_LOCKING 1 // #define USE_JNI_LOCKING 1 #if defined (USE_PTHREAD_LOCKING) #include #warning USE LOCKING PTHREAD static pthread_mutex_t mutex_avcodec_openclose; #define MY_MUTEX_LOCK(e,s) pthread_mutex_lock(&(s)) #define MY_MUTEX_UNLOCK(e,s) pthread_mutex_unlock(&(s)) #elif defined (USE_JNI_LOCKING) static jobject mutex_avcodec_openclose; #define MY_MUTEX_LOCK(e,s) (*e)->MonitorEnter(e, s) #define MY_MUTEX_UNLOCK(e,s) (*e)->MonitorExit(e, s) #else #warning USE LOCKING NONE #define MY_MUTEX_LOCK(e,s) #define MY_MUTEX_UNLOCK(e,s) #endif #define SYMBOL_COUNT 59 JNIEXPORT jboolean JNICALL FF_FUNC(initSymbols0) (JNIEnv *env, jobject instance, jobject jmutex_avcodec_openclose, jobject jSymbols, jint count) { #ifdef USE_PTHREAD_LOCKING pthread_mutexattr_t renderLockAttr; #endif int64_t* symbols; // jlong -> int64_t -> intptr_t -> FUNC_PTR int i; if(SYMBOL_COUNT != count) { fprintf(stderr, "FFMPEGNatives.initSymbols0: Wrong symbol count: Expected %d, Is %d\n", SYMBOL_COUNT, count); return JNI_FALSE; } JoglCommon_init(env); i = 0; symbols = (int64_t *) (*env)->GetPrimitiveArrayCritical(env, jSymbols, NULL); sp_avutil_version = (AVUTIL_VERSION) (intptr_t) symbols[i++]; sp_avformat_version = (AVFORMAT_VERSION) (intptr_t) symbols[i++]; sp_avcodec_version = (AVCODEC_VERSION) (intptr_t) symbols[i++]; sp_avdevice_version = (AVDEVICE_VERSION) (intptr_t) symbols[i++]; sp_swresample_version = (SWRESAMPLE_VERSION) (intptr_t) symbols[i++]; sp_avcodec_close = (AVCODEC_CLOSE) (intptr_t) symbols[i++]; sp_avcodec_string = (AVCODEC_STRING) (intptr_t) symbols[i++]; sp_avcodec_find_decoder = (AVCODEC_FIND_DECODER) (intptr_t) symbols[i++]; sp_avcodec_alloc_context3 = (AVCODEC_ALLOC_CONTEXT3) (intptr_t) symbols[i++]; sp_avcodec_free_context = (AVCODEC_FREE_CONTEXT) (intptr_t) symbols[i++]; sp_avcodec_parameters_to_context = (AVCODEC_PARAMTERS_TO_CONTEXT) (intptr_t) symbols[i++]; sp_avcodec_open2 = (AVCODEC_OPEN2) (intptr_t) symbols[i++]; sp_av_frame_alloc = (AV_FRAME_ALLOC) (intptr_t) symbols[i++]; sp_av_free_frame = (AV_FREE_FRAME) (intptr_t) symbols[i++]; sp_avcodec_default_get_buffer2 = (AVCODEC_DEFAULT_GET_BUFFER2) (intptr_t) symbols[i++]; sp_av_image_fill_linesizes = (AV_IMAGE_FILL_LINESIZES) (intptr_t) symbols[i++]; sp_avcodec_flush_buffers = (AVCODEC_FLUSH_BUFFERS) (intptr_t) symbols[i++]; sp_av_packet_alloc = (AV_PACKET_ALLOC) (intptr_t) symbols[i++]; sp_av_packet_free = (AV_PACKET_FREE) (intptr_t) symbols[i++]; sp_av_new_packet = (AV_NEW_PACKET) (intptr_t) symbols[i++]; sp_av_packet_unref = (AV_PACKET_UNREF) (intptr_t) symbols[i++]; sp_avcodec_send_packet = (AVCODEC_SEND_PACKET) (intptr_t) symbols[i++]; sp_avcodec_receive_frame = (AVCODEC_RECEIVE_FRAME) (intptr_t) symbols[i++]; sp_av_pix_fmt_desc_get = (AV_PIX_FMT_DESC_GET) (intptr_t) symbols[i++]; sp_av_frame_unref = (AV_FRAME_UNREF) (intptr_t) symbols[i++]; sp_av_realloc = (AV_REALLOC) (intptr_t) symbols[i++]; sp_av_free = (AV_FREE) (intptr_t) symbols[i++]; sp_av_get_bits_per_pixel = (AV_GET_BITS_PER_PIXEL) (intptr_t) symbols[i++]; sp_av_samples_get_buffer_size = (AV_SAMPLES_GET_BUFFER_SIZE) (intptr_t) symbols[i++]; sp_av_get_bytes_per_sample = (AV_GET_BYTES_PER_SAMPLE) (intptr_t) symbols[i++]; sp_av_opt_set_int = (AV_OPT_SET_INT) (intptr_t) symbols[i++]; sp_av_dict_get = (AV_DICT_GET) (intptr_t) symbols[i++]; sp_av_dict_count = (AV_DICT_COUNT) (intptr_t) symbols[i++]; sp_av_dict_set = (AV_DICT_SET) (intptr_t) symbols[i++]; sp_av_dict_free = (AV_DICT_FREE) (intptr_t) symbols[i++]; sp_av_channel_layout_default = (AV_CHANNEL_LAYOUT_DEFAULT) (intptr_t) symbols[i++]; sp_av_channel_layout_uninit = (AV_CHANNEL_LAYOUT_UNINIT) (intptr_t) symbols[i++]; sp_av_channel_layout_describe = (AV_CHANNEL_LAYOUT_DESCRIBE) (intptr_t) symbols[i++]; sp_av_opt_set_chlayout = (AV_OPT_SET_CHLAYOUT) (intptr_t) symbols[i++]; sp_avformat_alloc_context = (AVFORMAT_ALLOC_CONTEXT) (intptr_t) symbols[i++];; sp_avformat_free_context = (AVFORMAT_FREE_CONTEXT) (intptr_t) symbols[i++]; sp_avformat_close_input = (AVFORMAT_CLOSE_INPUT) (intptr_t) symbols[i++]; sp_av_find_input_format = (AV_FIND_INPUT_FORMAT) (intptr_t) symbols[i++]; sp_avformat_open_input = (AVFORMAT_OPEN_INPUT) (intptr_t) symbols[i++]; sp_av_dump_format = (AV_DUMP_FORMAT) (intptr_t) symbols[i++]; sp_av_read_frame = (AV_READ_FRAME) (intptr_t) symbols[i++]; sp_av_seek_frame = (AV_SEEK_FRAME) (intptr_t) symbols[i++]; sp_avformat_seek_file = (AVFORMAT_SEEK_FILE) (intptr_t) symbols[i++]; sp_av_read_play = (AV_READ_PLAY) (intptr_t) symbols[i++]; sp_av_read_pause = (AV_READ_PAUSE) (intptr_t) symbols[i++]; sp_avformat_network_init = (AVFORMAT_NETWORK_INIT) (intptr_t) symbols[i++]; sp_avformat_network_deinit = (AVFORMAT_NETWORK_DEINIT) (intptr_t) symbols[i++]; sp_avformat_find_stream_info = (AVFORMAT_FIND_STREAM_INFO) (intptr_t) symbols[i++]; sp_avdevice_register_all = (AVDEVICE_REGISTER_ALL) (intptr_t) symbols[i++]; sp_av_opt_set_sample_fmt = (AV_OPT_SET_SAMPLE_FMT) (intptr_t) symbols[i++]; sp_swr_alloc = (SWR_ALLOC) (intptr_t) symbols[i++]; sp_swr_init = (SWR_INIT) (intptr_t) symbols[i++]; sp_swr_free = (SWR_FREE) (intptr_t) symbols[i++]; sp_swr_convert = (SWR_CONVERT) (intptr_t) symbols[i++]; (*env)->ReleasePrimitiveArrayCritical(env, jSymbols, symbols, 0); if(SYMBOL_COUNT != i) { // boom fprintf(stderr, "FFMPEGNatives.initSymbols0: Wrong symbol assignment count: Expected %d, Is %d\n", SYMBOL_COUNT, i); return JNI_FALSE; } if(!HAS_FUNC(sp_avcodec_default_get_buffer2) || !HAS_FUNC(sp_av_frame_unref) ) { fprintf(stderr, "FFMPEGNatives.initSymbols0: avcodec >= 55: avcodec_default_get_buffer2 %p, av_frame_unref %p\n", sp_avcodec_default_get_buffer2, sp_av_frame_unref); return JNI_FALSE; } #if LIBAVCODEC_VERSION_MAJOR >= 59 if( !HAS_FUNC(sp_av_channel_layout_default) || !HAS_FUNC(sp_av_channel_layout_uninit) || !HAS_FUNC(sp_av_channel_layout_describe) || !HAS_FUNC(sp_av_opt_set_chlayout) ) { fprintf(stderr, "FFMPEGNatives.initSymbols0: avcodec >= 59: av_channel_layout_* missing\n"); return JNI_FALSE; } #endif #if defined (USE_PTHREAD_LOCKING) pthread_mutexattr_init(&renderLockAttr); pthread_mutexattr_settype(&renderLockAttr, PTHREAD_MUTEX_RECURSIVE); pthread_mutex_init(&mutex_avcodec_openclose, &renderLockAttr); // recursive #elif defined (USE_JNI_LOCKING) mutex_avcodec_openclose = (*env)->NewGlobalRef(env, jmutex_avcodec_openclose); #endif /** At static destroy: Never #if defined (USE_PTHREAD_LOCKING) pthread_mutex_unlock(&mutex_avcodec_openclose); pthread_mutex_destroy(&mutex_avcodec_openclose); #elif defined (USE_JNI_LOCKING) (*env)->DeleteGlobalRef(env, mutex_avcodec_openclose); #endif */ return JNI_TRUE; } static int _isAudioFormatSupported(JNIEnv *env, jobject ffmpegMediaPlayer, enum AVSampleFormat aSampleFmt, int32_t aSampleRate, int32_t aChannels) { return JNI_TRUE == (*env)->CallBooleanMethod(env, ffmpegMediaPlayer, ffmpeg_jni_mid_isAudioFormatSupported, aSampleFmt, aSampleRate, aChannels); } static void _updateJavaAttributes(JNIEnv *env, FFMPEGToolBasicAV_t* pAV) { if(NULL!=env) { (*env)->CallVoidMethod(env, pAV->ffmpegMediaPlayer, ffmpeg_jni_mid_setupFFAttributes, pAV->vid, pAV->vPixFmt, pAV->vBufferPlanes, pAV->vBitsPerPixel, pAV->vBytesPerPixelPerPlane, pAV->vTexWidth[0], pAV->vTexWidth[1], pAV->vTexWidth[2], pAV->vWidth, pAV->vHeight, pAV->aid, pAV->aSampleFmtOut, pAV->aSampleRateOut, pAV->aChannelsOut, pAV->aFrameSize); (*env)->CallVoidMethod(env, pAV->ffmpegMediaPlayer, ffmpeg_jni_mid_updateAttributes, pAV->vid, pAV->aid, pAV->vWidth, pAV->vHeight, pAV->bps_stream, pAV->bps_video, pAV->bps_audio, pAV->fps, pAV->frames_video, pAV->frames_audio, pAV->duration, (*env)->NewStringUTF(env, pAV->vcodec), (*env)->NewStringUTF(env, pAV->acodec) ); } } static void _setIsGLOriented(JNIEnv *env, FFMPEGToolBasicAV_t* pAV) { if(NULL!=env) { (*env)->CallVoidMethod(env, pAV->ffmpegMediaPlayer, ffmpeg_jni_mid_setIsGLOriented, pAV->vFlipped); } } static void freeInstance(JNIEnv *env, FFMPEGToolBasicAV_t* pAV) { int i; if(NULL != pAV) { MY_MUTEX_LOCK(env, mutex_avcodec_openclose); { // Close the V codec if(NULL != pAV->pVCodecCtx) { sp_avcodec_close(pAV->pVCodecCtx); sp_avcodec_free_context(&pAV->pVCodecCtx); pAV->pVCodecCtx = NULL; } pAV->pVCodec=NULL; // Close the A codec if(NULL != pAV->pACodecCtx) { sp_avcodec_close(pAV->pACodecCtx); sp_avcodec_free_context(&pAV->pACodecCtx); pAV->pACodecCtx = NULL; } pAV->pACodec=NULL; // Close the video file if(NULL != pAV->pFormatCtx) { sp_avformat_close_input(&pAV->pFormatCtx); sp_avformat_free_context(pAV->pFormatCtx); pAV->pFormatCtx = NULL; } } MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); // Close the A resampler if( NULL != pAV->swResampleCtx ) { sp_swr_free(&pAV->swResampleCtx); pAV->swResampleCtx = NULL; } if( NULL != pAV->aResampleBuffer ) { sp_av_free(pAV->aResampleBuffer); pAV->aResampleBuffer = NULL; } // Close the frames if(NULL != pAV->pVFrame) { sp_av_free_frame(&pAV->pVFrame); } if(NULL != pAV->pANIOBuffers) { for(i=0; iaFrameCount; i++) { NIOBuffer_t * pNIOBuffer = &pAV->pANIOBuffers[i]; if( NULL != pNIOBuffer->nioRef ) { if(pAV->verbose) { fprintf(stderr, "A NIO: Free.X ptr %p / ref %p, %d bytes\n", pNIOBuffer->origPtr, pNIOBuffer->nioRef, pNIOBuffer->size); } (*env)->DeleteGlobalRef(env, pNIOBuffer->nioRef); } } free(pAV->pANIOBuffers); pAV->pANIOBuffers = NULL; } if(NULL != pAV->pAFrames) { for(i=0; iaFrameCount; i++) { sp_av_free_frame(&pAV->pAFrames[i]); } free(pAV->pAFrames); pAV->pAFrames = NULL; } if( NULL != pAV->ffmpegMediaPlayer ) { (*env)->DeleteGlobalRef(env, pAV->ffmpegMediaPlayer); pAV->ffmpegMediaPlayer = NULL; } if( NULL != pAV->packet ) { sp_av_packet_free(&pAV->packet); pAV->packet = NULL; } free(pAV); } } static int my_getPlaneCount(const AVPixFmtDescriptor *pDesc) { int i, p=-1; for(i=pDesc->nb_components-1; i>=0; i--) { int p0 = pDesc->comp[i].plane; if( p < p0 ) { p = p0; } } return p+1; } #if 0 static int my_is_hwaccel_pix_fmt(enum PixelFormat pix_fmt) { return sp_av_pix_fmt_descriptors[pix_fmt].flags & PIX_FMT_HWACCEL; } static enum PixelFormat my_get_format(struct AVCodecContext *s, const enum PixelFormat * fmt) { int i=0; enum PixelFormat f0, fR = PIX_FMT_NONE; char buf[256]; fprintf(stderr, "get_format ****\n"); while (fmt[i] != PIX_FMT_NONE /* && ff_is_hwaccel_pix_fmt(fmt[i]) */) { f0 = fmt[i]; if(fR==PIX_FMT_NONE && !my_is_hwaccel_pix_fmt(f0)) { fR = f0; } sp_av_get_pix_fmt_string(buf, sizeof(buf), f0); fprintf(stderr, "get_format %d: %d - %s - %s\n", i, f0, sp_av_get_pix_fmt_name(f0), buf); ++i; } fprintf(stderr, "get_format %d - %s *** \n", fR, sp_av_get_pix_fmt_name(fR)); fflush(NULL); return fR; } #endif JNIEXPORT jint JNICALL FF_FUNC(getAvUtilMajorVersionCC0) (JNIEnv *env, jobject instance) { return (jint) LIBAVUTIL_VERSION_MAJOR; } JNIEXPORT jint JNICALL FF_FUNC(getAvFormatMajorVersionCC0) (JNIEnv *env, jobject instance) { return (jint) LIBAVFORMAT_VERSION_MAJOR; } JNIEXPORT jint JNICALL FF_FUNC(getAvCodecMajorVersionCC0) (JNIEnv *env, jobject instance) { return (jint) LIBAVCODEC_VERSION_MAJOR; } JNIEXPORT jint JNICALL FF_FUNC(getAvDeviceMajorVersionCC0) (JNIEnv *env, jobject instance) { return (jint) LIBAVDEVICE_VERSION_MAJOR; } JNIEXPORT jint JNICALL FF_FUNC(getSwResampleMajorVersionCC0) (JNIEnv *env, jobject instance) { return (jint) LIBSWRESAMPLE_VERSION_MAJOR; } JNIEXPORT jlong JNICALL FF_FUNC(createInstance0) (JNIEnv *env, jobject instance, jobject ffmpegMediaPlayer, jboolean verbose) { FFMPEGToolBasicAV_t * pAV = calloc(1, sizeof(FFMPEGToolBasicAV_t)); if(NULL==pAV) { JoglCommon_throwNewRuntimeException(env, "Couldn't alloc instance"); return 0; } pAV->avcodecVersion = sp_avcodec_version(); pAV->avformatVersion = sp_avformat_version(); pAV->avutilVersion = sp_avutil_version(); if( HAS_FUNC(sp_avdevice_version) ) { pAV->avdeviceVersion = sp_avdevice_version(); } else { pAV->avdeviceVersion = 0; } if( HAS_FUNC(sp_swresample_version) ) { pAV->swresampleVersion = sp_swresample_version(); } else { pAV->swresampleVersion = 0; } // NOTE: We keep code on using 1 a/v frame per decoding cycle now. // This is compatible w/ OpenAL's alBufferData(..) // and w/ OpenGL's texture update command, both copy data immediately. // // NOTE: ffmpeg using `avcodec_receive_frame()` always uses `refcounted_frames`, i.e. always true now! // pAV->useRefCountedFrames = 1; pAV->ffmpegMediaPlayer = (*env)->NewGlobalRef(env, ffmpegMediaPlayer); pAV->verbose = verbose; pAV->vid=AV_STREAM_ID_AUTO; pAV->aid=AV_STREAM_ID_AUTO; if(pAV->verbose) { fprintf(stderr, "Info: Has swresample %d, device %d\n", AV_HAS_API_SWRESAMPLE(pAV), HAS_FUNC(sp_avdevice_register_all)); } return (jlong) (intptr_t) pAV; } JNIEXPORT void JNICALL FF_FUNC(destroyInstance0) (JNIEnv *env, jobject instance, jlong ptr) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); if (pAV != NULL) { // stop assumed .. freeInstance(env, pAV); } } #if LIBAVCODEC_VERSION_MAJOR < 59 static uint64_t getDefaultAudioChannelLayout(int channelCount) { switch(channelCount) { case 1: return AV_CH_LAYOUT_MONO; case 2: return AV_CH_LAYOUT_STEREO; case 3: return AV_CH_LAYOUT_SURROUND; case 4: return AV_CH_LAYOUT_QUAD; case 5: return AV_CH_LAYOUT_5POINT0; case 6: return AV_CH_LAYOUT_5POINT1; case 7: return AV_CH_LAYOUT_6POINT1; case 8: return AV_CH_LAYOUT_7POINT1; default: return AV_CH_LAYOUT_NATIVE; } } #else static void getDefaultAVChannelLayout(AVChannelLayout* cl, int channelCount) { sp_av_channel_layout_uninit(cl); switch(channelCount) { case 1: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_MONO; break; case 2: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_STEREO; break; case 3: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_SURROUND; break; case 4: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_QUAD; break; case 5: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_5POINT0; break; case 6: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_5POINT1; break; case 7: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_6POINT1; break; case 8: *cl = (AVChannelLayout)AV_CHANNEL_LAYOUT_7POINT1; break; default: { sp_av_channel_layout_default(cl, channelCount); } } } #endif static void initPTSStats(PTSStats *ptsStats); static int64_t evalPTS(PTSStats *ptsStats, int64_t inPTS, int64_t inDTS); static AVInputFormat* tryAVInputFormat(const char * name, int verbose) { AVInputFormat* inFmt = sp_av_find_input_format(name); if( verbose) { if ( NULL == inFmt ) { fprintf(stderr, "Warning: Could not find input format '%s'\n", name); } else { fprintf(stderr, "Info: Found input format '%s'\n", name); } } return inFmt; } static const char * inFmtNames[] = { "video4linux2", // linux "video4linux", // linux (old) "dshow", // windows "vfwcap", // windows (old) "avfoundation", // osx "mpg", "yuv2", "mjpeg", "avi", "wmv", "libx264", "h264", "mpegts" }; static AVInputFormat* findAVInputFormat(int verbose) { AVInputFormat* inFmt = NULL; const char *inFmtName; int i=0; do { inFmtName = inFmtNames[i++]; if( NULL == inFmtName ) { break; } inFmt = tryAVInputFormat(inFmtName, verbose); } while ( NULL == inFmt ); return inFmt; } #if 0 static void getAlignedLinesizes(AVCodecContext *avctx, int linesize[/*4*/]) { int stride_align[AV_NUM_DATA_POINTERS]; int w = avctx->width; int h = avctx->height; int unaligned; int i; sp_avcodec_align_dimensions2(avctx, &w, &h, stride_align); if (!(avctx->flags & CODEC_FLAG_EMU_EDGE)) { int edge_width = sp_avcodec_get_edge_width(); w += edge_width * 2; h += edge_width * 2; } do { // Get alignment for all planes (-> YUVP .. etc) sp_av_image_fill_linesizes(linesize, avctx->pix_fmt, w); // increase alignment of w for next try (rhs gives the lowest bit set in w) w += w & ~(w - 1); unaligned = 0; for (i = 0; i < 4; i++) unaligned |= linesize[i] % stride_align[i]; } while (unaligned); } #endif #if LIBAVCODEC_VERSION_MAJOR < 60 static int64_t getFrameNum(const AVCodecContext *avctx) { return (int64_t)avctx->frame_number; } #else static int64_t getFrameNum(const AVCodecContext *avctx) { return avctx->frame_num; } #endif JNIEXPORT void JNICALL FF_FUNC(setStream0) (JNIEnv *env, jobject instance, jlong ptr, jstring jURL, jboolean jIsCameraInput, jint vid, jstring jSizeS, jint vWidth, jint vHeight, jint vRate, jint aid, jint aMaxChannelCount, jint aPrefSampleRate) { char cameraName[256]; int res, i; jboolean iscopy; FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)(intptr_t)ptr; if (pAV == NULL) { JoglCommon_throwNewRuntimeException(env, "NULL AV ptr"); return; } // Register all formats and codecs if( jIsCameraInput && HAS_FUNC(sp_avdevice_register_all) ) { sp_avdevice_register_all(); } // Network too .. if(HAS_FUNC(sp_avformat_network_init)) { sp_avformat_network_init(); } pAV->packet = sp_av_packet_alloc(); if( NULL == pAV->packet ) { JoglCommon_throwNewRuntimeException(env, "Couldn't allocate AVPacket"); return; } pAV->pFormatCtx = sp_avformat_alloc_context(); const char *urlPath = (*env)->GetStringUTFChars(env, jURL, &iscopy); const char *filename = urlPath; // allow changing path for camera .. // Open video file AVDictionary *inOpts = NULL; AVInputFormat* inFmt = NULL; if( jIsCameraInput ) { char buffer[256]; inFmt = findAVInputFormat(pAV->verbose); if( NULL == inFmt ) { JoglCommon_throwNewRuntimeException(env, "Couldn't find input format for camera: %s", urlPath); (*env)->ReleaseStringChars(env, jURL, (const jchar *)urlPath); return; } if(pAV->verbose) { fprintf(stderr, "Camera: Format: %s (%s)\n", inFmt->long_name, inFmt->name); } if( 0 == strncmp(inFmt->name, "dshow", 255) ) { int devIdx = atoi(urlPath); strncpy(cameraName, "video=", sizeof(cameraName)); res = findDShowVideoDevice(cameraName+6, sizeof(cameraName)-6, devIdx, pAV->verbose); if( 0 == res ) { if(pAV->verbose) { fprintf(stderr, "Camera %d found: %s\n", devIdx, cameraName); } filename = cameraName; } else if(pAV->verbose) { fprintf(stderr, "Camera %d not found\n", devIdx); } } if(pAV->verbose) { fprintf(stderr, "Camera: Filename: %s\n", filename); } const char *sizeS = NULL != jSizeS ? (*env)->GetStringUTFChars(env, jSizeS, &iscopy) : NULL; int hasSize = 0; if( NULL != sizeS ) { snprintf(buffer, sizeof(buffer), "%s", sizeS); (*env)->ReleaseStringChars(env, jSizeS, (const jchar *)sizeS); hasSize = 1; } else if( vWidth > 0 && vHeight > 0 ) { snprintf(buffer, sizeof(buffer), "%dx%d", vWidth, vHeight); hasSize = 1; } if( hasSize ) { if(pAV->verbose) { fprintf(stderr, "Camera: Size: %s\n", buffer); } sp_av_dict_set(&inOpts, "video_size", buffer, 0); } if( vRate > 0 ) { snprintf(buffer, sizeof(buffer), "%d", vRate); if(pAV->verbose) { fprintf(stderr, "Camera: FPS: %s\n", buffer); } sp_av_dict_set(&inOpts, "framerate", buffer, 0); } // FIXME pre-select: sp_av_dict_set(&inOpts, "pixel_format", "yuyv422", 0); } MY_MUTEX_LOCK(env, mutex_avcodec_openclose); { res = sp_avformat_open_input(&pAV->pFormatCtx, filename, inFmt, NULL != inOpts ? &inOpts : NULL); if( NULL != inOpts ) { sp_av_dict_free(&inOpts); } if(res != 0) { MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); JoglCommon_throwNewRuntimeException(env, "Couldn't open URI: %s [%dx%d @ %d hz], err %d", filename, vWidth, vHeight, vRate, res); (*env)->ReleaseStringChars(env, jURL, (const jchar *)urlPath); return; } // Retrieve detailed stream information if(sp_avformat_find_stream_info(pAV->pFormatCtx, NULL)<0) { MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); (*env)->ReleaseStringChars(env, jURL, (const jchar *)urlPath); JoglCommon_throwNewRuntimeException(env, "Couldn't find stream information"); return; } } MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); if(pAV->verbose) { // Dump information about file onto standard error sp_av_dump_format(pAV->pFormatCtx, 0, filename, JNI_FALSE); } (*env)->ReleaseStringChars(env, jURL, (const jchar *)urlPath); // FIXME: Libav Binary compatibility! JAU01 if (pAV->pFormatCtx->duration != AV_NOPTS_VALUE) { pAV->duration = pAV->pFormatCtx->duration / AV_TIME_BASE_MSEC; } if (pAV->pFormatCtx->start_time != AV_NOPTS_VALUE) { pAV->start_time = pAV->pFormatCtx->start_time / AV_TIME_BASE_MSEC; } if (pAV->pFormatCtx->bit_rate) { pAV->bps_stream = pAV->pFormatCtx->bit_rate; } if(pAV->verbose) { fprintf(stderr, "Streams: %d, req vid %d aid %d\n", pAV->pFormatCtx->nb_streams, vid, aid); } // Find the first audio and video stream, or the one matching vid // FIXME: Libav Binary compatibility! JAU01 for(i=0; ( AV_STREAM_ID_AUTO==pAV->aid || AV_STREAM_ID_AUTO==pAV->vid ) && ipFormatCtx->nb_streams; i++) { AVStream *st = pAV->pFormatCtx->streams[i]; if(pAV->verbose) { fprintf(stderr, "Stream: %d: is-video %d, is-audio %d\n", i, (AVMEDIA_TYPE_VIDEO == st->codecpar->codec_type), AVMEDIA_TYPE_AUDIO == st->codecpar->codec_type); } if(AVMEDIA_TYPE_VIDEO == st->codecpar->codec_type) { if(AV_STREAM_ID_AUTO==pAV->vid && (AV_STREAM_ID_AUTO==vid || vid == i) ) { pAV->pVStream = st; pAV->vid=i; } } else if(AVMEDIA_TYPE_AUDIO == st->codecpar->codec_type) { if(AV_STREAM_ID_AUTO==pAV->aid && (AV_STREAM_ID_AUTO==aid || aid == i) ) { pAV->pAStream = st; pAV->aid=i; } } } if( AV_STREAM_ID_AUTO == pAV->aid ) { pAV->aid = AV_STREAM_ID_NONE; } if( AV_STREAM_ID_AUTO == pAV->vid ) { pAV->vid = AV_STREAM_ID_NONE; } if( pAV->verbose ) { fprintf(stderr, "Found vid %d, aid %d\n", pAV->vid, pAV->aid); } if(0<=pAV->aid) { AVFrame * pAFrame0 = sp_av_frame_alloc(); if( NULL == pAFrame0 ) { JoglCommon_throwNewRuntimeException(env, "Couldn't alloc 1st audio frame\n"); return; } // Get a pointer to the codec context for the audio stream // FIXME: Libav Binary compatibility! JAU01 pAV->pACodecPar=pAV->pAStream->codecpar; // FIXME: Libav Binary compatibility! JAU01 if (pAV->pACodecPar->bit_rate) { pAV->bps_audio = pAV->pACodecPar->bit_rate; } // Find the decoder for the audio stream pAV->pACodec=sp_avcodec_find_decoder(pAV->pACodecPar->codec_id); if(pAV->pACodec==NULL) { JoglCommon_throwNewRuntimeException(env, "Couldn't find audio codec for codec_id %d", pAV->pACodecPar->codec_id); return; } // Allocate the decoder context for the audio stream pAV->pACodecCtx = sp_avcodec_alloc_context3(pAV->pACodec); if(pAV->pACodecCtx==NULL) { JoglCommon_throwNewRuntimeException(env, "Couldn't allocate audio decoder context for codec_id %d", pAV->pACodecPar->codec_id); return; } res = sp_avcodec_parameters_to_context(pAV->pACodecCtx, pAV->pACodecPar); if(res<0) { JoglCommon_throwNewRuntimeException(env, "Couldn't copy audio codec-par to context"); return; } // Customize .. // pAV->pACodecCtx->thread_count=2; // pAV->pACodecCtx->thread_type=FF_THREAD_FRAME|FF_THREAD_SLICE; // Decode more than one frame at once pAV->pACodecCtx->thread_count=0; pAV->pACodecCtx->thread_type=0; pAV->pACodecCtx->workaround_bugs=FF_BUG_AUTODETECT; pAV->pACodecCtx->skip_frame=AVDISCARD_DEFAULT; // Note: OpenAL well supports n-channel by now (SOFT), // however - AFAIK AV_SAMPLE_FMT_S16 would allow no conversion! pAV->pACodecCtx->request_sample_fmt=AV_SAMPLE_FMT_S16; pAV->pACodecCtx->skip_frame=AVDISCARD_DEFAULT; sp_avcodec_string(pAV->acodec, sizeof(pAV->acodec), pAV->pACodecCtx, 0); // Open codec MY_MUTEX_LOCK(env, mutex_avcodec_openclose); { res = sp_avcodec_open2(pAV->pACodecCtx, pAV->pACodec, NULL); } MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); if(res<0) { JoglCommon_throwNewRuntimeException(env, "Couldn't open audio codec %d, %s", pAV->pACodecCtx->codec_id, pAV->acodec); return; } // try to shape audio channel-layout on fixed audio channel-count #if LIBAVCODEC_VERSION_MAJOR < 59 pAV->aChannels = pAV->pACodecCtx->channels; if ( !pAV->pACodecCtx->channel_layout ) { const uint64_t cl = getDefaultAudioChannelLayout(pAV->aChannels); if ( !cl ) { JoglCommon_throwNewRuntimeException(env, "Couldn't determine channel layout of %d channels\n", pAV->aChannels); return; } pAV->pACodecCtx->channel_layout = cl; } if( pAV->verbose ) { fprintf(stderr, "A channels %d, layout 0x%"PRIx64"\n", pAV->aChannels, pAV->pACodecCtx->channel_layout); } #else pAV->aChannels = pAV->pACodecCtx->ch_layout.nb_channels; if ( pAV->pACodecCtx->ch_layout.order == AV_CHANNEL_ORDER_UNSPEC ) { getDefaultAVChannelLayout(&pAV->pACodecCtx->ch_layout, pAV->aChannels); } if( pAV->verbose ) { char buf[256]; sp_av_channel_layout_describe(&pAV->pACodecCtx->ch_layout, buf, sizeof(buf)); fprintf(stderr, "A channels %d, layout %s\n", pAV->aChannels, buf); } #endif pAV->aSampleRate = pAV->pACodecCtx->sample_rate; pAV->aFrameSize = pAV->pACodecCtx->frame_size; // in samples per channel! pAV->aSampleFmt = pAV->pACodecCtx->sample_fmt; pAV->frames_audio = pAV->pAStream->nb_frames; pAV->aSinkSupport = _isAudioFormatSupported(env, pAV->ffmpegMediaPlayer, pAV->aSampleFmt, pAV->aSampleRate, pAV->aChannels); if( pAV->verbose ) { fprintf(stderr, "A sample_rate %d, frame_size %d, frame_number %"PRId64", [afps %f, sfps %f], nb_frames %"PRId64", [maxChan %d, prefRate %d], sink-support %d \n", pAV->aSampleRate, pAV->aFrameSize, getFrameNum(pAV->pACodecCtx), my_av_q2f(pAV->pAStream->avg_frame_rate), my_av_q2f_r(pAV->pAStream->time_base), pAV->pAStream->nb_frames, aMaxChannelCount, aPrefSampleRate, pAV->aSinkSupport); } // default pAV->aSampleFmtOut = pAV->aSampleFmt; pAV->aChannelsOut = pAV->aChannels; pAV->aSampleRateOut = pAV->aSampleRate; if( ( AV_HAS_API_SWRESAMPLE(pAV) ) && ( pAV->aSampleFmt != AV_SAMPLE_FMT_S16 || ( 0 != aPrefSampleRate && pAV->aSampleRate != aPrefSampleRate ) || !pAV->aSinkSupport ) ) { const int32_t maxOutChannelCount = MIN_INT(aMaxChannelCount, MAX_INT(1, pAV->aChannels)); if( 0 == aPrefSampleRate ) { aPrefSampleRate = pAV->aSampleRate; } int32_t aSinkSupport = 0; enum AVSampleFormat aSampleFmtOut = AV_SAMPLE_FMT_S16; int32_t aChannelsOut; int32_t aSampleRateOut; if( _isAudioFormatSupported(env, pAV->ffmpegMediaPlayer, aSampleFmtOut, aPrefSampleRate, pAV->aChannels) ) { aChannelsOut = pAV->aChannels; aSampleRateOut = aPrefSampleRate; aSinkSupport = 1; } else if( _isAudioFormatSupported(env, pAV->ffmpegMediaPlayer, aSampleFmtOut, aPrefSampleRate, maxOutChannelCount) ) { aChannelsOut = maxOutChannelCount; aSampleRateOut = aPrefSampleRate; aSinkSupport = 1; } if( aSinkSupport && AV_HAS_API_SWRESAMPLE(pAV) ) { pAV->swResampleCtx = sp_swr_alloc(); #if LIBAVCODEC_VERSION_MAJOR < 59 const int64_t out_channel_layout = getDefaultAudioChannelLayout(aChannelsOut); sp_av_opt_set_int(pAV->swResampleCtx, "in_channel_layout", pAV->pACodecCtx->channel_layout, 0); sp_av_opt_set_int(pAV->swResampleCtx, "out_channel_layout", out_channel_layout, 0); if( pAV->verbose ) { fprintf(stderr, "A Resample: channels %d -> %d, layout 0x%"PRIx64" -> 0x%"PRIx64", rate %d -> %d, fmt 0x%x -> 0x%x\n", pAV->aChannels, aChannelsOut, pAV->pACodecCtx->channel_layout, out_channel_layout, pAV->aSampleRate, aSampleRateOut, (int)pAV->aSampleFmt, (int)aSampleFmtOut); } #else AVChannelLayout out_ch_layout = {0}; getDefaultAVChannelLayout(&out_ch_layout, aChannelsOut); sp_av_opt_set_chlayout(pAV->swResampleCtx, "in_chlayout", &pAV->pACodecCtx->ch_layout, 0); sp_av_opt_set_chlayout(pAV->swResampleCtx, "out_chlayout", &out_ch_layout, 0); if( pAV->verbose ) { char buf1[256], buf2[256]; sp_av_channel_layout_describe(&pAV->pACodecCtx->ch_layout, buf1, sizeof(buf1)); sp_av_channel_layout_describe(&out_ch_layout, buf2, sizeof(buf2)); fprintf(stderr, "A Resample: channels %d -> %d, layout %s -> %s, rate %d -> %d, fmt 0x%x -> 0x%x\n", pAV->aChannels, aChannelsOut, buf1, buf2, pAV->aSampleRate, aSampleRateOut, (int)pAV->aSampleFmt, (int)aSampleFmtOut); } av_channel_layout_uninit(&out_ch_layout); #endif sp_av_opt_set_int(pAV->swResampleCtx, "in_sample_rate", pAV->aSampleRate, 0); sp_av_opt_set_int(pAV->swResampleCtx, "out_sample_rate", aSampleRateOut, 0); sp_av_opt_set_sample_fmt(pAV->swResampleCtx, "in_sample_fmt", pAV->aSampleFmt, 0); sp_av_opt_set_sample_fmt(pAV->swResampleCtx, "out_sample_fmt", aSampleFmtOut, 0); if ( sp_swr_init(pAV->swResampleCtx) < 0 ) { sp_swr_free(&pAV->swResampleCtx); pAV->swResampleCtx = NULL; fprintf(stderr, "error initializing swresample ctx\n"); } else { // OK pAV->aSampleFmtOut = aSampleFmtOut; pAV->aChannelsOut = aChannelsOut; pAV->aSampleRateOut = aSampleRateOut; pAV->aSinkSupport = 1; } } } if(pAV->verbose) { fprintf(stderr, "Info: Need resample %d, Use swresample %d\n", pAV->aSinkSupport, NULL!=pAV->swResampleCtx); } // Allocate audio frames // FIXME: Libav Binary compatibility! JAU01 pAV->aFrameCount = 1; pAV->pANIOBuffers = calloc(pAV->aFrameCount, sizeof(NIOBuffer_t)); pAV->pAFrames = calloc(pAV->aFrameCount, sizeof(AVFrame*)); pAV->pAFrames[0] = pAFrame0; for(i=1; iaFrameCount; i++) { pAV->pAFrames[i] = sp_av_frame_alloc(); if( NULL == pAV->pAFrames[i] ) { JoglCommon_throwNewRuntimeException(env, "Couldn't alloc audio frame %d / %d", i, pAV->aFrameCount); return; } } pAV->aFrameCurrent = 0; } if(0<=pAV->vid) { // Get a pointer to the codec context for the video stream // FIXME: Libav Binary compatibility! JAU01 pAV->pVCodecPar = pAV->pVStream->codecpar; #if 0 pAV->pVCodecCtx->get_format = my_get_format; #endif if (pAV->pVCodecPar->bit_rate) { // FIXME: Libav Binary compatibility! JAU01 pAV->bps_video = pAV->pVCodecPar->bit_rate; } // Find the decoder for the video stream pAV->pVCodec=sp_avcodec_find_decoder(pAV->pVCodecPar->codec_id); if(pAV->pVCodec==NULL) { JoglCommon_throwNewRuntimeException(env, "Couldn't find video codec for codec_id %d", pAV->pVCodecPar->codec_id); return; } // Allocate the decoder context for the video stream pAV->pVCodecCtx = sp_avcodec_alloc_context3(pAV->pVCodec); if(pAV->pVCodecCtx==NULL) { JoglCommon_throwNewRuntimeException(env, "Couldn't allocate video decoder context for codec_id %d", pAV->pVCodecPar->codec_id); return; } res = sp_avcodec_parameters_to_context(pAV->pVCodecCtx, pAV->pVCodecPar); if(res<0) { JoglCommon_throwNewRuntimeException(env, "Couldn't copy video codec-par to context"); return; } // Customize .. // pAV->pVCodecCtx->thread_count=2; // pAV->pVCodecCtx->thread_type=FF_THREAD_FRAME|FF_THREAD_SLICE; // Decode more than one frame at once pAV->pVCodecCtx->thread_count=0; pAV->pVCodecCtx->thread_type=0; pAV->pVCodecCtx->workaround_bugs=FF_BUG_AUTODETECT; pAV->pVCodecCtx->skip_frame=AVDISCARD_DEFAULT; sp_avcodec_string(pAV->vcodec, sizeof(pAV->vcodec), pAV->pVCodecCtx, 0); // Open codec MY_MUTEX_LOCK(env, mutex_avcodec_openclose); { res = sp_avcodec_open2(pAV->pVCodecCtx, pAV->pVCodec, NULL); } MY_MUTEX_UNLOCK(env, mutex_avcodec_openclose); if(res<0) { JoglCommon_throwNewRuntimeException(env, "Couldn't open video codec %d, %s", pAV->pVCodecCtx->codec_id, pAV->vcodec); return; } // Hack to correct wrong frame rates that seem to be generated by some codecs // FIXME: Libav Binary compatibility! JAU01 if(pAV->pVCodecCtx->time_base.num>1000 && pAV->pVCodecCtx->time_base.den==1) { pAV->pVCodecCtx->time_base.den=1000; } // FIXME: Libav Binary compatibility! JAU01 if( pAV->pVStream->avg_frame_rate.den && pAV->pVStream->avg_frame_rate.num ) { pAV->fps = my_av_q2f(pAV->pVStream->avg_frame_rate); } else if( pAV->pVStream->time_base.den && pAV->pVStream->time_base.num ) { pAV->fps = my_av_q2f_r(pAV->pVStream->time_base); } else { pAV->fps = 0.0f; // duh! } pAV->frames_video = pAV->pVStream->nb_frames; // Allocate video frame // FIXME: Libav Binary compatibility! JAU01 pAV->vWidth = pAV->pVCodecCtx->width; pAV->vHeight = pAV->pVCodecCtx->height; pAV->vPixFmt = pAV->pVCodecCtx->pix_fmt; // AV_PIX_FMT_NONE pAV->vFlipped = JNI_FALSE; { const AVPixFmtDescriptor* pixDesc = sp_av_pix_fmt_desc_get(pAV->vPixFmt); if( NULL != pixDesc ) { pAV->vBitsPerPixel = sp_av_get_bits_per_pixel(pixDesc); pAV->vBufferPlanes = my_getPlaneCount(pixDesc); } else { JoglCommon_throwNewRuntimeException(env, "Couldn't query AVPixFmtDescriptor from v-ctx pix_fmt 0x%x", (int)pAV->vPixFmt); return; } } if( pAV->verbose ) { fprintf(stderr, "V frame_size %d, frame_number %"PRId64", [afps %f, sfps %f] -> %f fps, nb_frames %"PRId64", size %dx%d, fmt 0x%X, bpp %d, planes %d, codecCaps 0x%X\n", pAV->pVCodecCtx->frame_size, getFrameNum(pAV->pVCodecCtx), my_av_q2f(pAV->pVStream->avg_frame_rate), my_av_q2f_r(pAV->pVStream->time_base), pAV->fps, pAV->pVStream->nb_frames, pAV->vWidth, pAV->vHeight, pAV->vPixFmt, pAV->vBitsPerPixel, pAV->vBufferPlanes, pAV->pVCodecCtx->codec->capabilities); } pAV->pVFrame=sp_av_frame_alloc(); if( pAV->pVFrame == NULL ) { JoglCommon_throwNewRuntimeException(env, "Couldn't alloc video frame"); return; } // Min. requirement for 'get_buffer2' ! pAV->pVFrame->width = pAV->pVCodecCtx->width; pAV->pVFrame->height = pAV->pVCodecCtx->height; pAV->pVFrame->format = pAV->pVCodecCtx->pix_fmt; res = sp_avcodec_default_get_buffer2(pAV->pVCodecCtx, pAV->pVFrame, 0); if(0!=res) { JoglCommon_throwNewRuntimeException(env, "Couldn't peek video buffer dimension"); return; } { const int32_t bytesPerPixel = ( pAV->vBitsPerPixel + 7 ) / 8 ; if(1 == pAV->vBufferPlanes) { pAV->vBytesPerPixelPerPlane = bytesPerPixel; } else { pAV->vBytesPerPixelPerPlane = 1; } int32_t vLinesize[4]; if( pAV->vBufferPlanes > 1 ) { for(i=0; ivBufferPlanes; i++) { // FIXME: Libav Binary compatibility! JAU01 vLinesize[i] = pAV->pVFrame->linesize[i]; pAV->vTexWidth[i] = vLinesize[i] / pAV->vBytesPerPixelPerPlane ; } } else { vLinesize[0] = pAV->pVFrame->linesize[0]; if( pAV->vPixFmt == AV_PIX_FMT_YUYV422 || pAV->vPixFmt == AV_PIX_FMT_UYVY422 ) { // Stuff 2x 16bpp (YUYV, UYVY) into one RGBA pixel! pAV->vTexWidth[0] = pAV->pVCodecCtx->width / 2; } else { pAV->vTexWidth[0] = pAV->pVCodecCtx->width; } } if( pAV->verbose ) { for(i=0; ivBufferPlanes; i++) { fprintf(stderr, "Video: P[%d]: %d texw * %d bytesPP -> %d line\n", i, pAV->vTexWidth[i], pAV->vBytesPerPixelPerPlane, vLinesize[i]); } } } sp_av_frame_unref(pAV->pVFrame); } pAV->vPTS=0; pAV->aPTS=0; initPTSStats(&pAV->vPTSStats); initPTSStats(&pAV->aPTSStats); _updateJavaAttributes(env, pAV); } JNIEXPORT void JNICALL FF_FUNC(setGLFuncs0) (JNIEnv *env, jobject instance, jlong ptr, jlong jProcAddrGLTexSubImage2D, jlong jProcAddrGLGetError, jlong jProcAddrGLFlush, jlong jProcAddrGLFinish) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); pAV->procAddrGLTexSubImage2D = (PFNGLTEXSUBIMAGE2DPROC) (intptr_t)jProcAddrGLTexSubImage2D; pAV->procAddrGLGetError = (PFNGLGETERRORPROC) (intptr_t)jProcAddrGLGetError; pAV->procAddrGLFlush = (PFNGLFLUSH) (intptr_t)jProcAddrGLFlush; pAV->procAddrGLFinish = (PFNGLFINISH) (intptr_t)jProcAddrGLFinish; } #if 0 #define DBG_TEXSUBIMG2D_a(c,p,w1,w2,h,i) fprintf(stderr, "TexSubImage2D.%c offset %d / %d, size %d x %d, ", c, (w1*p->pVCodecCtx->width)/w2, p->pVCodecCtx->height/h, p->vTexWidth[i], p->pVCodecCtx->height/h) #define DBG_TEXSUBIMG2D_b(p) fprintf(stderr, "err 0x%X\n", pAV->procAddrGLGetError()) #else #define DBG_TEXSUBIMG2D_a(c,p,w1,w2,h,i) #define DBG_TEXSUBIMG2D_b(p) #endif JNIEXPORT jint JNICALL FF_FUNC(readNextPacket0) (JNIEnv *env, jobject instance, jlong ptr, jint texTarget, jint texFmt, jint texType) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); jint resPTS = INVALID_PTS; uint8_t * pkt_odata; int pkt_osize; const int avRes = sp_av_read_frame(pAV->pFormatCtx, pAV->packet); if( AVERROR_EOF == avRes || ( pAV->pFormatCtx->pb && pAV->pFormatCtx->pb->eof_reached ) ) { if( pAV->verbose ) { fprintf(stderr, "EOS: avRes[res %d, eos %d], pb-EOS %d\n", avRes, AVERROR_EOF == avRes, ( pAV->pFormatCtx->pb && pAV->pFormatCtx->pb->eof_reached ) ); } resPTS = END_OF_STREAM_PTS; } else if( 0 <= avRes ) { if( pAV->verbose ) { fprintf(stderr, "P: ptr %p, size %d\n", pAV->packet->data, pAV->packet->size); } int send_pkt = 1; // only send pkt once if(pAV->packet->stream_index==pAV->aid) { // Decode audio frame if(NULL == pAV->pAFrames) { // no audio registered sp_av_packet_unref(pAV->packet); return INVALID_PTS; } int res = 0; for (int frameCount=0; 0 <= res || 0 == frameCount; ++frameCount) { AVFrame* pAFrameCurrent = pAV->pAFrames[pAV->aFrameCurrent]; sp_av_frame_unref(pAFrameCurrent); pAV->aFrameCurrent = ( pAV->aFrameCurrent + 1 ) % pAV->aFrameCount ; if( 0 < send_pkt ) { // only send pkt once send_pkt = 0; res = sp_avcodec_send_packet(pAV->pACodecCtx, pAV->packet); if ( AVERROR(EAGAIN) == res ) { // input is not accepted in the current state - user must read output res = 0; // continue draining frames if( pAV->verbose ) { fprintf(stderr, "A-P: EAGAIN @ %d\n", frameCount); } } else if ( AVERROR_EOF == res ) { // the decoder has been flushed, and no new packets can be sent to it res = 0; // continue draining frames if( pAV->verbose ) { fprintf(stderr, "A-P: EOF @ %d\n", frameCount); } } else if ( 0 > res ) { res = 0; // error, but continue draining frames res = 0; // continue draining frames if( pAV->verbose ) { fprintf(stderr, "A-P: ERROR %d @ %d\n", res, frameCount); } } } res = sp_avcodec_receive_frame(pAV->pACodecCtx, pAFrameCurrent); if( 0 > res ) { if ( AVERROR(EAGAIN) == res ) { // output is not available in this state - user must try to send new input res = 0; if( 0 == frameCount && pAV->verbose ) { fprintf(stderr, "A-F: EAGAIN @ %d\n", frameCount); // drained at start } // else expected to be drained } else if ( AVERROR_EOF == res ) { // the decoder has been fully flushed res = 0; if( pAV->verbose ) { fprintf(stderr, "A-F: EOF @ %d\n", frameCount); } } else { if( pAV->verbose ) { fprintf(stderr, "A-F: ERROR %d @ %d\n", res, frameCount); } } break; // end loop } int32_t data_size = 0; if(HAS_FUNC(sp_av_samples_get_buffer_size)) { data_size = sp_av_samples_get_buffer_size(NULL /* linesize, may be NULL */, pAV->aChannels, pAFrameCurrent->nb_samples, pAFrameCurrent->format, 1 /* align */); } #if 0 fprintf(stderr, "channels %d sample_rate %d \n", pAV->aChannels , pAV->aSampleRate); fprintf(stderr, "data %d \n", pAV->aFrameSize); #endif const AVRational time_base = pAV->pAStream->time_base; const int64_t pkt_pts = pAFrameCurrent->pts; if( 0 == frameCount && AV_NOPTS_VALUE != pkt_pts ) { // 1st frame only, discard invalid PTS .. pAV->aPTS = my_av_q2i32( pkt_pts * 1000, time_base); } else { // subsequent frames or invalid PTS .. const int32_t bytesPerSample = sp_av_get_bytes_per_sample( pAV->pACodecCtx->sample_fmt ); pAV->aPTS += data_size / ( pAV->aChannels * bytesPerSample * ( pAV->aSampleRate / 1000 ) ); } if( pAV->verbose ) { int32_t aDTS = my_av_q2i32( pAFrameCurrent->pkt_dts * 1000, time_base); fprintf(stderr, "A pts %d [pkt_pts %"PRId64"], dts %d [pkt_dts %"PRId64"], f# %d, aFrame %d/%d %p, dataPtr %p, dataSize %d\n", pAV->aPTS, pkt_pts, aDTS, pAFrameCurrent->pkt_dts, frameCount, pAV->aFrameCurrent, pAV->aFrameCount, pAFrameCurrent, pAFrameCurrent->data[0], data_size); } if( NULL != env ) { void* data_ptr = pAFrameCurrent->data[0]; // default if( NULL != pAV->swResampleCtx ) { uint8_t *tmp_out; int out_samples=-1, out_size, out_linesize; int osize = sp_av_get_bytes_per_sample( pAV->aSampleFmtOut ); int nb_samples = pAFrameCurrent->nb_samples; out_size = sp_av_samples_get_buffer_size(&out_linesize, pAV->aChannelsOut, nb_samples, pAV->aSampleFmtOut, 0 /* align */); tmp_out = sp_av_realloc(pAV->aResampleBuffer, out_size); if (!tmp_out) { JoglCommon_throwNewRuntimeException(env, "Couldn't alloc resample buffer of size %d", out_size); return INVALID_PTS; } pAV->aResampleBuffer = tmp_out; if( NULL != pAV->swResampleCtx ) { out_samples = sp_swr_convert(pAV->swResampleCtx, &pAV->aResampleBuffer, nb_samples, (const uint8_t **)pAFrameCurrent->data, pAFrameCurrent->nb_samples); } if (out_samples < 0) { JoglCommon_throwNewRuntimeException(env, "avresample_convert() failed"); return INVALID_PTS; } data_size = out_samples * osize * pAV->aChannelsOut; data_ptr = tmp_out; } NIOBuffer_t * pNIOBufferCurrent = &pAV->pANIOBuffers[pAV->aFrameCurrent]; int newNIO = NULL == pNIOBufferCurrent->nioRef; if( !newNIO && ( data_ptr != pNIOBufferCurrent->origPtr || data_size > pNIOBufferCurrent->size ) ) { if(pAV->verbose) { fprintf(stderr, "A NIO: Free.0 ptr %p / ref %p, %d bytes\n", pNIOBufferCurrent->origPtr, pNIOBufferCurrent->nioRef, pNIOBufferCurrent->size); } (*env)->DeleteGlobalRef(env, pNIOBufferCurrent->nioRef); newNIO = 1; } if( newNIO ) { jobject jSampleData = (*env)->NewDirectByteBuffer(env, data_ptr, data_size); pNIOBufferCurrent->nioRef = (*env)->NewGlobalRef(env, jSampleData); pNIOBufferCurrent->origPtr = data_ptr; pNIOBufferCurrent->size = data_size; (*env)->DeleteLocalRef(env, jSampleData); if(pAV->verbose) { fprintf(stderr, "A NIO: Alloc ptr %p / ref %p, %d bytes\n", pNIOBufferCurrent->origPtr, pNIOBufferCurrent->nioRef, pNIOBufferCurrent->size); } } (*env)->CallVoidMethod(env, pAV->ffmpegMediaPlayer, ffmpeg_jni_mid_pushSound, pNIOBufferCurrent->nioRef, data_size, pAV->aPTS); } } } else if(pAV->packet->stream_index==pAV->vid) { // Decode video frame if(NULL == pAV->pVFrame) { sp_av_packet_unref(pAV->packet); return INVALID_PTS; } int res = 0; for (int frameCount=0; 0 <= res || 0 == frameCount; ++frameCount) { sp_av_frame_unref(pAV->pVFrame); if( 0 < send_pkt ) { // only send pkt once send_pkt = 0; res = sp_avcodec_send_packet(pAV->pVCodecCtx, pAV->packet); if ( AVERROR(EAGAIN) == res ) { // input is not accepted in the current state - user must read output res = 0; // continue draining frames if( pAV->verbose ) { fprintf(stderr, "V-P: EAGAIN @ %d\n", frameCount); } } else if ( AVERROR_EOF == res ) { // the decoder has been flushed, and no new packets can be sent to it res = 0; // continue draining frames if( pAV->verbose ) { fprintf(stderr, "V-P: EOF @ %d\n", frameCount); } } else if ( 0 > res ) { res = 0; // error, but continue draining frames if( pAV->verbose ) { fprintf(stderr, "V-P: ERROR %d @ %d\n", res, frameCount); } } } res = sp_avcodec_receive_frame(pAV->pVCodecCtx, pAV->pVFrame); if( 0 > res ) { if ( AVERROR(EAGAIN) == res ) { // output is not available in this state - user must try to send new input res = 0; if( 0 == frameCount && pAV->verbose ) { fprintf(stderr, "V-F: EAGAIN @ %d\n", frameCount); // drained at start } // else expected to be drained } else if ( AVERROR_EOF == res ) { // the decoder has been fully flushed res = 0; if( pAV->verbose ) { fprintf(stderr, "V-F: EOF @ %d\n", frameCount); } } else { if( pAV->verbose ) { fprintf(stderr, "V-F: ERROR %d @ %d\n", res, frameCount); } } break; // end loop } // FIXME: Libav Binary compatibility! JAU01 const AVRational time_base = pAV->pVStream->time_base; const int64_t pkt_pts = pAV->pVFrame->pts; const int64_t pkt_dts = pAV->pVFrame->pkt_dts; const int64_t fix_pts = evalPTS(&pAV->vPTSStats, pkt_pts, pkt_dts); if( AV_NOPTS_VALUE != fix_pts ) { // discard invalid PTS .. pAV->vPTS = my_av_q2i32( fix_pts * 1000, time_base); } if( pAV->verbose ) { const int32_t vPTS = AV_NOPTS_VALUE != pkt_pts ? my_av_q2i32( pkt_pts * 1000, time_base) : 0; const int32_t vDTS = AV_NOPTS_VALUE != pkt_dts ? my_av_q2i32( pkt_dts * 1000, time_base) : 0; const double frame_delay_d = av_q2d(pAV->pVCodecCtx->time_base); const double frame_repeat_d = pAV->pVFrame->repeat_pict * (frame_delay_d * 0.5); const int32_t frame_delay_i = my_av_q2i32(1000, pAV->pVCodecCtx->time_base); const int32_t frame_repeat_i = pAV->pVFrame->repeat_pict * (frame_delay_i / 2); const char * warn = frame_repeat_i > 0 ? "REPEAT" : "NORMAL" ; fprintf(stderr, "V fix_pts %d, pts %d [pkt_pts %"PRId64"], dts %d [pkt_dts %"PRId64"], time d(%lf s + r %lf = %lf s), i(%d ms + r %d = %d ms) - %s - f# %d, data %p, lsz %d\n", pAV->vPTS, vPTS, pkt_pts, vDTS, pkt_dts, frame_delay_d, frame_repeat_d, (frame_delay_d + frame_repeat_d), frame_delay_i, frame_repeat_i, (frame_delay_i + frame_repeat_i), warn, frameCount, pAV->pVFrame->data[0], pAV->pVFrame->linesize[0]); // fflush(NULL); } if( 0 == pAV->pVFrame->linesize[0] ) { sp_av_frame_unref(pAV->pVFrame); continue; } resPTS = pAV->vPTS; // Video Frame! int p_offset[] = { 0, 0, 0, 0 }; if( pAV->pVFrame->linesize[0] < 0 ) { if( JNI_FALSE == pAV->vFlipped ) { pAV->vFlipped = JNI_TRUE; _setIsGLOriented(env, pAV); } // image bottom-up int h_1 = pAV->pVCodecCtx->height - 1; p_offset[0] = pAV->pVFrame->linesize[0] * h_1; if( pAV->vBufferPlanes > 1 ) { p_offset[1] = pAV->pVFrame->linesize[1] * h_1; } if( pAV->vBufferPlanes > 2 ) { p_offset[2] = pAV->pVFrame->linesize[2] * h_1; } /** if( pAV->vBufferPlanes > 3 ) { p_offset[3] = pAV->pVFrame->linesize[3] * h_1; } */ } else if( JNI_TRUE == pAV->vFlipped ) { pAV->vFlipped = JNI_FALSE; _setIsGLOriented(env, pAV); } // 1st plane or complete packed frame // FIXME: Libav Binary compatibility! JAU01 DBG_TEXSUBIMG2D_a('Y',pAV,1,1,1,0); pAV->procAddrGLTexSubImage2D(texTarget, 0, 0, 0, pAV->vTexWidth[0], pAV->pVCodecCtx->height, texFmt, texType, pAV->pVFrame->data[0] + p_offset[0]); DBG_TEXSUBIMG2D_b(pAV); if( pAV->vPixFmt == AV_PIX_FMT_YUV420P || pAV->vPixFmt == AV_PIX_FMT_YUVJ420P ) { // U plane // FIXME: Libav Binary compatibility! JAU01 DBG_TEXSUBIMG2D_a('U',pAV,1,1,2,1); pAV->procAddrGLTexSubImage2D(texTarget, 0, pAV->pVCodecCtx->width, 0, pAV->vTexWidth[1], pAV->pVCodecCtx->height/2, texFmt, texType, pAV->pVFrame->data[1] + p_offset[1]); DBG_TEXSUBIMG2D_b(pAV); // V plane // FIXME: Libav Binary compatibility! JAU01 DBG_TEXSUBIMG2D_a('V',pAV,1,1,2,2); pAV->procAddrGLTexSubImage2D(texTarget, 0, pAV->pVCodecCtx->width, pAV->pVCodecCtx->height/2, pAV->vTexWidth[2], pAV->pVCodecCtx->height/2, texFmt, texType, pAV->pVFrame->data[2] + p_offset[2]); DBG_TEXSUBIMG2D_b(pAV); } else if( pAV->vPixFmt == AV_PIX_FMT_YUV422P || pAV->vPixFmt == AV_PIX_FMT_YUVJ422P ) { // U plane // FIXME: Libav Binary compatibility! JAU01 DBG_TEXSUBIMG2D_a('U',pAV,1,1,1,1); pAV->procAddrGLTexSubImage2D(texTarget, 0, pAV->pVCodecCtx->width, 0, pAV->vTexWidth[1], pAV->pVCodecCtx->height, texFmt, texType, pAV->pVFrame->data[1] + p_offset[1]); DBG_TEXSUBIMG2D_b(pAV); // V plane // FIXME: Libav Binary compatibility! JAU01 DBG_TEXSUBIMG2D_a('V',pAV,3,2,1,1); pAV->procAddrGLTexSubImage2D(texTarget, 0, pAV->pVCodecCtx->width+pAV->pVCodecCtx->width/2, 0, pAV->vTexWidth[2], pAV->pVCodecCtx->height, texFmt, texType, pAV->pVFrame->data[2] + p_offset[2]); DBG_TEXSUBIMG2D_b(pAV); } // FIXME: Add more planar formats ! pAV->procAddrGLFinish(); //pAV->procAddrGLFlush(); sp_av_frame_unref(pAV->pVFrame); } } // restore orig pointer and size values, we may have moved along within packet sp_av_packet_unref(pAV->packet); } return resPTS; } static void initPTSStats(PTSStats *ptsStats) { ptsStats->ptsError = 0; ptsStats->dtsError = 0; ptsStats->ptsLast = INT64_MIN; ptsStats->dtsLast = INT64_MIN; } static int64_t evalPTS(PTSStats *ptsStats, int64_t inPTS, int64_t inDTS) { int64_t resPTS = AV_NOPTS_VALUE; if ( inDTS != AV_NOPTS_VALUE ) { ptsStats->dtsError += inDTS <= ptsStats->dtsLast; ptsStats->dtsLast = inDTS; } if ( inPTS != AV_NOPTS_VALUE ) { ptsStats->ptsError += inPTS <= ptsStats->ptsLast; ptsStats->ptsLast = inPTS; } if ( inPTS != AV_NOPTS_VALUE && ( ptsStats->ptsError<=ptsStats->dtsError || inDTS == AV_NOPTS_VALUE ) ) { resPTS = inPTS; } else { resPTS = inDTS; } return resPTS; } JNIEXPORT jint JNICALL FF_FUNC(play0) (JNIEnv *env, jobject instance, jlong ptr) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); return sp_av_read_play(pAV->pFormatCtx); } JNIEXPORT jint JNICALL FF_FUNC(pause0) (JNIEnv *env, jobject instance, jlong ptr) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); return sp_av_read_pause(pAV->pFormatCtx); } JNIEXPORT jint JNICALL FF_FUNC(seek0) (JNIEnv *env, jobject instance, jlong ptr, jint pos1) { const FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); int64_t pos0, pts0; int streamID; AVRational time_base; if( pAV->vid >= 0 ) { pos0 = pAV->vPTS; streamID = pAV->vid; time_base = pAV->pVStream->time_base; pts0 = pAV->pVFrame->pts; } else if( pAV->aid >= 0 ) { pos0 = pAV->aPTS; streamID = pAV->aid; time_base = pAV->pAStream->time_base; pts0 = pAV->pAFrames[pAV->aFrameCurrent]->pts; } else { return pAV->vPTS; } int64_t pts1 = (int64_t) (pos1 * (int64_t) time_base.den) / (1000 * (int64_t) time_base.num); if(pAV->verbose) { fprintf(stderr, "SEEK: vid %d, aid %d, pos0 %"PRId64", pos1 %d, pts: %"PRId64" -> %"PRId64"\n", pAV->vid, pAV->aid, pos0, pos1, pts0, pts1); } int flags = 0; if(pos1 < pos0) { flags |= AVSEEK_FLAG_BACKWARD; } int res = -2; if(HAS_FUNC(sp_av_seek_frame)) { if(pAV->verbose) { fprintf(stderr, "SEEK.0: pre : s %"PRId64" / %"PRId64" -> t %d / %"PRId64"\n", pos0, pts0, pos1, pts1); } sp_av_seek_frame(pAV->pFormatCtx, streamID, pts1, flags); } else if(HAS_FUNC(sp_avformat_seek_file)) { int64_t ptsD = pts1 - pts0; int64_t seek_min = ptsD > 0 ? pts1 - ptsD : INT64_MIN; int64_t seek_max = ptsD < 0 ? pts1 - ptsD : INT64_MAX; if(pAV->verbose) { fprintf(stderr, "SEEK.1: pre : s %"PRId64" / %"PRId64" -> t %d / %"PRId64" [%"PRId64" .. %"PRId64"]\n", pos0, pts0, pos1, pts1, seek_min, seek_max); } res = sp_avformat_seek_file(pAV->pFormatCtx, -1, seek_min, pts1, seek_max, flags); } if(NULL != pAV->pVCodecCtx) { sp_avcodec_flush_buffers( pAV->pVCodecCtx ); } if(NULL != pAV->pACodecCtx) { sp_avcodec_flush_buffers( pAV->pACodecCtx ); } const jint rPTS = my_av_q2i32( ( pAV->vid >= 0 ? pAV->pVFrame->pts : pAV->pAFrames[pAV->aFrameCurrent]->pts ) * 1000, time_base); if(pAV->verbose) { fprintf(stderr, "SEEK: post : res %d, u %d\n", res, rPTS); } return rPTS; } JNIEXPORT jint JNICALL FF_FUNC(getVideoPTS0) (JNIEnv *env, jobject instance, jlong ptr) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); return pAV->vPTS; } JNIEXPORT jint JNICALL FF_FUNC(getAudioPTS0) (JNIEnv *env, jobject instance, jlong ptr) { FFMPEGToolBasicAV_t *pAV = (FFMPEGToolBasicAV_t *)((void *)((intptr_t)ptr)); return pAV->aPTS; }