Ejemplos de gf_bs_skip_bytes en C++ (Cpp)

Ejemplo n.º 1

Archivo: sample_descs.c Proyecto: noelove/GPAC-old

GF_Err gf_isom_audio_sample_entry_read(GF_AudioSampleEntryBox *ptr, GF_BitStream *bs)
{
	if (ptr->size<28) return GF_ISOM_INVALID_FILE;

	gf_bs_read_data(bs, ptr->reserved, 6);
	ptr->dataReferenceIndex = gf_bs_read_u16(bs);
	ptr->version = gf_bs_read_u16(bs);
	ptr->revision = gf_bs_read_u16(bs);
	ptr->vendor = gf_bs_read_u32(bs);
	ptr->channel_count = gf_bs_read_u16(bs);
	ptr->bitspersample = gf_bs_read_u16(bs);
	ptr->compression_id = gf_bs_read_u16(bs);
	ptr->packet_size = gf_bs_read_u16(bs);
	ptr->samplerate_hi = gf_bs_read_u16(bs);
	ptr->samplerate_lo = gf_bs_read_u16(bs);

	ptr->size -= 28;
	if (ptr->version==1) {
		if (ptr->size<16) return GF_ISOM_INVALID_FILE;
		gf_bs_skip_bytes(bs, 16);
		ptr->size-=16;
	} else if (ptr->version==2) {
		if (ptr->size<36) return GF_ISOM_INVALID_FILE;
		gf_bs_skip_bytes(bs, 36);
		ptr->size -= 36;
	}
	return GF_OK;
}

Ejemplo n.º 2

Archivo: ac3_in.c Proyecto: DmitrySigaev/gpac-sf

static Bool AC3_ConfigureFromFile(AC3Reader *read)
{
	Bool sync;
	GF_BitStream *bs;
	GF_AC3Header hdr;
	memset(&hdr, 0, sizeof(GF_AC3Header));
	if (!read->stream) return 0;
	bs = gf_bs_from_file(read->stream, GF_BITSTREAM_READ);


	sync = gf_ac3_parser_bs(bs, &hdr, GF_TRUE);
	if (!sync) {
		gf_bs_del(bs);
		return GF_FALSE;
	}
	read->nb_ch = hdr.channels;
	read->sample_rate = hdr.sample_rate;
	read->duration = 0;

	if (!read->is_remote) {
		read->duration = 1536;
		gf_bs_skip_bytes(bs, hdr.framesize);
		while (gf_ac3_parser_bs(bs, &hdr, GF_FALSE)) {
			read->duration += 1536;
			gf_bs_skip_bytes(bs, hdr.framesize);
		}
	}
	gf_bs_del(bs);
	gf_f64_seek(read->stream, 0, SEEK_SET);
	return 1;
}

Ejemplo n.º 3

static Bool AAC_ConfigureFromFile(AACReader *read)
{
	Bool sync;
	GF_BitStream *bs;
	ADTSHeader hdr;
	if (!read->stream) return 0;
	bs = gf_bs_from_file(read->stream, GF_BITSTREAM_READ);

	sync = ADTS_SyncFrame(bs, !read->is_remote, &hdr);
	if (!sync) {
		gf_bs_del(bs);
		return 0;
	}
	read->nb_ch = hdr.nb_ch;
	read->prof = hdr.profile;
	read->sr_idx = hdr.sr_idx;
	read->oti = hdr.is_mp2 ? read->prof+0x66 : 0x40;
	read->sample_rate = GF_M4ASampleRates[read->sr_idx];

	read->duration = 0;
	
	if (!read->is_remote) {
		read->duration = 1024;
		gf_bs_skip_bytes(bs, hdr.frame_size);
		while (ADTS_SyncFrame(bs, !read->is_remote, &hdr)) {
			read->duration += 1024;
			gf_bs_skip_bytes(bs, hdr.frame_size);
		}
	}
	gf_bs_del(bs);
	fseek(read->stream, 0, SEEK_SET);
	return 1;
}

Ejemplo n.º 4

Archivo: hinting.c Proyecto: ARSekkat/gpac

GF_Err Read_ImmediateDTE(GF_ImmediateDTE *dte, GF_BitStream *bs)
{
	dte->dataLength = gf_bs_read_u8(bs);
	if (dte->dataLength > 14) return GF_ISOM_INVALID_FILE;
	gf_bs_read_data(bs, dte->data, dte->dataLength);
	if (dte->dataLength < 14) gf_bs_skip_bytes(bs, 14 - dte->dataLength);
	return GF_OK;
}

Ejemplo n.º 5

Archivo: ac3_in.c Proyecto: DmitrySigaev/gpac-sf

static void AC3_OnLiveData(AC3Reader *read, const char *data, u32 data_size)
{
	u64 pos;
	Bool sync;
	GF_BitStream *bs;
	GF_AC3Header hdr;

	memset(&hdr, 0, sizeof(GF_AC3Header));

	read->data = gf_realloc(read->data, sizeof(char)*(read->data_size+data_size) );
	memcpy(read->data + read->data_size, data, sizeof(char)*data_size);
	read->data_size += data_size;

	if (read->needs_connection) {
		read->needs_connection = 0;
		bs = gf_bs_new((char *) read->data, read->data_size, GF_BITSTREAM_READ);
		sync = gf_ac3_parser_bs(bs, &hdr, GF_TRUE);
		gf_bs_del(bs);
		if (!sync) return;
		read->nb_ch = hdr.channels;
		read->sample_rate = hdr.sample_rate;
		read->is_live = 1;
		memset(&read->sl_hdr, 0, sizeof(GF_SLHeader));
		gf_service_connect_ack(read->service, NULL, GF_OK);
		AC3_SetupObject(read);
	}
	if (!read->ch) return;

	/*need a full ac3 header*/
	if (read->data_size<=7) return;

	bs = gf_bs_new((char *) read->data, read->data_size, GF_BITSTREAM_READ);
	hdr.framesize = 0;
	pos = 0;
	while (gf_ac3_parser_bs(bs, &hdr, GF_FALSE)) {
		pos = gf_bs_get_position(bs);
		read->sl_hdr.accessUnitStartFlag = 1;
		read->sl_hdr.accessUnitEndFlag = 1;
		read->sl_hdr.AU_sequenceNumber++;
		read->sl_hdr.compositionTimeStampFlag = 1;
		read->sl_hdr.compositionTimeStamp += 1536;
		gf_service_send_packet(read->service, read->ch, (char *) read->data + pos, hdr.framesize, &read->sl_hdr, GF_OK);
		gf_bs_skip_bytes(bs, hdr.framesize);
	}

	pos = gf_bs_get_position(bs);
	gf_bs_del(bs);

	if (pos) {
		u8 *d;
		read->data_size -= (u32) pos;
		d = gf_malloc(sizeof(char) * read->data_size);
		memcpy(d, read->data + pos, sizeof(char) * read->data_size);
		gf_free(read->data);
		read->data = d;
	}
	AC3_RegulateDataRate(read);
}

Ejemplo n.º 6

static void AAC_OnLiveData(AACReader *read, char *data, u32 data_size)
{
	u32 pos;
	Bool sync;
	GF_BitStream *bs;
	ADTSHeader hdr;
	
	read->data = realloc(read->data, sizeof(char)*(read->data_size+data_size) );
	memcpy(read->data + read->data_size, data, sizeof(char)*data_size);
	read->data_size += data_size;

	if (read->needs_connection) {
		read->needs_connection = 0;
		bs = gf_bs_new(read->data, read->data_size, GF_BITSTREAM_READ);
		sync = ADTS_SyncFrame(bs, 0, &hdr);
		gf_bs_del(bs);
		if (!sync) return;
		read->nb_ch = hdr.nb_ch;
		read->prof = hdr.profile;
		read->sr_idx = hdr.sr_idx;
		read->oti = hdr.is_mp2 ? read->prof+0x66-1 : 0x40;
		read->sample_rate = GF_M4ASampleRates[read->sr_idx];
		read->is_live = 1;
		memset(&read->sl_hdr, 0, sizeof(GF_SLHeader));
		gf_term_on_connect(read->service, NULL, GF_OK);
		AAC_SetupObject(read);
	}
	if (!read->ch) return;

	/*need a full adts header*/
	if (read->data_size<=7) return;

	bs = gf_bs_new(read->data, read->data_size, GF_BITSTREAM_READ);
	hdr.frame_size = pos = 0;
	while (ADTS_SyncFrame(bs, 0, &hdr)) {
		pos = (u32) gf_bs_get_position(bs);
		read->sl_hdr.accessUnitStartFlag = 1;
		read->sl_hdr.accessUnitEndFlag = 1;
		read->sl_hdr.AU_sequenceNumber++;
		read->sl_hdr.compositionTimeStampFlag = 1;
		read->sl_hdr.compositionTimeStamp += 1024;
		gf_term_on_sl_packet(read->service, read->ch, read->data + pos, hdr.frame_size, &read->sl_hdr, GF_OK);
		gf_bs_skip_bytes(bs, hdr.frame_size);
	}

	pos = (u32) gf_bs_get_position(bs);
	gf_bs_del(bs);

	if (pos) {
		char *d;
		read->data_size -= pos;
		d = malloc(sizeof(char) * read->data_size);
		memcpy(d, read->data + pos, sizeof(char) * read->data_size);
		free(read->data);
		read->data = d;
	}
	AAC_RegulateDataRate(read);
}

Ejemplo n.º 7

static Bool ADTS_SyncFrame(GF_BitStream *bs, Bool is_complete, ADTSHeader *hdr)
{
	u32 val, pos, start_pos;

	start_pos = (u32) gf_bs_get_position(bs);
	while (gf_bs_available(bs)) {
		val = gf_bs_read_u8(bs);
		if (val!=0xFF) continue;
		val = gf_bs_read_int(bs, 4);
		if (val != 0x0F) {
			gf_bs_read_int(bs, 4);
			continue;
		}
		hdr->is_mp2 = gf_bs_read_int(bs, 1);
		gf_bs_read_int(bs, 2);
		hdr->no_crc = gf_bs_read_int(bs, 1);
		pos = (u32) gf_bs_get_position(bs) - 2;

		hdr->profile = 1 + gf_bs_read_int(bs, 2);
		hdr->sr_idx = gf_bs_read_int(bs, 4);
		gf_bs_read_int(bs, 1);
		hdr->nb_ch = gf_bs_read_int(bs, 3);
		gf_bs_read_int(bs, 4);
		hdr->frame_size = gf_bs_read_int(bs, 13);
		gf_bs_read_int(bs, 11);
		gf_bs_read_int(bs, 2);
		hdr->hdr_size = 7;
		if (!hdr->no_crc) {
			gf_bs_read_u16(bs);
			hdr->hdr_size = 9;
		}
		if (hdr->frame_size < hdr->hdr_size) {
			gf_bs_seek(bs, pos+1);
			continue;
		}
		hdr->frame_size -= hdr->hdr_size;
		if (is_complete && (gf_bs_available(bs) == hdr->frame_size)) return 1;
		else if (gf_bs_available(bs) <= hdr->frame_size) break;

		gf_bs_skip_bytes(bs, hdr->frame_size);
		val = gf_bs_read_u8(bs);
		if (val!=0xFF) {
			gf_bs_seek(bs, pos+1);
			continue;
		}
		val = gf_bs_read_int(bs, 4);
		if (val!=0x0F) {
			gf_bs_read_int(bs, 4);
			gf_bs_seek(bs, pos+1);
			continue;
		}
		gf_bs_seek(bs, pos+hdr->hdr_size);
		return 1;
	}
	gf_bs_seek(bs, start_pos);
	return 0;
}

Ejemplo n.º 8

Archivo: box_code_drm.c Proyecto: jayden717/ccextractor

GF_Err senc_Read(GF_Box *s, GF_BitStream *bs)
{
	GF_SampleEncryptionBox *ptr = (GF_SampleEncryptionBox *)s;
	//WARNING - PSEC (UUID) IS TYPECASTED TO SENC (FULL BOX) SO WE CANNOT USE USUAL FULL BOX FUNCTIONS
	ptr->version = gf_bs_read_u8(bs);
	ptr->flags = gf_bs_read_u24(bs);
	ISOM_DECREASE_SIZE(ptr, 4);

	ptr->bs_offset = gf_bs_get_position(bs);
	gf_bs_skip_bytes(bs, ptr->size);
	ptr->size = 0;
	return GF_OK;
}

Ejemplo n.º 9

Archivo: box_code_drm.c Proyecto: EyeSee360/gpac

GF_Err piff_psec_Read(GF_Box *s, GF_BitStream *bs)
{
	GF_PIFFSampleEncryptionBox *ptr = (GF_PIFFSampleEncryptionBox *)s;
	if (ptr->size<4) return GF_ISOM_INVALID_FILE;
	ptr->version = gf_bs_read_u8(bs);
	ptr->flags = gf_bs_read_u24(bs);
	ptr->size -= 4;

	if (ptr->flags & 1) {
		ptr->AlgorithmID = gf_bs_read_int(bs, 24);
		ptr->IV_size = gf_bs_read_u8(bs);
		gf_bs_read_data(bs, (char *) ptr->KID, 16);
		ptr->size -= 20;
	}

	ptr->bs_offset = gf_bs_get_position(bs);
	gf_bs_skip_bytes(bs, ptr->size);
	ptr->size = 0;
	return GF_OK;
}

Ejemplo n.º 10

Archivo: saf_in.c Proyecto: Bevara/GPAC

static void SAF_CheckFile(SAFIn *read)
{
	u32 nb_streams, i, cts, au_size, au_type, stream_id, ts_res;
	GF_BitStream *bs;
	StreamInfo si[1024];
	gf_f64_seek(read->stream, 0, SEEK_SET);
	bs = gf_bs_from_file(read->stream, GF_BITSTREAM_READ);

	nb_streams=0;
	while (gf_bs_available(bs)) {
		gf_bs_read_u16(bs);
		gf_bs_read_int(bs, 2);
		cts = gf_bs_read_int(bs, 30);
		au_size = gf_bs_read_int(bs, 16);
		au_type = gf_bs_read_int(bs, 4);
		stream_id = gf_bs_read_int(bs, 12);
		au_size-=2;
		ts_res = 0;
		for (i=0; i<nb_streams; i++) {
			if (si[i].stream_id==stream_id) ts_res = si[i].ts_res;
		}
		if (!ts_res) {
			if ((au_type==1) || (au_type==2) || (au_type==7)) {
				gf_bs_read_u16(bs);
				ts_res = gf_bs_read_u24(bs);
				au_size -= 5;
				si[nb_streams].stream_id = stream_id;
				si[nb_streams].ts_res = ts_res;
				nb_streams++;
			}
		}
		if (ts_res && (au_type==4)) {
			Double ts = cts;
			ts /= ts_res;
			if (ts>read->duration) read->duration = ts;
		}
		gf_bs_skip_bytes(bs, au_size);
	}
	gf_bs_del(bs);
	gf_f64_seek(read->stream, 0, SEEK_SET);
}

Ejemplo n.º 11

Archivo: svg_in.c Proyecto: DmitrySigaev/gpac-sf

static GF_Err SVG_ProcessData(GF_SceneDecoder *plug, const char *inBuffer, u32 inBufferLength,
                              u16 ES_ID, u32 stream_time, u32 mmlevel)
{
	GF_Err e = GF_OK;
	SVGIn *svgin = (SVGIn *)plug->privateStack;

	if (stream_time==(u32)-1) {
		if (svgin->src) gzclose(svgin->src);
		svgin->src = NULL;
		gf_sm_load_done(&svgin->loader);
		svgin->loader.fileName = NULL;
		svgin->file_pos = 0;
		gf_sg_reset(svgin->scene->graph);
		return GF_OK;
	}

	switch (svgin->oti) {
	/*!OTI for SVG dummy stream (dsi = file name) - GPAC internal*/
	case GPAC_OTI_PRIVATE_SCENE_SVG:
		/*full doc parsing*/
		if ((svgin->sax_max_duration==(u32) -1) && svgin->file_size) {
			/*init step*/
			if (!svgin->loader.fileName) {
				/*not done yet*/
				if (!svg_check_download(svgin)) return GF_OK;
				svgin->loader.fileName = svgin->file_name;
				e = gf_sm_load_init(&svgin->loader);
			} else {
				e = gf_sm_load_run(&svgin->loader);
			}
		}
		/*chunk parsing*/
		else {
			u32 entry_time;
			char file_buf[SVG_PROGRESSIVE_BUFFER_SIZE+2];
			/*initial load*/
			if (!svgin->src && !svgin->file_pos) {
				svgin->src = gzopen(svgin->file_name, "rb");
				if (!svgin->src) return GF_URL_ERROR;
				svgin->loader.fileName = svgin->file_name;
				gf_sm_load_init(&svgin->loader);
			}
			e = GF_OK;
			entry_time = gf_sys_clock();

			while (1) {
				u32 diff;
				s32 nb_read;
				nb_read = gzread(svgin->src, file_buf, SVG_PROGRESSIVE_BUFFER_SIZE);
				/*we may have read nothing but we still need to call parse in case the parser got suspended*/
				if (nb_read<=0) {
					nb_read = 0;
					if ((e==GF_EOS) && gzeof(svgin->src)) {
						gf_set_progress("SVG Parsing", svgin->file_pos, svgin->file_size);
						gzclose(svgin->src);
						svgin->src = NULL;
						gf_sm_load_done(&svgin->loader);
					}
					goto exit;
				}

				file_buf[nb_read] = file_buf[nb_read+1] = 0;

				e = gf_sm_load_string(&svgin->loader, file_buf, 0);
				svgin->file_pos += nb_read;



				/*handle decompression*/
				if (svgin->file_pos > svgin->file_size) svgin->file_size = svgin->file_pos + 1;
				if (e) break;

				gf_set_progress("SVG Parsing", svgin->file_pos, svgin->file_size);
				diff = gf_sys_clock() - entry_time;
				if (diff > svgin->sax_max_duration) {
					break;
				}
			}
		}
		break;

	/*!OTI for streaming SVG - GPAC internal*/
	case GPAC_OTI_SCENE_SVG:
		e = gf_sm_load_string(&svgin->loader, inBuffer, 0);
		break;

	/*!OTI for streaming SVG + gz - GPAC internal*/
	case GPAC_OTI_SCENE_SVG_GZ:
		e = svgin_deflate(svgin, inBuffer, inBufferLength);
		break;

	/*!OTI for DIMS (dsi = 3GPP DIMS configuration) - GPAC internal*/
	case GPAC_OTI_SCENE_DIMS:
	{
		u8 prev, dims_hdr;
		u32 nb_bytes, size;
		u64 pos;
		char * buf2 = gf_malloc(inBufferLength);
		GF_BitStream *bs = gf_bs_new(inBuffer, inBufferLength, GF_BITSTREAM_READ);
		memcpy(buf2, inBuffer, inBufferLength);
//			FILE *f = gf_f64_open("dump.svg", "wb");
//
		while (gf_bs_available(bs)) {
			pos = gf_bs_get_position(bs);
			size = gf_bs_read_u16(bs);
			nb_bytes = 2;
			/*GPAC internal hack*/
			if (!size) {
				size = gf_bs_read_u32(bs);
				nb_bytes = 6;
			}
//	            gf_fwrite( inBuffer + pos + nb_bytes + 1, 1, size - 1, f );

			dims_hdr = gf_bs_read_u8(bs);
			prev = buf2[pos + nb_bytes + size];

			buf2[pos + nb_bytes + size] = 0;
			if (dims_hdr & GF_DIMS_UNIT_C) {
				e = svgin_deflate(svgin, buf2 + pos + nb_bytes + 1, size - 1);
			} else {
				e = gf_sm_load_string(&svgin->loader, buf2 + pos + nb_bytes + 1, 0);
			}
			buf2[pos + nb_bytes + size] = prev;
			gf_bs_skip_bytes(bs, size-1);

		}
//          fclose(f);
		gf_bs_del(bs);
	}
	break;

	default:
		return GF_BAD_PARAM;
	}

exit:
	if ((e>=GF_OK) && (svgin->scene->graph_attached!=1) && (gf_sg_get_root_node(svgin->loader.scene_graph)!=NULL) ) {
		gf_scene_attach_to_compositor(svgin->scene);
	}
	/*prepare for next playback*/
	if (e) {
		gf_sm_load_done(&svgin->loader);
		svgin->loader.fileName = NULL;
		e = GF_EOS;
	}
	return e;
}

Ejemplo n.º 12

Archivo: rtp_pck_3gpp.c Proyecto: erelh/gpac

GF_Err gp_rtp_builder_do_dims(GP_RTPPacketizer *builder, char *data, u32 data_size, u8 IsAUEnd, u32 FullAUSize, u32 duration)
{
	u32 frag_state;
	GF_BitStream *bs;
	u32 offset;
	Bool is_last_du;

	/*the DIMS hinter doesn't perform inter-sample concatenation*/
	if (!data) return GF_OK;

	offset = 0;
	builder->rtp_header.TimeStamp = (u32) builder->sl_header.compositionTimeStamp;
	bs = gf_bs_new(data, data_size, GF_BITSTREAM_READ);
	while (offset < data_size) {
		u32 du_offset = 0;
		u32 hdr_offset = 0;
		u32 orig_size, du_size;

		orig_size = du_size = 2+gf_bs_read_u16(bs);
		/*if dims size is >0xFFFF, use our internal hack for large units*/
		if (du_size==2) {
			orig_size = du_size = 2+gf_bs_read_u32(bs);
			hdr_offset = 4;
		}
		gf_bs_skip_bytes(bs, du_size-2);

		/*prepare M-bit*/
		is_last_du = (offset+du_size==data_size) ? 1 : 0;

		frag_state = 0;
		while (du_size) {
			u32 size_offset = 0;
			u32 size = du_size;

			/*does not fit, flush required*/
			if (builder->bytesInPacket && (du_size + 1 + builder->bytesInPacket > builder->Path_MTU)) {
				builder->OnPacketDone(builder->cbk_obj, &builder->rtp_header);
				builder->bytesInPacket = 0;
			}

			/*fragmentation required*/
			if (du_size + 1 > builder->Path_MTU) {
				size = builder->Path_MTU - 1;
				/*first fragment*/
				if (!frag_state) {
					/*size field is skipped !!*/
					size_offset = 2 + hdr_offset;
					frag_state = 1;

					while (du_size - size_offset <= size) {
						size--;
					}
				}
				/*any middle fragment*/
				else frag_state = 2;

				builder->rtp_header.Marker = 0;
			}
			/*last fragment*/
			else if (frag_state) {
				size = du_size;
				frag_state = 3;
				builder->rtp_header.Marker = is_last_du;
			} else {
				size = du_size;
				builder->rtp_header.Marker = is_last_du;
			}

			if (frag_state && builder->bytesInPacket) {
				builder->OnPacketDone(builder->cbk_obj, &builder->rtp_header);
				builder->bytesInPacket = 0;
			}

			/*need a new packet*/
			if (!builder->bytesInPacket) {
				char dims_rtp_hdr[1];

				/*the unit is critical, increase counter (coded on 3 bits)*/
				if (! (data[2+hdr_offset] & GF_DIMS_UNIT_P) && (frag_state <= 1) ) {
					builder->last_au_sn++;
					builder->last_au_sn %= 8;
				}
				/*set CTR value*/
				dims_rtp_hdr[0] = builder->last_au_sn;
				/*if M-bit is set in the dims unit header, replicate it*/
				if (data[2+hdr_offset] & (1<<1) ) dims_rtp_hdr[0] |= (1<<6);
				/*add unit fragmentation type*/
				dims_rtp_hdr[0] |= (frag_state<<3);

				builder->rtp_header.SequenceNumber += 1;
				builder->OnNewPacket(builder->cbk_obj, &builder->rtp_header);
				builder->OnData(builder->cbk_obj, (char *) dims_rtp_hdr, 1, 1);
				builder->bytesInPacket = 1;
			}

			/*add payload*/
			if (builder->OnDataReference)
				builder->OnDataReference(builder->cbk_obj, size, offset+du_offset+size_offset);
			else
				builder->OnData(builder->cbk_obj, data+offset+du_offset+size_offset, size, 0);

			/*if fragmentation, force packet flush even on last packet since aggregation unit do not
			use the same packet format*/
			if (frag_state) {
				builder->OnPacketDone(builder->cbk_obj, &builder->rtp_header);
				builder->bytesInPacket = 0;
			} else {
				builder->bytesInPacket += size;
			}
			du_offset += size+size_offset;
			assert(du_size>= size+size_offset);
			du_size -= size+size_offset;
		}
		offset += orig_size;
	}
	if (builder->bytesInPacket) {
		builder->OnPacketDone(builder->cbk_obj, &builder->rtp_header);
		builder->bytesInPacket = 0;
	}
	gf_bs_del(bs);
	return GF_OK;
}

Ejemplo n.º 13

GF_EXPORT
void gf_img_parse(GF_BitStream *bs, u8 *OTI, u32 *mtype, u32 *width, u32 *height, char **dsi, u32 *dsi_len)
{
	u8 b1, b2, b3;
	u32 size, type;
	u64 pos;
	pos = gf_bs_get_position(bs);
	gf_bs_seek(bs, 0);

	*mtype = *width = *height = 0;
	*OTI = 0;
	if (dsi) {
		*dsi = NULL;
		*dsi_len = 0;
	}

	b1 = gf_bs_read_u8(bs);
	b2 = gf_bs_read_u8(bs);
	b3 = gf_bs_read_u8(bs);
	/*JPEG*/
	if ((b1==0xFF) && (b2==0xD8) && (b3==0xFF)) {
		u32 offset = 0;
		u32 Xdens, Ydens, nb_comp;
		gf_bs_read_u8(bs);
		gf_bs_skip_bytes(bs, 10);	/*2 size, 5 JFIF\0, 2 version, 1 units*/
		Xdens = gf_bs_read_int(bs, 16);
		Ydens = gf_bs_read_int(bs, 16);
		nb_comp = 0;

		/*get frame header FFC0*/
		while (gf_bs_available(bs)) {
			u32 type, w, h;
			if (gf_bs_read_u8(bs) != 0xFF) continue;
			if (!offset) offset = (u32)gf_bs_get_position(bs) - 1;

			type = gf_bs_read_u8(bs);
			/*process all Start of Image markers*/
			switch (type) {
			case 0xC0:
			case 0xC1:
			case 0xC2:
			case 0xC3:
			case 0xC5:
			case 0xC6:
			case 0xC7:
			case 0xC9:
			case 0xCA:
			case 0xCB:
			case 0xCD:
			case 0xCE:
			case 0xCF:
				gf_bs_skip_bytes(bs, 3);
				h = gf_bs_read_int(bs, 16);
				w = gf_bs_read_int(bs, 16);
				if ((w > *width) || (h > *height)) {
					*width = w;
					*height = h;
				}
				nb_comp = gf_bs_read_int(bs, 8);
				break;
			}
		}
		*OTI = GPAC_OTI_IMAGE_JPEG;
		*mtype = GF_4CC('j','p','e','g');
		if (dsi) {
			GF_BitStream *bs_dsi = gf_bs_new(NULL, 0, GF_BITSTREAM_WRITE);
			gf_bs_write_u16(bs_dsi, offset);
			gf_bs_write_u16(bs_dsi, Xdens);
			gf_bs_write_u16(bs_dsi, Ydens);
			gf_bs_write_u8(bs_dsi, nb_comp);
			gf_bs_get_content(bs_dsi, dsi, dsi_len);
			gf_bs_del(bs_dsi);
		}
	}
	/*PNG*/
	else if ((b1==0x89) && (b2==0x50) && (b3==0x4E)) {
		/*check for PNG sig*/
		if ( (gf_bs_read_u8(bs) != 0x47) || (gf_bs_read_u8(bs) != 0x0D) || (gf_bs_read_u8(bs) != 0x0A)
			|| (gf_bs_read_u8(bs) != 0x1A) || (gf_bs_read_u8(bs) != 0x0A) ) goto exit;
		gf_bs_read_u32(bs);
		/*check for PNG IHDR*/
		if ( (gf_bs_read_u8(bs) != 'I') || (gf_bs_read_u8(bs) != 'H')
			|| (gf_bs_read_u8(bs) != 'D') || (gf_bs_read_u8(bs) != 'R')) goto exit;

		*width = gf_bs_read_u32(bs);
		*height = gf_bs_read_u32(bs);
		*OTI = GPAC_OTI_IMAGE_PNG;
		*mtype = GF_4CC('p','n','g',' ');
	}
	size = gf_bs_read_u8(bs);
	type = gf_bs_read_u32(bs);
	if ( ((size==12) && (type==GF_4CC('j','P',' ',' ') ))
		|| (type==GF_4CC('j','p','2','h') ) ) {

		if (type==GF_4CC('j','p','2','h')) {
			*OTI = GPAC_OTI_IMAGE_JPEG_2000;
			*mtype = GF_4CC('j','p','2',' ');
			goto j2k_restart;
		}

		type = gf_bs_read_u32(bs);
		if (type!=0x0D0A870A) goto exit;

		*OTI = GPAC_OTI_IMAGE_JPEG_2000;
		*mtype = GF_4CC('j','p','2',' ');

		while (gf_bs_available(bs)) {
j2k_restart:
			size = gf_bs_read_u32(bs);
			type = gf_bs_read_u32(bs);
			switch (type) {
			case GF_4CC('j','p','2','h'):
				goto j2k_restart;
			case GF_4CC('i','h','d','r'):
			{
				u16 nb_comp;
				u8 BPC, C, UnkC, IPR;
				*height = gf_bs_read_u32(bs);
				*width = gf_bs_read_u32(bs);
				nb_comp = gf_bs_read_u16(bs);
				BPC = gf_bs_read_u8(bs);
				C = gf_bs_read_u8(bs);
				UnkC = gf_bs_read_u8(bs);
				IPR = gf_bs_read_u8(bs);

				if (dsi) {
					GF_BitStream *bs_dsi = gf_bs_new(NULL, 0, GF_BITSTREAM_WRITE);
					gf_bs_write_u32(bs_dsi, *height);
					gf_bs_write_u32(bs_dsi, *width);
					gf_bs_write_u16(bs_dsi, nb_comp);
					gf_bs_write_u8(bs_dsi, BPC);
					gf_bs_write_u8(bs_dsi, C);
					gf_bs_write_u8(bs_dsi, UnkC);
					gf_bs_write_u8(bs_dsi, IPR);
					gf_bs_get_content(bs_dsi, dsi, dsi_len);
					gf_bs_del(bs_dsi);
				}
				goto exit;
			}
				break;
			default:
				gf_bs_skip_bytes(bs, size-8);
				break;
			}
		}
	}

exit:
	gf_bs_seek(bs, pos);
}

Ejemplo n.º 14

Archivo: descriptors.c Proyecto: 17eparker/ccextractor

GF_EXPORT
GF_Err gf_odf_parse_descriptor(GF_BitStream *bs, GF_Descriptor **desc, u32 *desc_size)
{
	u32 val, size, sizeHeader;
	u8 tag;
	GF_Err err;
	GF_Descriptor *newDesc;
	if (!bs) return GF_BAD_PARAM;

	*desc_size = 0;

	//tag
	tag = (u8) gf_bs_read_int(bs, 8);
	sizeHeader = 1;
	
	//size
	size = 0;
	do {
		val = gf_bs_read_int(bs, 8);
		sizeHeader++;
		size <<= 7;
		size |= val & 0x7F;
	} while ( val & 0x80);
	*desc_size = size;

	GF_LOG(GF_LOG_DEBUG, GF_LOG_CODEC, ("[ODF] Reading descriptor (tag %d size %d)\n", tag, size ));

	newDesc = gf_odf_create_descriptor(tag);
	if (! newDesc) {
		*desc = NULL;
		*desc_size = sizeHeader;
		if ( (tag >= GF_ODF_ISO_RES_BEGIN_TAG) &&
			(tag <= GF_ODF_ISO_RES_END_TAG) ) {
			return GF_ODF_FORBIDDEN_DESCRIPTOR;
		}
		else if (!tag || (tag == 0xFF)) {
			return GF_ODF_INVALID_DESCRIPTOR;
		}
#ifndef GPAC_MINIMAL_ODF
		return GF_OUT_OF_MEM;
#else
		gf_bs_skip_bytes(bs, size);
		*desc_size = size + sizeHeader - gf_odf_size_field_size(*desc_size);
		return GF_OK;
#endif
	}

	newDesc->tag = tag;
	err = gf_odf_read_descriptor(bs, newDesc, *desc_size);

	/*FFMPEG fix*/
	if ((tag==GF_ODF_SLC_TAG) && (((GF_SLConfig*)newDesc)->predefined==2)) {
		if (*desc_size==3) {
			*desc_size = 1;
			err = GF_OK;
		}
	}

	//little trick to handle lazy bitstreams that encode 
	//SizeOfInstance on a fix number of bytes
	//This nb of bytes is added in Read methods
	*desc_size += sizeHeader - gf_odf_size_field_size(*desc_size);
	*desc = newDesc;
	if (err) {
		GF_LOG(GF_LOG_ERROR, GF_LOG_CODEC, ("[ODF] Error reading descriptor (tag %d size %d): %s\n", tag, size, gf_error_to_string(err) ));
		gf_odf_delete_descriptor(newDesc);
		*desc = NULL;
	}
	return err;
}

Ejemplo n.º 15

Archivo: saf_in.c Proyecto: Bevara/GPAC

static void SAF_NetIO(void *cbk, GF_NETIO_Parameter *param)
{
	GF_Err e;
	Bool is_rap, go;
	SAFChannel *ch;
	u32 cts, au_sn, au_size, type, i, stream_id;
	u64 bs_pos;
	GF_BitStream *bs;
	GF_SLHeader sl_hdr;

	SAFIn *read = (SAFIn *) cbk;

	e = param->error;
	/*done*/
	if (param->msg_type==GF_NETIO_DATA_TRANSFERED) {
		if (read->stream && (read->saf_type==SAF_FILE_REMOTE)) read->saf_type = SAF_FILE_LOCAL;
		return;
	} else {
		/*handle service message*/
		gf_service_download_update_stats(read->dnload);
		if (param->msg_type!=GF_NETIO_DATA_EXCHANGE) {
			if (e<0) {
				if (read->needs_connection) {
					read->needs_connection = 0;
					gf_service_connect_ack(read->service, NULL, e);
				}
				return;
			}
			if (read->needs_connection) {
				u32 total_size;
				gf_dm_sess_get_stats(read->dnload, NULL, NULL, &total_size, NULL, NULL, NULL);
				if (!total_size) read->saf_type = SAF_LIVE_STREAM;
			}
			return;
		}
	}
	if (!param->size) return;

	if (!read->run_state) return;

	if (read->alloc_size < read->saf_size + param->size) {
		read->saf_data = (char*)gf_realloc(read->saf_data, sizeof(char)*(read->saf_size + param->size) );
		read->alloc_size = read->saf_size + param->size;
	}
	memcpy(read->saf_data + read->saf_size, param->data, sizeof(char)*param->size);
	read->saf_size += param->size;

	/*first AU not complete yet*/
	if (read->saf_size<10) return;

	bs = gf_bs_new(read->saf_data, read->saf_size, GF_BITSTREAM_READ);
	bs_pos = 0;

	go = 1;
	while (go) {
		u64 avail = gf_bs_available(bs);
		bs_pos = gf_bs_get_position(bs);

		if (avail<10) break;

		is_rap = gf_bs_read_int(bs, 1);
		au_sn = gf_bs_read_int(bs, 15);
		gf_bs_read_int(bs, 2);
		cts = gf_bs_read_int(bs, 30);
		au_size = gf_bs_read_int(bs, 16);
		avail-=8;

		if (au_size > avail) break;
		assert(au_size>=2);

		is_rap = 1;

		type = gf_bs_read_int(bs, 4);
		stream_id = gf_bs_read_int(bs, 12);
		au_size -= 2;

		ch = saf_get_channel(read, stream_id, NULL);
		switch (type) {
		case 1:
		case 2:
		case 7:
			if (ch) {
				gf_bs_skip_bytes(bs, au_size);
			} else {
				SAFChannel *first = (SAFChannel *)gf_list_get(read->channels, 0);
				GF_SAFEALLOC(ch, SAFChannel);
				ch->stream_id = stream_id;
				ch->esd = gf_odf_desc_esd_new(0);
				ch->esd->ESID = stream_id;
				ch->esd->OCRESID = first ? first->stream_id : stream_id;
				ch->esd->slConfig->useRandomAccessPointFlag = 1;
				ch->esd->slConfig->AUSeqNumLength = 0;
				ch->esd->decoderConfig->objectTypeIndication = gf_bs_read_u8(bs);
				ch->esd->decoderConfig->streamType = gf_bs_read_u8(bs);
				ch->ts_res = ch->esd->slConfig->timestampResolution = gf_bs_read_u24(bs);
				ch->esd->decoderConfig->bufferSizeDB = gf_bs_read_u16(bs);
				au_size -= 7;
				if ((ch->esd->decoderConfig->objectTypeIndication == 0xFF) && (ch->esd->decoderConfig->streamType == 0xFF) ) {
					u16 mimeLen = gf_bs_read_u16(bs);
					gf_bs_skip_bytes(bs, mimeLen);
					au_size -= mimeLen+2;
				}
				if (type==7) {
					u16 urlLen = gf_bs_read_u16(bs);
					ch->esd->URLString = (char*)gf_malloc(sizeof(char)*(urlLen+1));
					gf_bs_read_data(bs, ch->esd->URLString, urlLen);
					ch->esd->URLString[urlLen] = 0;
					au_size -= urlLen+2;
				}
				if (au_size) {
					ch->esd->decoderConfig->decoderSpecificInfo->dataLength = au_size;
					ch->esd->decoderConfig->decoderSpecificInfo->data = (char*)gf_malloc(sizeof(char)*au_size);
					gf_bs_read_data(bs, ch->esd->decoderConfig->decoderSpecificInfo->data, au_size);
				}
				if (ch->esd->decoderConfig->streamType==4) ch->buffer_min=100;
				else if (ch->esd->decoderConfig->streamType==5) ch->buffer_min=400;
				else ch->buffer_min=0;

				if (read->needs_connection && (ch->esd->decoderConfig->streamType==GF_STREAM_SCENE)) {
					gf_list_add(read->channels, ch);
					read->needs_connection = 0;
					gf_service_connect_ack(read->service, NULL, GF_OK);
				} else if (read->needs_connection) {
					gf_odf_desc_del((GF_Descriptor *) ch->esd);
					gf_free(ch);
					ch = NULL;
				} else {
					GF_ObjectDescriptor *od;
					gf_list_add(read->channels, ch);

					od = (GF_ObjectDescriptor*)gf_odf_desc_new(GF_ODF_OD_TAG);
					gf_list_add(od->ESDescriptors, ch->esd);
					ch->esd = NULL;
					od->objectDescriptorID = ch->stream_id;
					gf_service_declare_media(read->service, (GF_Descriptor*)od, 0);

				}
			}
			break;
		case 4:
			if (ch) {
				bs_pos = gf_bs_get_position(bs);
				memset(&sl_hdr, 0, sizeof(GF_SLHeader));
				sl_hdr.accessUnitLength = au_size;
				sl_hdr.AU_sequenceNumber = au_sn;
				sl_hdr.compositionTimeStampFlag = 1;
				sl_hdr.compositionTimeStamp = cts;
				sl_hdr.randomAccessPointFlag = is_rap;
				if (read->start_range && (read->start_range*ch->ts_res>cts*1000)) {
					sl_hdr.compositionTimeStamp = read->start_range*ch->ts_res/1000;
				}
				gf_service_send_packet(read->service, ch->ch, read->saf_data+bs_pos, au_size, &sl_hdr, GF_OK);
			}
			gf_bs_skip_bytes(bs, au_size);
			break;
		case 3:
			if (ch) gf_service_send_packet(read->service, ch->ch, NULL, 0, NULL, GF_EOS);
			break;
		case 5:
			go = 0;
			read->run_state = 0;
			i=0;
			while ((ch = (SAFChannel *)gf_list_enum(read->channels, &i))) {
				gf_service_send_packet(read->service, ch->ch, NULL, 0, NULL, GF_EOS);
			}
			break;
		}
	}

	gf_bs_del(bs);
	if (bs_pos) {
		u32 remain = (u32) (read->saf_size - bs_pos);
		if (remain) memmove(read->saf_data, read->saf_data+bs_pos, sizeof(char)*remain);
		read->saf_size = remain;
	}
	SAF_Regulate(read);
}

Ejemplo n.º 16

Archivo: avc_ext.c Proyecto: wipple/gpac

/* Rewrite mode:
 * mode = 0: playback
 * mode = 1: streaming
 */
GF_Err gf_isom_nalu_sample_rewrite(GF_MediaBox *mdia, GF_ISOSample *sample, u32 sampleNumber, GF_MPEGVisualSampleEntryBox *entry)
{
	Bool is_hevc = 0;
	GF_Err e = GF_OK;
	GF_ISOSample *ref_samp;
	GF_BitStream *src_bs, *ref_bs, *dst_bs;
	u64 offset;
	u32 ref_nalu_size, data_offset, data_length, copy_size, nal_size, max_size, di, nal_unit_size_field, cur_extract_mode, extractor_mode;
	Bool rewrite_ps, rewrite_start_codes;
	u8 ref_track_ID, ref_track_num;
	s8 sample_offset, nal_type;
	u32 nal_hdr;
	char *buffer;
	GF_ISOFile *file = mdia->mediaTrack->moov->mov;

	src_bs = ref_bs = dst_bs = NULL;
	ref_samp = NULL;
	buffer = NULL;
	rewrite_ps = (mdia->mediaTrack->extractor_mode & GF_ISOM_NALU_EXTRACT_INBAND_PS_FLAG) ? 1 : 0;
	if (! sample->IsRAP) rewrite_ps = 0;
	rewrite_start_codes = (mdia->mediaTrack->extractor_mode & GF_ISOM_NALU_EXTRACT_ANNEXB_FLAG) ? 1 : 0;
	extractor_mode = mdia->mediaTrack->extractor_mode&0x0000FFFF;

	if (extractor_mode == GF_ISOM_NALU_EXTRACT_INSPECT) {
		if (!rewrite_ps && !rewrite_start_codes)
			return GF_OK;
	}

	if (!entry) return GF_BAD_PARAM;
	nal_unit_size_field = 0;
	/*if svc rewrire*/
	if (entry->svc_config && entry->svc_config->config) nal_unit_size_field = entry->svc_config->config->nal_unit_size;
	/*if mvc rewrire*/

	/*otherwise do nothing*/
	else if (!rewrite_ps && !rewrite_start_codes) {
		return GF_OK;
	}

	if (!nal_unit_size_field) {
		if (entry->avc_config) nal_unit_size_field = entry->avc_config->config->nal_unit_size;
		else if (entry->hevc_config) {
			nal_unit_size_field = entry->hevc_config->config->nal_unit_size;
			is_hevc = 1;
		}
	}
	if (!nal_unit_size_field) return GF_ISOM_INVALID_FILE;

	dst_bs = gf_bs_new(NULL, 0, GF_BITSTREAM_WRITE);
	src_bs = gf_bs_new(sample->data, sample->dataLength, GF_BITSTREAM_READ);
	max_size = 4096;

	/*rewrite start code with NALU delim*/
	if (rewrite_start_codes) {
		gf_bs_write_int(dst_bs, 1, 32);
		if (is_hevc) {
			gf_bs_write_int(dst_bs, 0, 1);
			gf_bs_write_int(dst_bs, GF_HEVC_NALU_ACCESS_UNIT, 6);
			gf_bs_write_int(dst_bs, 0, 9);
			/*pic-type - by default we signal all slice types possible*/
			gf_bs_write_int(dst_bs, 2, 3);
			gf_bs_write_int(dst_bs, 0, 5);
		} else {
			gf_bs_write_int(dst_bs, (sample->data[0] & 0x60) | GF_AVC_NALU_ACCESS_UNIT, 8);
			gf_bs_write_int(dst_bs, 0xF0 , 8); /*7 "all supported NALUs" (=111) + rbsp trailing (10000)*/;
		}
	}

	if (rewrite_ps) {
		if (is_hevc) {
			u32 i, count;
			count = gf_list_count(entry->hevc_config->config->param_array);
			for (i=0; i<count; i++) {
				GF_HEVCParamArray *ar = gf_list_get(entry->hevc_config->config->param_array, i);
				rewrite_nalus_list(ar->nalus, dst_bs, rewrite_start_codes, nal_unit_size_field);
			}

			/*little optimization if we are not asked to start codes: copy over the sample*/
			if (!rewrite_start_codes) {
				gf_bs_write_data(dst_bs, sample->data, sample->dataLength);
				gf_free(sample->data);
				sample->data = NULL;
				gf_bs_get_content(dst_bs, &sample->data, &sample->dataLength);
				gf_bs_del(src_bs);
				gf_bs_del(dst_bs);
				return GF_OK;
			}
		} else {

			/*this is an SVC track: get all SPS/PPS from this track down to the base layer and rewrite them*/
			if (mdia->mediaTrack->has_base_layer) {
				u32 j;
				GF_List *nalu_sps = gf_list_new();
				GF_List *nalu_pps = gf_list_new();
				GF_TrackReferenceTypeBox *dpnd = NULL;
				Track_FindRef(mdia->mediaTrack, GF_ISOM_REF_SCAL, &dpnd);

#if 0
				/*get all upper layers with SCAL reference to this track*/
				for (j = 0; j < gf_isom_get_track_count(file); j++) {
					if (gf_isom_has_track_reference(file, j+1, GF_ISOM_REF_SCAL, mdia->mediaTrack->Header->trackID)) {
						u32 tkID;
						GF_TrackBox *base_track;
						GF_MPEGVisualSampleEntryBox *base_entry;
						gf_isom_get_reference_ID(file, j+1, GF_ISOM_REF_SCAL, 1, &tkID);

						base_track = GetTrackbyID(mdia->mediaTrack->moov, tkID);
						base_entry = base_track ? gf_list_get(base_track->Media->information->sampleTable->SampleDescription->other_boxes, 0) : NULL;
						if (base_entry)
							merge_nalus(base_entry, nalu_sps, nalu_pps);
					}
				}

#endif

				merge_nalus(entry, nalu_sps, nalu_pps);
				if (dpnd) {
					for (j=0; j<dpnd->trackIDCount; j++) {
						GF_TrackBox *base_track = GetTrackbyID(mdia->mediaTrack->moov, dpnd->trackIDs[j]);
						GF_MPEGVisualSampleEntryBox *base_entry = base_track ? gf_list_get(base_track->Media->information->sampleTable->SampleDescription->other_boxes, 0) : NULL;
						if (base_entry)
							merge_nalus(base_entry, nalu_sps, nalu_pps);
					}
				}

				//rewrite nalus
				rewrite_nalus_list(nalu_sps, dst_bs, rewrite_start_codes, nal_unit_size_field);
				rewrite_nalus_list(nalu_pps, dst_bs, rewrite_start_codes, nal_unit_size_field);

				gf_list_del(nalu_sps);
				gf_list_del(nalu_pps);
			} else {

				if (entry->avc_config) {
					rewrite_nalus_list(entry->avc_config->config->sequenceParameterSets, dst_bs, rewrite_start_codes, nal_unit_size_field);
					rewrite_nalus_list(entry->avc_config->config->pictureParameterSets, dst_bs, rewrite_start_codes, nal_unit_size_field);
					rewrite_nalus_list(entry->avc_config->config->sequenceParameterSetExtensions, dst_bs, rewrite_start_codes, nal_unit_size_field);
				}

				/*add svc config */
				if (entry->svc_config) {
					rewrite_nalus_list(entry->svc_config->config->sequenceParameterSets, dst_bs, rewrite_start_codes, nal_unit_size_field);
					rewrite_nalus_list(entry->svc_config->config->pictureParameterSets, dst_bs, rewrite_start_codes, nal_unit_size_field);
				}

				/*little optimization if we are not asked to rewrite extractors or start codes: copy over the sample*/
				if (!entry->svc_config && !rewrite_start_codes) {
					gf_bs_write_data(dst_bs, sample->data, sample->dataLength);
					gf_free(sample->data);
					sample->data = NULL;
					gf_bs_get_content(dst_bs, &sample->data, &sample->dataLength);
					gf_bs_del(src_bs);
					gf_bs_del(dst_bs);
					return GF_OK;
				}

			}
		}
	}

	buffer = (char *)gf_malloc(sizeof(char)*max_size);

	while (gf_bs_available(src_bs))
	{
		nal_size = gf_bs_read_int(src_bs, 8*nal_unit_size_field);
		if (nal_size>max_size) {
			buffer = (char*) gf_realloc(buffer, sizeof(char)*nal_size);
			max_size = nal_size;
		}
		if (is_hevc) {
			nal_hdr = gf_bs_read_u16(src_bs);
			nal_type = (nal_hdr&0x7E00) >> 9;
		} else {
			nal_hdr = gf_bs_read_u8(src_bs);
			nal_type = nal_hdr & 0x1F;
		}

		if (is_hevc) {
			/*we already wrote this stuff*/
			if (nal_type==GF_HEVC_NALU_ACCESS_UNIT) {
				gf_bs_skip_bytes(src_bs, nal_size-2);
				continue;
			}

			/*rewrite nal*/
			gf_bs_read_data(src_bs, buffer, nal_size-2);
			if (rewrite_start_codes)
				gf_bs_write_u32(dst_bs, 1);
			else
				gf_bs_write_int(dst_bs, nal_size, 8*nal_unit_size_field);

			gf_bs_write_u16(dst_bs, nal_hdr);
			gf_bs_write_data(dst_bs, buffer, nal_size-2);

			continue;
		}

		/*we already wrote this stuff*/
		if (nal_type==GF_AVC_NALU_ACCESS_UNIT) {
			gf_bs_skip_bytes(src_bs, nal_size-1);
			continue;
		}

		//extractor
		if (nal_type == 31) {
			switch (extractor_mode) {
			case 0:
				gf_bs_read_int(src_bs, 24); //3 bytes of NALUHeader in extractor
				ref_track_ID = gf_bs_read_u8(src_bs);
				sample_offset = (s8) gf_bs_read_int(src_bs, 8);
				data_offset = gf_bs_read_u32(src_bs);
				data_length = gf_bs_read_u32(src_bs);

				ref_track_num = gf_isom_get_track_by_id(file, ref_track_ID);
				if (!ref_track_num) {
					e = GF_BAD_PARAM;
					goto exit;
				}
				cur_extract_mode = gf_isom_get_nalu_extract_mode(file, ref_track_num);
				gf_isom_set_nalu_extract_mode(file, ref_track_num, GF_ISOM_NALU_EXTRACT_INSPECT);
				ref_samp = gf_isom_get_sample(file, ref_track_num, sampleNumber+sample_offset, &di);
				if (!ref_samp) {
					e = GF_IO_ERR;
					goto exit;
				}
				ref_bs = gf_bs_new(ref_samp->data, ref_samp->dataLength, GF_BITSTREAM_READ);
				offset = 0;
				while (gf_bs_available(ref_bs)) {
					if (gf_bs_get_position(ref_bs) < data_offset) {
						ref_nalu_size = gf_bs_read_int(ref_bs, 8*nal_unit_size_field);
						offset += ref_nalu_size + nal_unit_size_field;
						if ((offset > data_offset) || (offset >= gf_bs_get_size(ref_bs))) {
							e = GF_BAD_PARAM;
							goto exit;
						}

						e = gf_bs_seek(ref_bs, offset);
						if (e)
							goto exit;
						continue;
					}
					ref_nalu_size = gf_bs_read_int(ref_bs, 8*nal_unit_size_field);
					copy_size = data_length ? data_length : ref_nalu_size;
					assert(copy_size <= ref_nalu_size);
					nal_hdr = gf_bs_read_u8(ref_bs); //rewrite NAL type
					if ((copy_size-1)>max_size) {
						buffer = (char*)gf_realloc(buffer, sizeof(char)*(copy_size-1));
						max_size = copy_size-1;
					}
					gf_bs_read_data(ref_bs, buffer, copy_size-1);

					if (rewrite_start_codes)
						gf_bs_write_u32(dst_bs, 1);
					else
						gf_bs_write_int(dst_bs, copy_size, 8*nal_unit_size_field);

					gf_bs_write_u8(dst_bs, nal_hdr);
					gf_bs_write_data(dst_bs, buffer, copy_size-1);
				}

				gf_isom_sample_del(&ref_samp);
				ref_samp = NULL;
				gf_bs_del(ref_bs);
				ref_bs = NULL;
				gf_isom_set_nalu_extract_mode(file, ref_track_num, cur_extract_mode);
				break;
			default:
				//skip to end of this NALU
				gf_bs_skip_bytes(src_bs, nal_size-1);
				continue;
			}
		} else {
			gf_bs_read_data(src_bs, buffer, nal_size-1);
			if (rewrite_start_codes)
				gf_bs_write_u32(dst_bs, 1);
			else
				gf_bs_write_int(dst_bs, nal_size, 8*nal_unit_size_field);

			gf_bs_write_u8(dst_bs, nal_hdr);
			gf_bs_write_data(dst_bs, buffer, nal_size-1);
		}
	}