/*switch channel quality. Return next channel or current channel if error*/ static u32 gf_channel_switch_quality(ISOMChannel *ch, GF_ISOFile *the_file, Bool switch_up) { u32 i, count, next_track, trackID, cur_track; s32 ref_count; cur_track = ch->next_track ? ch->next_track : ch->track; count = gf_isom_get_track_count(the_file); trackID = gf_isom_get_track_id(the_file, cur_track); next_track = 0; if (switch_up) { for (i = 0; i < count; i++) { ref_count = gf_isom_get_reference_count(the_file, i+1, GF_ISOM_REF_SCAL); if (ref_count < 0) return cur_track; //error else if (ref_count == 0) continue; /*next track is the one that has the last reference of type GF_ISOM_REF_SCAL refers to this current track*/ else if ((u32)ref_count == gf_isom_has_track_reference(the_file, i+1, GF_ISOM_REF_SCAL, trackID)) { next_track = i+1; break; } } /*this is the highest quality*/ if (!next_track) return cur_track; } else { if (cur_track == ch->base_track) return cur_track; ref_count = gf_isom_get_reference_count(the_file, cur_track, GF_ISOM_REF_SCAL); if (ref_count < 0) return cur_track; gf_isom_get_reference(the_file, cur_track, GF_ISOM_REF_SCAL, ref_count, &next_track); if (!next_track) return cur_track; } /*in scalable mode add SPS/PPS in-band*/ gf_isom_set_nalu_extract_mode(the_file, next_track, ch->nalu_extract_mode); return next_track; }
GF_EXPORT GF_Err gf_rtp_streamer_append_sdp_decoding_dependency(GF_ISOFile *isofile, u32 isotrack, u8 *payload_type, char **out_sdp_buffer) { u32 size, i, ref_track; s32 count; char sdp[20000], sdpLine[10000]; sprintf(sdp, "a=mid:L%d\n", isotrack); count = gf_isom_get_reference_count(isofile, isotrack, GF_ISOM_REF_SCAL); if (count > 0) { sprintf(sdpLine, "a=depend:%d lay", payload_type[isotrack-1]); strcat(sdp, sdpLine); for (i = 0; i < (u32) count; i++) { gf_isom_get_reference(isofile, isotrack, GF_ISOM_REF_SCAL, i+1, &ref_track); sprintf(sdpLine, " L%d:%d", ref_track, payload_type[ref_track-1]); strcat(sdp, sdpLine); } strcat(sdp, "\n"); } size = (u32) strlen(sdp) + (*out_sdp_buffer ? (u32) strlen(*out_sdp_buffer) : 0) + 1; if ( !*out_sdp_buffer) { *out_sdp_buffer = gf_malloc(sizeof(char)*size); if (! *out_sdp_buffer) return GF_OUT_OF_MEM; strcpy(*out_sdp_buffer, sdp); } else { *out_sdp_buffer = gf_realloc(*out_sdp_buffer, sizeof(char)*size); if (! *out_sdp_buffer) return GF_OUT_OF_MEM; strcat(*out_sdp_buffer, sdp); } return GF_OK; }
void isor_declare_objects(ISOMReader *read) { GF_ObjectDescriptor *od; GF_ESD *esd; const char *tag; u32 i, count, ocr_es_id, tlen, base_track, j, track_id; Bool highest_stream; char *opt; Bool add_ps_lower = GF_TRUE; ocr_es_id = 0; opt = (char*) gf_modules_get_option((GF_BaseInterface *)read->input, "ISOReader", "DeclareScalableXPS"); if (!opt) { gf_modules_set_option((GF_BaseInterface *)read->input, "ISOReader", "DeclareScalableXPS", "yes"); } else if (!strcmp(opt, "no")) { add_ps_lower = GF_FALSE; } /*TODO check for alternate tracks*/ count = gf_isom_get_track_count(read->mov); for (i=0; i<count; i++) { if (!gf_isom_is_track_enabled(read->mov, i+1)) continue; switch (gf_isom_get_media_type(read->mov, i+1)) { case GF_ISOM_MEDIA_AUDIO: case GF_ISOM_MEDIA_VISUAL: case GF_ISOM_MEDIA_TEXT: case GF_ISOM_MEDIA_SUBT: case GF_ISOM_MEDIA_SCENE: case GF_ISOM_MEDIA_SUBPIC: break; default: continue; } /*we declare only the highest video track (i.e the track we play)*/ highest_stream = GF_TRUE; track_id = gf_isom_get_track_id(read->mov, i+1); for (j = 0; j < count; j++) { if (gf_isom_has_track_reference(read->mov, j+1, GF_ISOM_REF_SCAL, track_id) > 0) { highest_stream = GF_FALSE; break; } } if ((gf_isom_get_media_type(read->mov, i+1) == GF_ISOM_MEDIA_VISUAL) && !highest_stream) continue; esd = gf_media_map_esd(read->mov, i+1); if (esd) { gf_isom_get_reference(read->mov, i+1, GF_ISOM_REF_BASE, 1, &base_track); esd->has_ref_base = base_track ? GF_TRUE : GF_FALSE; /*FIXME: if we declare only SPS/PPS of the highest layer, we have a problem in decoding even though we have all SPS/PPS inband (OpenSVC bug ?)*/ /*so we add by default the SPS/PPS of the lower layers to this esd*/ if (esd->has_ref_base && add_ps_lower) { u32 count, refIndex, ref_track, num_sps, num_pps, t; GF_AVCConfig *cfg = gf_odf_avc_cfg_read(esd->decoderConfig->decoderSpecificInfo->data, esd->decoderConfig->decoderSpecificInfo->dataLength); GF_AVCConfig *avccfg, *svccfg; count = gf_isom_get_reference_count(read->mov, i+1, GF_ISOM_REF_SCAL); for (refIndex = count; refIndex != 0; refIndex--) { gf_isom_get_reference(read->mov, i+1, GF_ISOM_REF_SCAL, refIndex, &ref_track); avccfg = gf_isom_avc_config_get(read->mov, ref_track, 1); svccfg = gf_isom_svc_config_get(read->mov, ref_track, 1); if (avccfg) { num_sps = gf_list_count(avccfg->sequenceParameterSets); for (t = 0; t < num_sps; t++) { GF_AVCConfigSlot *slc = gf_list_get(avccfg->sequenceParameterSets, t); GF_AVCConfigSlot *sl = (GF_AVCConfigSlot*)gf_malloc(sizeof(GF_AVCConfigSlot)); sl->id = slc->id; sl->size = slc->size; sl->data = (char*)gf_malloc(sizeof(char)*sl->size); memcpy(sl->data, slc->data, sizeof(char)*sl->size); gf_list_insert(cfg->sequenceParameterSets, sl, 0); } num_pps = gf_list_count(avccfg->pictureParameterSets); for (t = 0; t < num_sps; t++) { GF_AVCConfigSlot *slc = gf_list_get(avccfg->pictureParameterSets, t); GF_AVCConfigSlot *sl = (GF_AVCConfigSlot*)gf_malloc(sizeof(GF_AVCConfigSlot)); sl->id = slc->id; sl->size = slc->size; sl->data = (char*)gf_malloc(sizeof(char)*sl->size); memcpy(sl->data, slc->data, sizeof(char)*sl->size); gf_list_insert(cfg->pictureParameterSets, sl, 0); } gf_odf_avc_cfg_del(avccfg); } if (svccfg) { num_sps = gf_list_count(svccfg->sequenceParameterSets); for (t = 0; t < num_sps; t++) { GF_AVCConfigSlot *slc = gf_list_get(svccfg->sequenceParameterSets, t); GF_AVCConfigSlot *sl = (GF_AVCConfigSlot*)gf_malloc(sizeof(GF_AVCConfigSlot)); sl->id = slc->id; sl->size = slc->size; sl->data = (char*)gf_malloc(sizeof(char)*sl->size); memcpy(sl->data, slc->data, sizeof(char)*sl->size); gf_list_insert(cfg->sequenceParameterSets, sl, 0); } num_pps = gf_list_count(svccfg->pictureParameterSets); for (t = 0; t < num_pps; t++) { GF_AVCConfigSlot *slc = gf_list_get(svccfg->pictureParameterSets, t); GF_AVCConfigSlot *sl = (GF_AVCConfigSlot*)gf_malloc(sizeof(GF_AVCConfigSlot)); sl->id = slc->id; sl->size = slc->size; sl->data = (char*)gf_malloc(sizeof(char)*sl->size); memcpy(sl->data, slc->data, sizeof(char)*sl->size); gf_list_insert(cfg->pictureParameterSets, sl, 0); } gf_odf_avc_cfg_del(svccfg); } } if (esd->decoderConfig->decoderSpecificInfo->data) gf_free(esd->decoderConfig->decoderSpecificInfo->data); gf_odf_avc_cfg_write(cfg, &esd->decoderConfig->decoderSpecificInfo->data, &esd->decoderConfig->decoderSpecificInfo->dataLength); gf_odf_avc_cfg_del(cfg); } od = (GF_ObjectDescriptor *) gf_odf_desc_new(GF_ODF_OD_TAG); od->service_ifce = read->input; od->objectDescriptorID = 0; if (!ocr_es_id) ocr_es_id = esd->ESID; esd->OCRESID = ocr_es_id; gf_list_add(od->ESDescriptors, esd); if (read->input->query_proxy && read->input->proxy_udta && read->input->proxy_type) { send_proxy_command(read, GF_FALSE, GF_TRUE, GF_OK, (GF_Descriptor*)od, NULL); } else { gf_term_add_media(read->service, (GF_Descriptor*)od, GF_TRUE); } } } /*if cover art, extract it in cache*/ if (gf_isom_apple_get_tag(read->mov, GF_ISOM_ITUNE_COVER_ART, &tag, &tlen)==GF_OK) { const char *cdir = gf_modules_get_option((GF_BaseInterface *)gf_term_get_service_interface(read->service), "General", "CacheDirectory"); if (cdir) { char szName[GF_MAX_PATH]; const char *sep; FILE *t; sep = strrchr(gf_isom_get_filename(read->mov), '\\'); if (!sep) sep = strrchr(gf_isom_get_filename(read->mov), '/'); if (!sep) sep = gf_isom_get_filename(read->mov); if ((cdir[strlen(cdir)-1] != '\\') && (cdir[strlen(cdir)-1] != '/')) { sprintf(szName, "%s/%s_cover.%s", cdir, sep, (tlen & 0x80000000) ? "png" : "jpg"); } else { sprintf(szName, "%s%s_cover.%s", cdir, sep, (tlen & 0x80000000) ? "png" : "jpg"); } t = gf_f64_open(szName, "wb"); if (t) { Bool isom_contains_video = GF_FALSE; /*write cover data*/ assert(!(tlen & 0x80000000)); gf_fwrite(tag, tlen & 0x7FFFFFFF, 1, t); fclose(t); /*don't display cover art when video is present*/ for (i=0; i<gf_isom_get_track_count(read->mov); i++) { if (!gf_isom_is_track_enabled(read->mov, i+1)) continue; if (gf_isom_get_media_type(read->mov, i+1) == GF_ISOM_MEDIA_VISUAL) { isom_contains_video = GF_TRUE; break; } } if (!isom_contains_video) { od = (GF_ObjectDescriptor *) gf_odf_desc_new(GF_ODF_OD_TAG); od->service_ifce = read->input; od->objectDescriptorID = GF_MEDIA_EXTERNAL_ID; od->URLString = gf_strdup(szName); if (read->input->query_proxy && read->input->proxy_udta && read->input->proxy_type) { send_proxy_command(read, GF_FALSE, GF_TRUE, GF_OK, (GF_Descriptor*)od, NULL); } else { gf_term_add_media(read->service, (GF_Descriptor*)od, GF_TRUE); } } } } } if (read->input->query_proxy && read->input->proxy_udta && read->input->proxy_type) { send_proxy_command(read, GF_FALSE, GF_TRUE, GF_OK, NULL, NULL); } else { gf_term_add_media(read->service, NULL, GF_FALSE); } }