/* * Dynamic Adaptive Streaming over HTTP demux * Copyright (c) 2017 samsamsam@o2.pl based on HLS demux * Copyright (c) 2017 Steven Liu * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include "libavutil/intreadwrite.h" #include "libavutil/opt.h" #include "libavutil/time.h" #include "libavutil/parseutils.h" #include "internal.h" #include "avio_internal.h" #include "dash.h" #define INITIAL_BUFFER_SIZE 32768 struct fragment { int64_t url_offset; int64_t size; char *url; }; /* * reference to : ISO_IEC_23009-1-DASH-2012 * Section: 5.3.9.6.2 * Table: Table 17 — Semantics of SegmentTimeline element * */ struct timeline { /* starttime: Element or Attribute Name * specifies the MPD start time, in @timescale units, * the first Segment in the series starts relative to the beginning of the Period. * The value of this attribute must be equal to or greater than the sum of the previous S * element earliest presentation time and the sum of the contiguous Segment durations. * If the value of the attribute is greater than what is expressed by the previous S element, * it expresses discontinuities in the timeline. * If not present then the value shall be assumed to be zero for the first S element * and for the subsequent S elements, the value shall be assumed to be the sum of * the previous S element's earliest presentation time and contiguous duration * (i.e. previous S@starttime + @duration * (@repeat + 1)). * */ int64_t starttime; /* repeat: Element or Attribute Name * specifies the repeat count of the number of following contiguous Segments with * the same duration expressed by the value of @duration. This value is zero-based * (e.g. a value of three means four Segments in the contiguous series). * */ int64_t repeat; /* duration: Element or Attribute Name * specifies the Segment duration, in units of the value of the @timescale. * */ int64_t duration; }; /* * Each playlist has its own demuxer. If it is currently active, * it has an opened AVIOContext too, and potentially an AVPacket * containing the next packet from this stream. */ struct representation { char *url_template; AVIOContext pb; AVIOContext *input; AVFormatContext *parent; AVFormatContext *ctx; AVPacket pkt; int rep_idx; int rep_count; int stream_index; enum AVMediaType type; int n_fragments; struct fragment **fragments; /* VOD list of fragment for profile */ int n_timelines; struct timeline **timelines; int64_t first_seq_no; int64_t last_seq_no; int64_t start_number; /* used in case when we have dynamic list of segment to know which segments are new one*/ int64_t fragment_duration; int64_t fragment_timescale; int64_t presentation_timeoffset; int64_t cur_seq_no; int64_t cur_seg_offset; int64_t cur_seg_size; struct fragment *cur_seg; /* Currently active Media Initialization Section */ struct fragment *init_section; uint8_t *init_sec_buf; uint32_t init_sec_buf_size; uint32_t init_sec_data_len; uint32_t init_sec_buf_read_offset; int64_t cur_timestamp; int is_restart_needed; }; typedef struct DASHContext { const AVClass *class; char *base_url; struct representation *cur_video; struct representation *cur_audio; /* MediaPresentationDescription Attribute */ uint64_t media_presentation_duration; uint64_t suggested_presentation_delay; uint64_t availability_start_time; uint64_t publish_time; uint64_t minimum_update_period; uint64_t time_shift_buffer_depth; uint64_t min_buffer_time; /* Period Attribute */ uint64_t period_duration; uint64_t period_start; int is_live; AVIOInterruptCB *interrupt_callback; char *user_agent; ///< holds HTTP user agent set as an AVOption to the HTTP protocol context char *cookies; ///< holds HTTP cookie values set in either the initial response or as an AVOption to the HTTP protocol context char *headers; ///< holds HTTP headers set as an AVOption to the HTTP protocol context char *allowed_extensions; AVDictionary *avio_opts; } DASHContext; static uint64_t get_current_time_in_sec(void) { return av_gettime() / 1000000; } static uint64_t get_utc_date_time_insec(AVFormatContext *s, const char *datetime) { struct tm timeinfo; int year = 0; int month = 0; int day = 0; int hour = 0; int minute = 0; int ret = 0; float second = 0.0; /* ISO-8601 date parser */ if (!datetime) return 0; ret = sscanf(datetime, "%d-%d-%dT%d:%d:%fZ", &year, &month, &day, &hour, &minute, &second); /* year, month, day, hour, minute, second 6 arguments */ if (ret != 6) { av_log(s, AV_LOG_WARNING, "get_utc_date_time_insec get a wrong time format\n"); } timeinfo.tm_year = year - 1900; timeinfo.tm_mon = month - 1; timeinfo.tm_mday = day; timeinfo.tm_hour = hour; timeinfo.tm_min = minute; timeinfo.tm_sec = (int)second; return av_timegm(&timeinfo); } static uint32_t get_duration_insec(AVFormatContext *s, const char *duration) { /* ISO-8601 duration parser */ uint32_t days = 0; uint32_t hours = 0; uint32_t mins = 0; uint32_t secs = 0; int size = 0; float value = 0; char type = '\0'; const char *ptr = duration; while (*ptr) { if (*ptr == 'P' || *ptr == 'T') { ptr++; continue; } if (sscanf(ptr, "%f%c%n", &value, &type, &size) != 2) { av_log(s, AV_LOG_WARNING, "get_duration_insec get a wrong time format\n"); return 0; /* parser error */ } switch (type) { case 'D': days = (uint32_t)value; break; case 'H': hours = (uint32_t)value; break; case 'M': mins = (uint32_t)value; break; case 'S': secs = (uint32_t)value; break; default: // handle invalid type break; } ptr += size; } return ((days * 24 + hours) * 60 + mins) * 60 + secs; } static int64_t get_segment_start_time_based_on_timeline(struct representation *pls, int64_t cur_seq_no) { int64_t start_time = 0; int64_t i = 0; int64_t j = 0; int64_t num = 0; if (pls->n_timelines) { for (i = 0; i < pls->n_timelines; i++) { if (pls->timelines[i]->starttime > 0) { start_time = pls->timelines[i]->starttime; } if (num == cur_seq_no) goto finish; start_time += pls->timelines[i]->duration; for (j = 0; j < pls->timelines[i]->repeat; j++) { num++; if (num == cur_seq_no) goto finish; start_time += pls->timelines[i]->duration; } num++; } } finish: return start_time; } static int64_t calc_next_seg_no_from_timelines(struct representation *pls, int64_t cur_time) { int64_t i = 0; int64_t j = 0; int64_t num = 0; int64_t start_time = 0; for (i = 0; i < pls->n_timelines; i++) { if (pls->timelines[i]->starttime > 0) { start_time = pls->timelines[i]->starttime; } if (start_time > cur_time) goto finish; start_time += pls->timelines[i]->duration; for (j = 0; j < pls->timelines[i]->repeat; j++) { num++; if (start_time > cur_time) goto finish; start_time += pls->timelines[i]->duration; } num++; } return -1; finish: return num; } static void free_fragment(struct fragment **seg) { if (!(*seg)) { return; } av_freep(&(*seg)->url); av_freep(seg); } static void free_fragment_list(struct representation *pls) { int i; for (i = 0; i < pls->n_fragments; i++) { free_fragment(&pls->fragments[i]); } av_freep(&pls->fragments); pls->n_fragments = 0; } static void free_timelines_list(struct representation *pls) { int i; for (i = 0; i < pls->n_timelines; i++) { av_freep(&pls->timelines[i]); } av_freep(&pls->timelines); pls->n_timelines = 0; } static void free_representation(struct representation *pls) { free_fragment_list(pls); free_timelines_list(pls); free_fragment(&pls->cur_seg); free_fragment(&pls->init_section); av_freep(&pls->init_sec_buf); av_freep(&pls->pb.buffer); if (pls->input) ff_format_io_close(pls->parent, &pls->input); if (pls->ctx) { pls->ctx->pb = NULL; avformat_close_input(&pls->ctx); } av_freep(&pls->url_template); av_freep(&pls); } static void set_httpheader_options(DASHContext *c, AVDictionary **opts) { // broker prior HTTP options that should be consistent across requests av_dict_set(opts, "user-agent", c->user_agent, 0); av_dict_set(opts, "cookies", c->cookies, 0); av_dict_set(opts, "headers", c->headers, 0); if (c->is_live) { av_dict_set(opts, "seekable", "0", 0); } } static void update_options(char **dest, const char *name, void *src) { av_freep(dest); av_opt_get(src, name, AV_OPT_SEARCH_CHILDREN, (uint8_t**)dest); if (*dest) av_freep(dest); } static int open_url(AVFormatContext *s, AVIOContext **pb, const char *url, AVDictionary *opts, AVDictionary *opts2, int *is_http) { DASHContext *c = s->priv_data; AVDictionary *tmp = NULL; const char *proto_name = NULL; int ret; av_dict_copy(&tmp, opts, 0); av_dict_copy(&tmp, opts2, 0); if (av_strstart(url, "crypto", NULL)) { if (url[6] == '+' || url[6] == ':') proto_name = avio_find_protocol_name(url + 7); } if (!proto_name) proto_name = avio_find_protocol_name(url); if (!proto_name) return AVERROR_INVALIDDATA; // only http(s) & file are allowed if (av_strstart(proto_name, "file", NULL)) { if (strcmp(c->allowed_extensions, "ALL") && !av_match_ext(url, c->allowed_extensions)) { av_log(s, AV_LOG_ERROR, "Filename extension of \'%s\' is not a common multimedia extension, blocked for security reasons.\n" "If you wish to override this adjust allowed_extensions, you can set it to \'ALL\' to allow all\n", url); return AVERROR_INVALIDDATA; } } else if (av_strstart(proto_name, "http", NULL)) { ; } else return AVERROR_INVALIDDATA; if (!strncmp(proto_name, url, strlen(proto_name)) && url[strlen(proto_name)] == ':') ; else if (av_strstart(url, "crypto", NULL) && !strncmp(proto_name, url + 7, strlen(proto_name)) && url[7 + strlen(proto_name)] == ':') ; else if (strcmp(proto_name, "file") || !strncmp(url, "file,", 5)) return AVERROR_INVALIDDATA; ret = s->io_open(s, pb, url, AVIO_FLAG_READ, &tmp); if (ret >= 0) { // update cookies on http response with setcookies. char *new_cookies = NULL; if (!(s->flags & AVFMT_FLAG_CUSTOM_IO)) av_opt_get(*pb, "cookies", AV_OPT_SEARCH_CHILDREN, (uint8_t**)&new_cookies); if (new_cookies) { av_free(c->cookies); c->cookies = new_cookies; } av_dict_set(&opts, "cookies", c->cookies, 0); } av_dict_free(&tmp); if (is_http) *is_http = av_strstart(proto_name, "http", NULL); return ret; } static char *get_content_url(xmlNodePtr *baseurl_nodes, int n_baseurl_nodes, char *rep_id_val, char *rep_bandwidth_val, char *val) { int i; char *text; char *url = NULL; char tmp_str[MAX_URL_SIZE]; char tmp_str_2[MAX_URL_SIZE]; memset(tmp_str, 0, sizeof(tmp_str)); for (i = 0; i < n_baseurl_nodes; ++i) { if (baseurl_nodes[i] && baseurl_nodes[i]->children && baseurl_nodes[i]->children->type == XML_TEXT_NODE) { text = xmlNodeGetContent(baseurl_nodes[i]->children); if (text) { memset(tmp_str, 0, sizeof(tmp_str)); memset(tmp_str_2, 0, sizeof(tmp_str_2)); ff_make_absolute_url(tmp_str_2, MAX_URL_SIZE, tmp_str, text); av_strlcpy(tmp_str, tmp_str_2, sizeof(tmp_str)); xmlFree(text); } } } if (val) av_strlcat(tmp_str, (const char*)val, sizeof(tmp_str)); if (rep_id_val) { url = av_strireplace(tmp_str, "$RepresentationID$", (const char*)rep_id_val); if (!url) { return NULL; } av_strlcpy(tmp_str, url, sizeof(tmp_str)); av_free(url); } if (rep_bandwidth_val && tmp_str[0] != '\0') { url = av_strireplace(tmp_str, "$Bandwidth$", (const char*)rep_bandwidth_val); if (!url) { return NULL; } } return url; } static char *get_val_from_nodes_tab(xmlNodePtr *nodes, const int n_nodes, const char *attrname) { int i; char *val; for (i = 0; i < n_nodes; ++i) { if (nodes[i]) { val = xmlGetProp(nodes[i], attrname); if (val) return val; } } return NULL; } static xmlNodePtr find_child_node_by_name(xmlNodePtr rootnode, const char *nodename) { xmlNodePtr node = rootnode; if (!node) { return NULL; } node = xmlFirstElementChild(node); while (node) { if (!av_strcasecmp(node->name, nodename)) { return node; } node = xmlNextElementSibling(node); } return NULL; } static enum AVMediaType get_content_type(xmlNodePtr node) { enum AVMediaType type = AVMEDIA_TYPE_UNKNOWN; int i = 0; const char *attr; char *val = NULL; if (node) { for (i = 0; i < 2; i++) { attr = i ? "mimeType" : "contentType"; val = xmlGetProp(node, attr); if (val) { if (av_stristr((const char *)val, "video")) { type = AVMEDIA_TYPE_VIDEO; } else if (av_stristr((const char *)val, "audio")) { type = AVMEDIA_TYPE_AUDIO; } xmlFree(val); } } } return type; } static int parse_manifest_segmenturlnode(AVFormatContext *s, struct representation *rep, xmlNodePtr fragmenturl_node, xmlNodePtr *baseurl_nodes, char *rep_id_val, char *rep_bandwidth_val) { char *initialization_val = NULL; char *media_val = NULL; if (!av_strcasecmp(fragmenturl_node->name, (const char *)"Initialization")) { initialization_val = xmlGetProp(fragmenturl_node, "sourceURL"); if (initialization_val) { rep->init_section = av_mallocz(sizeof(struct fragment)); if (!rep->init_section) { xmlFree(initialization_val); return AVERROR(ENOMEM); } rep->init_section->url = get_content_url(baseurl_nodes, 4, rep_id_val, rep_bandwidth_val, initialization_val); if (!rep->init_section->url) { av_free(rep->init_section); xmlFree(initialization_val); return AVERROR(ENOMEM); } rep->init_section->size = -1; xmlFree(initialization_val); } } else if (!av_strcasecmp(fragmenturl_node->name, (const char *)"SegmentURL")) { media_val = xmlGetProp(fragmenturl_node, "media"); if (media_val) { struct fragment *seg = av_mallocz(sizeof(struct fragment)); if (!seg) { xmlFree(media_val); return AVERROR(ENOMEM); } seg->url = get_content_url(baseurl_nodes, 4, rep_id_val, rep_bandwidth_val, media_val); if (!seg->url) { av_free(seg); xmlFree(media_val); return AVERROR(ENOMEM); } seg->size = -1; dynarray_add(&rep->fragments, &rep->n_fragments, seg); xmlFree(media_val); } } return 0; } static int parse_manifest_segmenttimeline(AVFormatContext *s, struct representation *rep, xmlNodePtr fragment_timeline_node) { xmlAttrPtr attr = NULL; char *val = NULL; if (!av_strcasecmp(fragment_timeline_node->name, (const char *)"S")) { struct timeline *tml = av_mallocz(sizeof(struct timeline)); if (!tml) { return AVERROR(ENOMEM); } attr = fragment_timeline_node->properties; while (attr) { val = xmlGetProp(fragment_timeline_node, attr->name); if (!val) { av_log(s, AV_LOG_WARNING, "parse_manifest_segmenttimeline attr->name = %s val is NULL\n", attr->name); continue; } if (!av_strcasecmp(attr->name, (const char *)"t")) { tml->starttime = (int64_t)strtoll(val, NULL, 10); } else if (!av_strcasecmp(attr->name, (const char *)"r")) { tml->repeat =(int64_t) strtoll(val, NULL, 10); } else if (!av_strcasecmp(attr->name, (const char *)"d")) { tml->duration = (int64_t)strtoll(val, NULL, 10); } attr = attr->next; xmlFree(val); } dynarray_add(&rep->timelines, &rep->n_timelines, tml); } return 0; } static int parse_manifest_representation(AVFormatContext *s, const char *url, xmlNodePtr node, xmlNodePtr adaptionset_node, xmlNodePtr mpd_baseurl_node, xmlNodePtr period_baseurl_node, xmlNodePtr fragment_template_node, xmlNodePtr content_component_node, xmlNodePtr adaptionset_baseurl_node) { int32_t ret = 0; int32_t audio_rep_idx = 0; int32_t video_rep_idx = 0; DASHContext *c = s->priv_data; struct representation *rep = NULL; struct fragment *seg = NULL; xmlNodePtr representation_segmenttemplate_node = NULL; xmlNodePtr representation_baseurl_node = NULL; xmlNodePtr representation_segmentlist_node = NULL; xmlNodePtr fragment_timeline_node = NULL; xmlNodePtr fragment_templates_tab[2]; char *duration_val = NULL; char *presentation_timeoffset_val = NULL; char *startnumber_val = NULL; char *timescale_val = NULL; char *initialization_val = NULL; char *media_val = NULL; xmlNodePtr baseurl_nodes[4]; xmlNodePtr representation_node = node; char *rep_id_val = xmlGetProp(representation_node, "id"); char *rep_bandwidth_val = xmlGetProp(representation_node, "bandwidth"); enum AVMediaType type = AVMEDIA_TYPE_UNKNOWN; // try get information from representation if (type == AVMEDIA_TYPE_UNKNOWN) type = get_content_type(representation_node); // try get information from contentComponen if (type == AVMEDIA_TYPE_UNKNOWN) type = get_content_type(content_component_node); // try get information from adaption set if (type == AVMEDIA_TYPE_UNKNOWN) type = get_content_type(adaptionset_node); if (type == AVMEDIA_TYPE_UNKNOWN) { av_log(s, AV_LOG_VERBOSE, "Parsing '%s' - skipp not supported representation type\n", url); } else if ((type == AVMEDIA_TYPE_VIDEO && !c->cur_video) || (type == AVMEDIA_TYPE_AUDIO && !c->cur_audio)) { // convert selected representation to our internal struct rep = av_mallocz(sizeof(struct representation)); if (!rep) { ret = AVERROR(ENOMEM); goto end; } representation_segmenttemplate_node = find_child_node_by_name(representation_node, "SegmentTemplate"); representation_baseurl_node = find_child_node_by_name(representation_node, "BaseURL"); representation_segmentlist_node = find_child_node_by_name(representation_node, "SegmentList"); baseurl_nodes[0] = mpd_baseurl_node; baseurl_nodes[1] = period_baseurl_node; baseurl_nodes[2] = adaptionset_baseurl_node; baseurl_nodes[3] = representation_baseurl_node; if (representation_segmenttemplate_node || fragment_template_node) { fragment_timeline_node = NULL; fragment_templates_tab[0] = representation_segmenttemplate_node; fragment_templates_tab[1] = fragment_template_node; presentation_timeoffset_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "presentationTimeOffset"); duration_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "duration"); startnumber_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "startNumber"); timescale_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "timescale"); initialization_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "initialization"); media_val = get_val_from_nodes_tab(fragment_templates_tab, 2, "media"); if (initialization_val) { rep->init_section = av_mallocz(sizeof(struct fragment)); if (!rep->init_section) { av_free(rep); ret = AVERROR(ENOMEM); goto end; } rep->init_section->url = get_content_url(baseurl_nodes, 4, rep_id_val, rep_bandwidth_val, initialization_val); if (!rep->init_section->url) { av_free(rep->init_section); av_free(rep); ret = AVERROR(ENOMEM); goto end; } rep->init_section->size = -1; xmlFree(initialization_val); } if (media_val) { rep->url_template = get_content_url(baseurl_nodes, 4, rep_id_val, rep_bandwidth_val, media_val); xmlFree(media_val); } if (presentation_timeoffset_val) { rep->presentation_timeoffset = (int64_t) strtoll(presentation_timeoffset_val, NULL, 10); xmlFree(presentation_timeoffset_val); } if (duration_val) { rep->fragment_duration = (int64_t) strtoll(duration_val, NULL, 10); xmlFree(duration_val); } if (timescale_val) { rep->fragment_timescale = (int64_t) strtoll(timescale_val, NULL, 10); xmlFree(timescale_val); } if (startnumber_val) { rep->first_seq_no = (int64_t) strtoll(startnumber_val, NULL, 10); xmlFree(startnumber_val); } fragment_timeline_node = find_child_node_by_name(representation_segmenttemplate_node, "SegmentTimeline"); if (!fragment_timeline_node) fragment_timeline_node = find_child_node_by_name(fragment_template_node, "SegmentTimeline"); if (fragment_timeline_node) { fragment_timeline_node = xmlFirstElementChild(fragment_timeline_node); while (fragment_timeline_node) { ret = parse_manifest_segmenttimeline(s, rep, fragment_timeline_node); if (ret < 0) { return ret; } fragment_timeline_node = xmlNextElementSibling(fragment_timeline_node); } } } else if (representation_baseurl_node && !representation_segmentlist_node) { seg = av_mallocz(sizeof(struct fragment)); if (!seg) { ret = AVERROR(ENOMEM); goto end; } seg->url = get_content_url(baseurl_nodes, 4, rep_id_val, rep_bandwidth_val, NULL); if (!seg->url) { av_free(seg); ret = AVERROR(ENOMEM); goto end; } seg->size = -1; dynarray_add(&rep->fragments, &rep->n_fragments, seg); } else if (representation_segmentlist_node) { // TODO: https://www.brendanlong.com/the-structure-of-an-mpeg-dash-mpd.html // http://www-itec.uni-klu.ac.at/dash/ddash/mpdGenerator.php?fragmentlength=15&type=full xmlNodePtr fragmenturl_node = NULL; duration_val = xmlGetProp(representation_segmentlist_node, "duration"); timescale_val = xmlGetProp(representation_segmentlist_node, "timescale"); if (duration_val) { rep->fragment_duration = (int64_t) strtoll(duration_val, NULL, 10); xmlFree(duration_val); } if (timescale_val) { rep->fragment_timescale = (int64_t) strtoll(timescale_val, NULL, 10); xmlFree(timescale_val); } fragmenturl_node = xmlFirstElementChild(representation_segmentlist_node); while (fragmenturl_node) { ret = parse_manifest_segmenturlnode(s, rep, fragmenturl_node, baseurl_nodes, rep_id_val, rep_bandwidth_val); if (ret < 0) { return ret; } fragmenturl_node = xmlNextElementSibling(fragmenturl_node); } fragment_timeline_node = find_child_node_by_name(representation_segmenttemplate_node, "SegmentTimeline"); if (!fragment_timeline_node) fragment_timeline_node = find_child_node_by_name(fragment_template_node, "SegmentTimeline"); if (fragment_timeline_node) { fragment_timeline_node = xmlFirstElementChild(fragment_timeline_node); while (fragment_timeline_node) { ret = parse_manifest_segmenttimeline(s, rep, fragment_timeline_node); if (ret < 0) { return ret; } fragment_timeline_node = xmlNextElementSibling(fragment_timeline_node); } } } else { free_representation(rep); rep = NULL; av_log(s, AV_LOG_ERROR, "Unknown format of Representation node id[%s] \n", (const char *)rep_id_val); } if (rep) { if (rep->fragment_duration > 0 && !rep->fragment_timescale) rep->fragment_timescale = 1; if (type == AVMEDIA_TYPE_VIDEO) { rep->rep_idx = video_rep_idx; c->cur_video = rep; } else { rep->rep_idx = audio_rep_idx; c->cur_audio = rep; } } } video_rep_idx += type == AVMEDIA_TYPE_VIDEO; audio_rep_idx += type == AVMEDIA_TYPE_AUDIO; end: if (rep_id_val) xmlFree(rep_id_val); if (rep_bandwidth_val) xmlFree(rep_bandwidth_val); return ret; } static int parse_manifest_adaptationset(AVFormatContext *s, const char *url, xmlNodePtr adaptionset_node, xmlNodePtr mpd_baseurl_node, xmlNodePtr period_baseurl_node) { int ret = 0; xmlNodePtr fragment_template_node = NULL; xmlNodePtr content_component_node = NULL; xmlNodePtr adaptionset_baseurl_node = NULL; xmlNodePtr node = NULL; node = xmlFirstElementChild(adaptionset_node); while (node) { if (!av_strcasecmp(node->name, (const char *)"SegmentTemplate")) { fragment_template_node = node; } else if (!av_strcasecmp(node->name, (const char *)"ContentComponent")) { content_component_node = node; } else if (!av_strcasecmp(node->name, (const char *)"BaseURL")) { adaptionset_baseurl_node = node; } else if (!av_strcasecmp(node->name, (const char *)"Representation")) { ret = parse_manifest_representation(s, url, node, adaptionset_node, mpd_baseurl_node, period_baseurl_node, fragment_template_node, content_component_node, adaptionset_baseurl_node); if (ret < 0) { return ret; } } node = xmlNextElementSibling(node); } return 0; } static int parse_manifest(AVFormatContext *s, const char *url, AVIOContext *in) { DASHContext *c = s->priv_data; int ret = 0; int close_in = 0; uint8_t *new_url = NULL; int64_t filesize = 0; char *buffer = NULL; AVDictionary *opts = NULL; xmlDoc *doc = NULL; xmlNodePtr root_element = NULL; xmlNodePtr node = NULL; xmlNodePtr period_node = NULL; xmlNodePtr mpd_baseurl_node = NULL; xmlNodePtr period_baseurl_node = NULL; xmlNodePtr adaptionset_node = NULL; xmlAttrPtr attr = NULL; char *val = NULL; uint32_t perdiod_duration_sec = 0; uint32_t perdiod_start_sec = 0; int32_t audio_rep_idx = 0; int32_t video_rep_idx = 0; if (!in) { close_in = 1; set_httpheader_options(c, &opts); ret = avio_open2(&in, url, AVIO_FLAG_READ, c->interrupt_callback, &opts); av_dict_free(&opts); if (ret < 0) return ret; } if (av_opt_get(in, "location", AV_OPT_SEARCH_CHILDREN, &new_url) >= 0) { c->base_url = av_strdup(new_url); } else { c->base_url = av_strdup(url); } filesize = avio_size(in); if (filesize <= 0) { filesize = 8 * 1024; } buffer = av_mallocz(filesize); if (!buffer) { av_free(c->base_url); return AVERROR(ENOMEM); } filesize = avio_read(in, buffer, filesize); if (filesize <= 0) { av_log(s, AV_LOG_ERROR, "Unable to read to offset '%s'\n", url); ret = AVERROR_INVALIDDATA; } else { LIBXML_TEST_VERSION doc = xmlReadMemory(buffer, filesize, c->base_url, NULL, 0); root_element = xmlDocGetRootElement(doc); node = root_element; if (!node) { ret = AVERROR_INVALIDDATA; av_log(s, AV_LOG_ERROR, "Unable to parse '%s' - missing root node\n", url); goto cleanup; } if (node->type != XML_ELEMENT_NODE || av_strcasecmp(node->name, (const char *)"MPD")) { ret = AVERROR_INVALIDDATA; av_log(s, AV_LOG_ERROR, "Unable to parse '%s' - wrong root node name[%s] type[%d]\n", url, node->name, (int)node->type); goto cleanup; } val = xmlGetProp(node, "type"); if (!val) { av_log(s, AV_LOG_ERROR, "Unable to parse '%s' - missing type attrib\n", url); ret = AVERROR_INVALIDDATA; goto cleanup; } if (!av_strcasecmp(val, (const char *)"dynamic")) c->is_live = 1; xmlFree(val); attr = node->properties; while (attr) { val = xmlGetProp(node, attr->name); if (!av_strcasecmp(attr->name, (const char *)"availabilityStartTime")) { c->availability_start_time = get_utc_date_time_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"publishTime")) { c->publish_time = get_utc_date_time_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"minimumUpdatePeriod")) { c->minimum_update_period = get_duration_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"timeShiftBufferDepth")) { c->time_shift_buffer_depth = get_duration_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"minBufferTime")) { c->min_buffer_time = get_duration_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"suggestedPresentationDelay")) { c->suggested_presentation_delay = get_duration_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"mediaPresentationDuration")) { c->media_presentation_duration = get_duration_insec(s, (const char *)val); } attr = attr->next; xmlFree(val); } mpd_baseurl_node = find_child_node_by_name(node, "BaseURL"); // at now we can handle only one period, with the longest duration node = xmlFirstElementChild(node); while (node) { if (!av_strcasecmp(node->name, (const char *)"Period")) { perdiod_duration_sec = 0; perdiod_start_sec = 0; attr = node->properties; while (attr) { val = xmlGetProp(node, attr->name); if (!av_strcasecmp(attr->name, (const char *)"duration")) { perdiod_duration_sec = get_duration_insec(s, (const char *)val); } else if (!av_strcasecmp(attr->name, (const char *)"start")) { perdiod_start_sec = get_duration_insec(s, (const char *)val); } attr = attr->next; xmlFree(val); } if ((perdiod_duration_sec) >= (c->period_duration)) { period_node = node; c->period_duration = perdiod_duration_sec; c->period_start = perdiod_start_sec; if (c->period_start > 0) c->media_presentation_duration = c->period_duration; } } node = xmlNextElementSibling(node); } if (!period_node) { av_log(s, AV_LOG_ERROR, "Unable to parse '%s' - missing Period node\n", url); ret = AVERROR_INVALIDDATA; goto cleanup; } adaptionset_node = xmlFirstElementChild(period_node); while (adaptionset_node) { if (!av_strcasecmp(adaptionset_node->name, (const char *)"BaseURL")) { period_baseurl_node = adaptionset_node; } else if (!av_strcasecmp(adaptionset_node->name, (const char *)"AdaptationSet")) { parse_manifest_adaptationset(s, url, adaptionset_node, mpd_baseurl_node, period_baseurl_node); } adaptionset_node = xmlNextElementSibling(adaptionset_node); } if (c->cur_video) { c->cur_video->rep_count = video_rep_idx; av_log(s, AV_LOG_VERBOSE, "rep_idx[%d]\n", (int)c->cur_video->rep_idx); av_log(s, AV_LOG_VERBOSE, "rep_count[%d]\n", (int)video_rep_idx); } if (c->cur_audio) { c->cur_audio->rep_count = audio_rep_idx; } cleanup: /*free the document */ xmlFreeDoc(doc); xmlCleanupParser(); } av_free(new_url); av_free(buffer); if (close_in) { avio_close(in); } return ret; } static int64_t calc_cur_seg_no(AVFormatContext *s, struct representation *pls) { DASHContext *c = s->priv_data; int64_t num = 0; int64_t start_time_offset = 0; if (c->is_live) { if (pls->n_fragments) { num = pls->first_seq_no; } else if (pls->n_timelines) { start_time_offset = get_segment_start_time_based_on_timeline(pls, 0xFFFFFFFF) - pls->timelines[pls->first_seq_no]->starttime; // total duration of playlist if (start_time_offset < 60 * pls->fragment_timescale) start_time_offset = 0; else start_time_offset = start_time_offset - 60 * pls->fragment_timescale; num = calc_next_seg_no_from_timelines(pls, pls->timelines[pls->first_seq_no]->starttime + start_time_offset); if (num == -1) num = pls->first_seq_no; } else if (pls->fragment_duration){ if (pls->presentation_timeoffset) { num = pls->presentation_timeoffset * pls->fragment_timescale / pls->fragment_duration; } else if (c->publish_time > 0 && !c->availability_start_time) { num = pls->first_seq_no + (((c->publish_time - c->availability_start_time) - c->suggested_presentation_delay) * pls->fragment_timescale) / pls->fragment_duration; } else { num = pls->first_seq_no + (((get_current_time_in_sec() - c->availability_start_time) - c->suggested_presentation_delay) * pls->fragment_timescale) / pls->fragment_duration; } } } else { num = pls->first_seq_no; } return num; } static int64_t calc_min_seg_no(AVFormatContext *s, struct representation *pls) { DASHContext *c = s->priv_data; int64_t num = 0; if (c->is_live && pls->fragment_duration) { num = pls->first_seq_no + (((get_current_time_in_sec() - c->availability_start_time) - c->time_shift_buffer_depth) * pls->fragment_timescale) / pls->fragment_duration; } else { num = pls->first_seq_no; } return num; } static int64_t calc_max_seg_no(struct representation *pls, DASHContext *c) { int64_t num = 0; if (pls->n_fragments) { num = pls->first_seq_no + pls->n_fragments - 1; } else if (pls->n_timelines) { int i = 0; num = pls->first_seq_no + pls->n_timelines - 1; for (i = 0; i < pls->n_timelines; i++) { num += pls->timelines[i]->repeat; } } else if (c->is_live && pls->fragment_duration) { num = pls->first_seq_no + (((get_current_time_in_sec() - c->availability_start_time)) * pls->fragment_timescale) / pls->fragment_duration; } else if (pls->fragment_duration) { num = pls->first_seq_no + (c->media_presentation_duration * pls->fragment_timescale) / pls->fragment_duration; } return num; } static void move_timelines(struct representation *rep_src, struct representation *rep_dest, DASHContext *c) { if (rep_dest && rep_src ) { free_timelines_list(rep_dest); rep_dest->timelines = rep_src->timelines; rep_dest->n_timelines = rep_src->n_timelines; rep_dest->first_seq_no = rep_src->first_seq_no; rep_dest->last_seq_no = calc_max_seg_no(rep_dest, c); rep_src->timelines = NULL; rep_src->n_timelines = 0; rep_dest->cur_seq_no = rep_src->cur_seq_no; } } static void move_segments(struct representation *rep_src, struct representation *rep_dest, DASHContext *c) { if (rep_dest && rep_src ) { free_fragment_list(rep_dest); if (rep_src->start_number > (rep_dest->start_number + rep_dest->n_fragments)) rep_dest->cur_seq_no = 0; else rep_dest->cur_seq_no += rep_src->start_number - rep_dest->start_number; rep_dest->fragments = rep_src->fragments; rep_dest->n_fragments = rep_src->n_fragments; rep_dest->parent = rep_src->parent; rep_dest->last_seq_no = calc_max_seg_no(rep_dest, c); rep_src->fragments = NULL; rep_src->n_fragments = 0; } } static int refresh_manifest(AVFormatContext *s) { int ret = 0; DASHContext *c = s->priv_data; // save current context struct representation *cur_video = c->cur_video; struct representation *cur_audio = c->cur_audio; char *base_url = c->base_url; c->base_url = NULL; c->cur_video = NULL; c->cur_audio = NULL; ret = parse_manifest(s, s->filename, NULL); if (ret) goto finish; if (cur_video && cur_video->timelines || cur_audio && cur_audio->timelines) { // calc current time int64_t currentVideoTime = 0; int64_t currentAudioTime = 0; if (cur_video && cur_video->timelines) currentVideoTime = get_segment_start_time_based_on_timeline(cur_video, cur_video->cur_seq_no) / cur_video->fragment_timescale; if (cur_audio && cur_audio->timelines) currentAudioTime = get_segment_start_time_based_on_timeline(cur_audio, cur_audio->cur_seq_no) / cur_audio->fragment_timescale; // update segments if (cur_video && cur_video->timelines) { c->cur_video->cur_seq_no = calc_next_seg_no_from_timelines(c->cur_video, currentVideoTime * cur_video->fragment_timescale - 1); if (c->cur_video->cur_seq_no >= 0) { move_timelines(c->cur_video, cur_video, c); } } if (cur_audio && cur_audio->timelines) { c->cur_audio->cur_seq_no = calc_next_seg_no_from_timelines(c->cur_audio, currentAudioTime * cur_audio->fragment_timescale - 1); if (c->cur_audio->cur_seq_no >= 0) { move_timelines(c->cur_audio, cur_audio, c); } } } if (cur_video && cur_video->fragments) { move_segments(c->cur_video, cur_video, c); } if (cur_audio && cur_audio->fragments) { move_segments(c->cur_audio, cur_audio, c); } finish: // restore context if (c->base_url) av_free(base_url); else c->base_url = base_url; if (c->cur_audio) free_representation(c->cur_audio); if (c->cur_video) free_representation(c->cur_video); c->cur_audio = cur_audio; c->cur_video = cur_video; return ret; } static struct fragment *get_current_fragment(struct representation *pls) { int64_t min_seq_no = 0; int64_t max_seq_no = 0; struct fragment *seg = NULL; struct fragment *seg_ptr = NULL; DASHContext *c = pls->parent->priv_data; while (( !ff_check_interrupt(c->interrupt_callback)&& pls->n_fragments > 0)) { if (pls->cur_seq_no < pls->n_fragments) { seg_ptr = pls->fragments[pls->cur_seq_no]; seg = av_mallocz(sizeof(struct fragment)); if (!seg) { return NULL; } seg->url = av_strdup(seg_ptr->url); if (!seg->url) { av_free(seg); return NULL; } seg->size = seg_ptr->size; seg->url_offset = seg_ptr->url_offset; return seg; } else if (c->is_live) { refresh_manifest(pls->parent); } else { break; } } if (c->is_live) { min_seq_no = calc_min_seg_no(pls->parent, pls); max_seq_no = calc_max_seg_no(pls, c); if (pls->timelines || pls->fragments) { refresh_manifest(pls->parent); } if (pls->cur_seq_no <= min_seq_no) { av_log(pls->parent, AV_LOG_VERBOSE, "old fragment: cur[%"PRId64"] min[%"PRId64"] max[%"PRId64"], playlist %d\n", (int64_t)pls->cur_seq_no, min_seq_no, max_seq_no, (int)pls->rep_idx); pls->cur_seq_no = calc_cur_seg_no(pls->parent, pls); } else if (pls->cur_seq_no > max_seq_no) { av_log(pls->parent, AV_LOG_VERBOSE, "new fragment: min[%"PRId64"] max[%"PRId64"], playlist %d\n", min_seq_no, max_seq_no, (int)pls->rep_idx); } seg = av_mallocz(sizeof(struct fragment)); if (!seg) { return NULL; } } else if (pls->cur_seq_no <= pls->last_seq_no) { seg = av_mallocz(sizeof(struct fragment)); if (!seg) { return NULL; } } if (seg) { char tmpfilename[MAX_URL_SIZE]; ff_dash_fill_tmpl_params(tmpfilename, sizeof(tmpfilename), pls->url_template, 0, pls->cur_seq_no, 0, get_segment_start_time_based_on_timeline(pls, pls->cur_seq_no)); seg->url = av_strireplace(pls->url_template, pls->url_template, tmpfilename); if (!seg->url) { av_log(pls->parent, AV_LOG_WARNING, "Unable to resolve template url '%s', try to use origin template\n", pls->url_template); seg->url = av_strdup(pls->url_template); if (!seg->url) { av_log(pls->parent, AV_LOG_ERROR, "Cannot resolve template url '%s'\n", pls->url_template); return NULL; } } seg->size = -1; } return seg; } enum ReadFromURLMode { READ_NORMAL, READ_COMPLETE, }; static int read_from_url(struct representation *pls, struct fragment *seg, uint8_t *buf, int buf_size, enum ReadFromURLMode mode) { int ret; /* limit read if the fragment was only a part of a file */ if (seg->size >= 0) buf_size = FFMIN(buf_size, pls->cur_seg_size - pls->cur_seg_offset); if (mode == READ_COMPLETE) { ret = avio_read(pls->input, buf, buf_size); if (ret < buf_size) { av_log(pls->parent, AV_LOG_WARNING, "Could not read complete fragment.\n"); } } else { ret = avio_read(pls->input, buf, buf_size); } if (ret > 0) pls->cur_seg_offset += ret; return ret; } static int open_input(DASHContext *c, struct representation *pls, struct fragment *seg) { AVDictionary *opts = NULL; char url[MAX_URL_SIZE]; int ret; set_httpheader_options(c, &opts); if (seg->size >= 0) { /* try to restrict the HTTP request to the part we want * (if this is in fact a HTTP request) */ av_dict_set_int(&opts, "offset", seg->url_offset, 0); av_dict_set_int(&opts, "end_offset", seg->url_offset + seg->size, 0); } ff_make_absolute_url(url, MAX_URL_SIZE, c->base_url, seg->url); av_log(pls->parent, AV_LOG_VERBOSE, "DASH request for url '%s', offset %"PRId64", playlist %d\n", url, seg->url_offset, pls->rep_idx); ret = open_url(pls->parent, &pls->input, url, c->avio_opts, opts, NULL); if (ret < 0) { goto cleanup; } /* Seek to the requested position. If this was a HTTP request, the offset * should already be where want it to, but this allows e.g. local testing * without a HTTP server. */ if (!ret && seg->url_offset) { int64_t seekret = avio_seek(pls->input, seg->url_offset, SEEK_SET); if (seekret < 0) { av_log(pls->parent, AV_LOG_ERROR, "Unable to seek to offset %"PRId64" of DASH fragment '%s'\n", seg->url_offset, seg->url); ret = (int) seekret; ff_format_io_close(pls->parent, &pls->input); } } cleanup: av_dict_free(&opts); pls->cur_seg_offset = 0; pls->cur_seg_size = seg->size; return ret; } static int update_init_section(struct representation *pls) { static const int max_init_section_size = 1024 * 1024; DASHContext *c = pls->parent->priv_data; int64_t sec_size; int64_t urlsize; int ret; if (!pls->init_section || pls->init_sec_buf) return 0; ret = open_input(c, pls, pls->init_section); if (ret < 0) { av_log(pls->parent, AV_LOG_WARNING, "Failed to open an initialization section in playlist %d\n", pls->rep_idx); return ret; } if (pls->init_section->size >= 0) sec_size = pls->init_section->size; else if ((urlsize = avio_size(pls->input)) >= 0) sec_size = urlsize; else sec_size = max_init_section_size; av_log(pls->parent, AV_LOG_DEBUG, "Downloading an initialization section of size %"PRId64"\n", sec_size); sec_size = FFMIN(sec_size, max_init_section_size); av_fast_malloc(&pls->init_sec_buf, &pls->init_sec_buf_size, sec_size); ret = read_from_url(pls, pls->init_section, pls->init_sec_buf, pls->init_sec_buf_size, READ_COMPLETE); ff_format_io_close(pls->parent, &pls->input); if (ret < 0) return ret; pls->init_sec_data_len = ret; pls->init_sec_buf_read_offset = 0; return 0; } static int64_t seek_data(void *opaque, int64_t offset, int whence) { struct representation *v = opaque; if (v->n_fragments && !v->init_sec_data_len) { return avio_seek(v->input, offset, whence); } return AVERROR(ENOSYS); } static int read_data(void *opaque, uint8_t *buf, int buf_size) { int ret = 0; struct representation *v = opaque; DASHContext *c = v->parent->priv_data; restart: if (!v->input) { free_fragment(&v->cur_seg); v->cur_seg = get_current_fragment(v); if (!v->cur_seg) { ret = AVERROR_EOF; goto end; } /* load/update Media Initialization Section, if any */ ret = update_init_section(v); if (ret) goto end; ret = open_input(c, v, v->cur_seg); if (ret < 0) { if (ff_check_interrupt(c->interrupt_callback)) { goto end; ret = AVERROR_EXIT; } av_log(v->parent, AV_LOG_WARNING, "Failed to open fragment of playlist %d\n", v->rep_idx); v->cur_seq_no++; goto restart; } } if (v->init_sec_buf_read_offset < v->init_sec_data_len) { /* Push init section out first before first actual fragment */ int copy_size = FFMIN(v->init_sec_data_len - v->init_sec_buf_read_offset, buf_size); memcpy(buf, v->init_sec_buf, copy_size); v->init_sec_buf_read_offset += copy_size; ret = copy_size; goto end; } /* check the v->cur_seg, if it is null, get current and double check if the new v->cur_seg*/ if (!v->cur_seg) { v->cur_seg = get_current_fragment(v); } if (!v->cur_seg) { ret = AVERROR_EOF; goto end; } ret = read_from_url(v, v->cur_seg, buf, buf_size, READ_NORMAL); if (ret > 0) goto end; if (!v->is_restart_needed) v->cur_seq_no++; v->is_restart_needed = 1; end: return ret; } static int save_avio_options(AVFormatContext *s) { DASHContext *c = s->priv_data; const char *opts[] = { "headers", "user_agent", "user-agent", "cookies", NULL }, **opt = opts; uint8_t *buf = NULL; int ret = 0; while (*opt) { if (av_opt_get(s->pb, *opt, AV_OPT_SEARCH_CHILDREN, &buf) >= 0) { if (buf[0] != '\0') { ret = av_dict_set(&c->avio_opts, *opt, buf, AV_DICT_DONT_STRDUP_VAL); if (ret < 0) { av_freep(&buf); return ret; } } else { av_freep(&buf); } } opt++; } return ret; } static int nested_io_open(AVFormatContext *s, AVIOContext **pb, const char *url, int flags, AVDictionary **opts) { av_log(s, AV_LOG_ERROR, "A DASH playlist item '%s' referred to an external file '%s'. " "Opening this file was forbidden for security reasons\n", s->filename, url); return AVERROR(EPERM); } static int reopen_demux_for_component(AVFormatContext *s, struct representation *pls) { DASHContext *c = s->priv_data; AVInputFormat *in_fmt = NULL; AVDictionary *in_fmt_opts = NULL; uint8_t *avio_ctx_buffer = NULL; int ret = 0; if (pls->ctx) { /* note: the internal buffer could have changed, and be != avio_ctx_buffer */ av_freep(&pls->pb.buffer); memset(&pls->pb, 0x00, sizeof(AVIOContext)); pls->ctx->pb = NULL; avformat_close_input(&pls->ctx); pls->ctx = NULL; } if (!(pls->ctx = avformat_alloc_context())) { ret = AVERROR(ENOMEM); goto fail; } avio_ctx_buffer = av_malloc(INITIAL_BUFFER_SIZE); if (!avio_ctx_buffer ) { ret = AVERROR(ENOMEM); avformat_free_context(pls->ctx); pls->ctx = NULL; goto fail; } if (c->is_live) { ffio_init_context(&pls->pb, avio_ctx_buffer , INITIAL_BUFFER_SIZE, 0, pls, read_data, NULL, NULL); } else { ffio_init_context(&pls->pb, avio_ctx_buffer , INITIAL_BUFFER_SIZE, 0, pls, read_data, NULL, seek_data); } pls->pb.seekable = 0; if ((ret = ff_copy_whiteblacklists(pls->ctx, s)) < 0) goto fail; pls->ctx->flags = AVFMT_FLAG_CUSTOM_IO; pls->ctx->probesize = 1024 * 4; pls->ctx->max_analyze_duration = 4 * AV_TIME_BASE; ret = av_probe_input_buffer(&pls->pb, &in_fmt, "", NULL, 0, 0); if (ret < 0) { av_log(s, AV_LOG_ERROR, "Error when loading first fragment, playlist %d\n", (int)pls->rep_idx); avformat_free_context(pls->ctx); pls->ctx = NULL; goto fail; } pls->ctx->pb = &pls->pb; pls->ctx->io_open = nested_io_open; // provide additional information from mpd if available ret = avformat_open_input(&pls->ctx, "", in_fmt, &in_fmt_opts); //pls->init_section->url av_dict_free(&in_fmt_opts); if (ret < 0) goto fail; if (pls->n_fragments) { ret = avformat_find_stream_info(pls->ctx, NULL); if (ret < 0) goto fail; } fail: return ret; } static int open_demux_for_component(AVFormatContext *s, struct representation *pls) { int ret = 0; int i; pls->parent = s; pls->cur_seq_no = calc_cur_seg_no(s, pls); pls->last_seq_no = calc_max_seg_no(pls, s->priv_data); ret = reopen_demux_for_component(s, pls); if (ret < 0) { goto fail; } for (i = 0; i < pls->ctx->nb_streams; i++) { AVStream *st = avformat_new_stream(s, NULL); AVStream *ist = pls->ctx->streams[i]; if (!st) { ret = AVERROR(ENOMEM); goto fail; } st->id = i; avcodec_parameters_copy(st->codecpar, pls->ctx->streams[i]->codecpar); avpriv_set_pts_info(st, ist->pts_wrap_bits, ist->time_base.num, ist->time_base.den); } return 0; fail: return ret; } static int dash_read_header(AVFormatContext *s) { void *u = (s->flags & AVFMT_FLAG_CUSTOM_IO) ? NULL : s->pb; DASHContext *c = s->priv_data; int ret = 0; int stream_index = 0; c->interrupt_callback = &s->interrupt_callback; // if the URL context is good, read important options we must broker later if (u) { update_options(&c->user_agent, "user-agent", u); update_options(&c->cookies, "cookies", u); update_options(&c->headers, "headers", u); } if ((ret = parse_manifest(s, s->filename, s->pb)) < 0) goto fail; if ((ret = save_avio_options(s)) < 0) goto fail; /* If this isn't a live stream, fill the total duration of the * stream. */ if (!c->is_live) { s->duration = (int64_t) c->media_presentation_duration * AV_TIME_BASE; } /* Open the demuxer for curent video and current audio components if available */ if (!ret && c->cur_video) { ret = open_demux_for_component(s, c->cur_video); if (!ret) { c->cur_video->stream_index = stream_index; ++stream_index; } else { free_representation(c->cur_video); c->cur_video = NULL; } } if (!ret && c->cur_audio) { ret = open_demux_for_component(s, c->cur_audio); if (!ret) { c->cur_audio->stream_index = stream_index; ++stream_index; } else { free_representation(c->cur_audio); c->cur_audio = NULL; } } if (!stream_index) { ret = AVERROR_INVALIDDATA; goto fail; } /* Create a program */ if (!ret) { AVProgram *program; program = av_new_program(s, 0); if (!program) { goto fail; } if (c->cur_video) { av_program_add_stream_index(s, 0, c->cur_video->stream_index); } if (c->cur_audio) { av_program_add_stream_index(s, 0, c->cur_audio->stream_index); } } return 0; fail: return ret; } static int dash_read_packet(AVFormatContext *s, AVPacket *pkt) { DASHContext *c = s->priv_data; int ret = 0; struct representation *cur = NULL; if (!c->cur_audio && !c->cur_video ) { return AVERROR_INVALIDDATA; } if (c->cur_audio && !c->cur_video) { cur = c->cur_audio; } else if (!c->cur_audio && c->cur_video) { cur = c->cur_video; } else if (c->cur_video->cur_timestamp < c->cur_audio->cur_timestamp) { cur = c->cur_video; } else { cur = c->cur_audio; } if (cur->ctx) { while (!ff_check_interrupt(c->interrupt_callback) && !ret) { ret = av_read_frame(cur->ctx, pkt); if (ret >= 0) { /* If we got a packet, return it */ cur->cur_timestamp = av_rescale(pkt->pts, (int64_t)cur->ctx->streams[0]->time_base.num * 90000, cur->ctx->streams[0]->time_base.den); pkt->stream_index = cur->stream_index; return 0; } if (cur->is_restart_needed) { cur->cur_seg_offset = 0; cur->init_sec_buf_read_offset = 0; if (cur->input) ff_format_io_close(cur->parent, &cur->input); ret = reopen_demux_for_component(s, cur); cur->is_restart_needed = 0; } } } return AVERROR_EOF; } static int dash_close(AVFormatContext *s) { DASHContext *c = s->priv_data; if (c->cur_audio) { free_representation(c->cur_audio); } if (c->cur_video) { free_representation(c->cur_video); } av_freep(&c->cookies); av_freep(&c->user_agent); av_dict_free(&c->avio_opts); av_freep(&c->base_url); return 0; } static int dash_seek(AVFormatContext *s, struct representation *pls, int64_t seek_pos_msec, int flags) { int ret = 0; int i = 0; int j = 0; int64_t duration = 0; av_log(pls->parent, AV_LOG_VERBOSE, "DASH seek pos[%"PRId64"ms], playlist %d\n", seek_pos_msec, pls->rep_idx); // single fragment mode if (pls->n_fragments == 1) { pls->cur_timestamp = 0; pls->cur_seg_offset = 0; ff_read_frame_flush(pls->ctx); return av_seek_frame(pls->ctx, -1, seek_pos_msec * 1000, flags); } if (pls->input) ff_format_io_close(pls->parent, &pls->input); // find the nearest fragment if (pls->n_timelines > 0 && pls->fragment_timescale > 0) { int64_t num = pls->first_seq_no; av_log(pls->parent, AV_LOG_VERBOSE, "dash_seek with SegmentTimeline start n_timelines[%d] " "last_seq_no[%"PRId64"], playlist %d.\n", (int)pls->n_timelines, (int64_t)pls->last_seq_no, (int)pls->rep_idx); for (i = 0; i < pls->n_timelines; i++) { if (pls->timelines[i]->starttime > 0) { duration = pls->timelines[i]->starttime; } duration += pls->timelines[i]->duration; if (seek_pos_msec < ((duration * 1000) / pls->fragment_timescale)) { goto set_seq_num; } for (j = 0; j < pls->timelines[i]->repeat; j++) { duration += pls->timelines[i]->duration; num++; if (seek_pos_msec < ((duration * 1000) / pls->fragment_timescale)) { goto set_seq_num; } } num++; } set_seq_num: pls->cur_seq_no = num > pls->last_seq_no ? pls->last_seq_no : num; av_log(pls->parent, AV_LOG_VERBOSE, "dash_seek with SegmentTimeline end cur_seq_no[%"PRId64"], playlist %d.\n", (int64_t)pls->cur_seq_no, (int)pls->rep_idx); } else if (pls->fragment_duration > 0) { pls->cur_seq_no = pls->first_seq_no + ((seek_pos_msec * pls->fragment_timescale) / pls->fragment_duration) / 1000; } else { av_log(pls->parent, AV_LOG_ERROR, "dash_seek missing fragment_duration\n"); pls->cur_seq_no = pls->first_seq_no; } pls->cur_timestamp = 0; pls->cur_seg_offset = 0; pls->init_sec_buf_read_offset = 0; ret = reopen_demux_for_component(s, pls); return ret; } static int dash_read_seek(AVFormatContext *s, int stream_index, int64_t timestamp, int flags) { int ret = 0; DASHContext *c = s->priv_data; int64_t seek_pos_msec = av_rescale_rnd(timestamp, 1000, s->streams[stream_index]->time_base.den, flags & AVSEEK_FLAG_BACKWARD ? AV_ROUND_DOWN : AV_ROUND_UP); if ((flags & AVSEEK_FLAG_BYTE) || c->is_live) return AVERROR(ENOSYS); if (c->cur_audio) { ret = dash_seek(s, c->cur_audio, seek_pos_msec, flags); } if (!ret && c->cur_video) { ret = dash_seek(s, c->cur_video, seek_pos_msec, flags); } return ret; } static int dash_probe(AVProbeData *p) { if (!av_stristr(p->buf, "buf, "dash:profile:isoff-on-demand:2011") || av_stristr(p->buf, "dash:profile:isoff-live:2011") || av_stristr(p->buf, "dash:profile:isoff-live:2012") || av_stristr(p->buf, "dash:profile:isoff-main:2011")) { return AVPROBE_SCORE_MAX; } if (av_stristr(p->buf, "dash:profile")) { return AVPROBE_SCORE_MAX; } return 0; } #define OFFSET(x) offsetof(DASHContext, x) #define FLAGS AV_OPT_FLAG_DECODING_PARAM static const AVOption dash_options[] = { {"allowed_extensions", "List of file extensions that dash is allowed to access", OFFSET(allowed_extensions), AV_OPT_TYPE_STRING, {.str = "aac,m4a,m4s,m4v,mov,mp4"}, INT_MIN, INT_MAX, FLAGS}, {NULL} }; static const AVClass dash_class = { .class_name = "dash", .item_name = av_default_item_name, .option = dash_options, .version = LIBAVUTIL_VERSION_INT, }; AVInputFormat ff_dash_demuxer = { .name = "dash", .long_name = NULL_IF_CONFIG_SMALL("Dynamic Adaptive Streaming over HTTP"), .priv_class = &dash_class, .priv_data_size = sizeof(DASHContext), .read_probe = dash_probe, .read_header = dash_read_header, .read_packet = dash_read_packet, .read_close = dash_close, .read_seek = dash_read_seek, .flags = AVFMT_NO_BYTE_SEEK, };