/* * Original author: Uoti Urpala * * This file is part of mpv. * * mpv 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. * * mpv 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 mpv. If not, see . */ #include #include #include #include #include #include #include "mpv_talloc.h" #include "demux.h" #include "timeline.h" #include "common/msg.h" #include "options/path.h" #include "misc/bstr.h" #include "common/common.h" #include "common/tags.h" #include "stream/stream.h" #define HEADER "# mpv EDL v0\n" struct tl_part { char *filename; // what is stream_open()ed double offset; // offset into the source file bool offset_set; bool chapter_ts; bool is_layout; double length; // length of the part (-1 if rest of the file) char *title; }; struct tl_parts { bool disable_chapters; bool dash, no_clip, delay_open; char *init_fragment_url; struct sh_stream **sh_meta; int num_sh_meta; struct tl_part *parts; int num_parts; struct tl_parts *next; }; struct tl_root { struct tl_parts **pars; int num_pars; struct mp_tags *tags; }; struct priv { bstr data; }; // Static allocation out of laziness. #define NUM_MAX_PARAMS 20 struct parse_ctx { struct mp_log *log; bool error; bstr param_vals[NUM_MAX_PARAMS]; bstr param_names[NUM_MAX_PARAMS]; int num_params; }; // This returns a value with bstr.start==NULL if nothing found. If the parameter // was specified, bstr.str!=NULL, even if the string is empty (bstr.len==0). // The parameter is removed from the list if found. static bstr get_param(struct parse_ctx *ctx, const char *name) { bstr bname = bstr0(name); for (int n = 0; n < ctx->num_params; n++) { if (bstr_equals(ctx->param_names[n], bname)) { bstr res = ctx->param_vals[n]; int count = ctx->num_params; MP_TARRAY_REMOVE_AT(ctx->param_names, count, n); count = ctx->num_params; MP_TARRAY_REMOVE_AT(ctx->param_vals, count, n); ctx->num_params -= 1; if (!res.start) res = bstr0(""); // keep guarantees return res; } } return (bstr){0}; } // Same as get_param(), but return C string. Return NULL if missing. static char *get_param0(struct parse_ctx *ctx, void *ta_ctx, const char *name) { return bstrdup0(ta_ctx, get_param(ctx, name)); } // Optional int parameter. Returns the parsed integer, or def if the parameter // is missing or on error (sets ctx.error on error). static int get_param_int(struct parse_ctx *ctx, const char *name, int def) { bstr val = get_param(ctx, name); if (val.start) { bstr rest; long long ival = bstrtoll(val, &rest, 0); if (!val.len || rest.len || ival < INT_MIN || ival > INT_MAX) { MP_ERR(ctx, "Invalid integer: '%.*s'\n", BSTR_P(val)); ctx->error = true; return def; } return ival; } return def; } // Optional time parameter. Currently a number. // Returns true: parameter was present and valid, *t is set // Returns false: parameter was not present (or broken => ctx.error set) static bool get_param_time(struct parse_ctx *ctx, const char *name, double *t) { bstr val = get_param(ctx, name); if (val.start) { bstr rest; double time = bstrtod(val, &rest); if (!val.len || rest.len || !isfinite(time)) { MP_ERR(ctx, "Invalid time string: '%.*s'\n", BSTR_P(val)); ctx->error = true; return false; } *t = time; return true; } return false; } static struct tl_parts *add_part(struct tl_root *root) { struct tl_parts *tl = talloc_zero(root, struct tl_parts); MP_TARRAY_APPEND(root, root->pars, root->num_pars, tl); return tl; } static struct sh_stream *get_meta(struct tl_parts *tl, int index) { for (int n = 0; n < tl->num_sh_meta; n++) { if (tl->sh_meta[n]->index == index) return tl->sh_meta[n]; } struct sh_stream *sh = demux_alloc_sh_stream(STREAM_TYPE_COUNT); talloc_steal(tl, sh); MP_TARRAY_APPEND(tl, tl->sh_meta, tl->num_sh_meta, sh); return sh; } /* Returns a list of parts, or NULL on parse error. * Syntax (without file header or URI prefix): * url ::= ( (';' | '\n') )* * entry ::= ( ',' )* * param ::= [ '='] ( | '%' '%' ) */ static struct tl_root *parse_edl(bstr str, struct mp_log *log) { struct tl_root *root = talloc_zero(NULL, struct tl_root); root->tags = talloc_zero(root, struct mp_tags); struct tl_parts *tl = add_part(root); while (str.len) { if (bstr_eatstart0(&str, "#")) { bstr_split_tok(str, "\n", &(bstr){0}, &str); continue; } if (bstr_eatstart0(&str, "\n") || bstr_eatstart0(&str, ";")) continue; bool is_header = bstr_eatstart0(&str, "!"); struct parse_ctx ctx = { .log = log }; int nparam = 0; while (1) { bstr name, val; // Check if it's of the form "name=..." int next = bstrcspn(str, "=%,;\n"); if (next > 0 && next < str.len && str.start[next] == '=') { name = bstr_splice(str, 0, next); str = bstr_cut(str, next + 1); } else if (is_header) { const char *names[] = {"type"}; // implied name name = bstr0(nparam < 1 ? names[nparam] : "-"); } else { const char *names[] = {"file", "start", "length"}; // implied name name = bstr0(nparam < 3 ? names[nparam] : "-"); } if (bstr_eatstart0(&str, "%")) { int len = bstrtoll(str, &str, 0); if (!bstr_startswith0(str, "%") || (len > str.len - 1)) goto error; val = bstr_splice(str, 1, len + 1); str = bstr_cut(str, len + 1); } else { next = bstrcspn(str, ",;\n"); val = bstr_splice(str, 0, next); str = bstr_cut(str, next); } if (ctx.num_params >= NUM_MAX_PARAMS) { mp_err(log, "Too many parameters, ignoring '%.*s'.\n", BSTR_P(name)); } else { ctx.param_names[ctx.num_params] = name; ctx.param_vals[ctx.num_params] = val; ctx.num_params += 1; } nparam++; if (!bstr_eatstart0(&str, ",")) break; } if (is_header) { bstr f_type = get_param(&ctx, "type"); if (bstr_equals0(f_type, "mp4_dash")) { tl->dash = true; tl->init_fragment_url = get_param0(&ctx, tl, "init"); } else if (bstr_equals0(f_type, "no_clip")) { tl->no_clip = true; } else if (bstr_equals0(f_type, "new_stream")) { // (Special case: ignore "redundant" headers at the start for // general symmetry.) if (root->num_pars > 1 || tl->num_parts) tl = add_part(root); } else if (bstr_equals0(f_type, "no_chapters")) { tl->disable_chapters = true; } else if (bstr_equals0(f_type, "track_meta")) { int index = get_param_int(&ctx, "index", -1); struct sh_stream *sh = index < 0 && tl->num_sh_meta ? tl->sh_meta[tl->num_sh_meta - 1] : get_meta(tl, index); sh->lang = get_param0(&ctx, sh, "lang"); sh->title = get_param0(&ctx, sh, "title"); sh->hls_bitrate = get_param_int(&ctx, "byterate", 0) * 8; bstr flags = get_param(&ctx, "flags"); bstr flag; while (bstr_split_tok(flags, "+", &flag, &flags) || flag.len) { if (bstr_equals0(flag, "default")) { sh->default_track = true; } else if (bstr_equals0(flag, "forced")) { sh->forced_track = true; } else { mp_warn(log, "Unknown flag: '%.*s'\n", BSTR_P(flag)); } } } else if (bstr_equals0(f_type, "delay_open")) { struct sh_stream *sh = get_meta(tl, tl->num_sh_meta); bstr mt = get_param(&ctx, "media_type"); if (bstr_equals0(mt, "video")) { sh->type = sh->codec->type = STREAM_VIDEO; } else if (bstr_equals0(mt, "audio")) { sh->type = sh->codec->type = STREAM_AUDIO; } else if (bstr_equals0(mt, "sub")) { sh->type = sh->codec->type = STREAM_SUB; } else { mp_err(log, "Invalid or missing !delay_open media type.\n"); goto error; } sh->codec->codec = get_param0(&ctx, sh, "codec"); if (!sh->codec->codec) sh->codec->codec = "null"; sh->codec->disp_w = get_param_int(&ctx, "w", 0); sh->codec->disp_h = get_param_int(&ctx, "h", 0); sh->codec->fps = get_param_int(&ctx, "fps", 0); sh->codec->samplerate = get_param_int(&ctx, "samplerate", 0); tl->delay_open = true; } else if (bstr_equals0(f_type, "global_tags")) { for (int n = 0; n < ctx.num_params; n++) { mp_tags_set_bstr(root->tags, ctx.param_names[n], ctx.param_vals[n]); } ctx.num_params = 0; } else { mp_err(log, "Unknown header: '%.*s'\n", BSTR_P(f_type)); goto error; } } else { struct tl_part p = { .length = -1 }; p.filename = get_param0(&ctx, tl, "file"); if (!p.filename || !p.filename[0]) { mp_err(log, "Missing filename in segment.'\n"); goto error; } p.offset_set = get_param_time(&ctx, "start", &p.offset); get_param_time(&ctx, "length", &p.length); bstr ts = get_param(&ctx, "timestamps"); if (bstr_equals0(ts, "chapters")) { p.chapter_ts = true; } else if (ts.start && !bstr_equals0(ts, "seconds")) { mp_warn(log, "Unknown timestamp type: '%.*s'\n", BSTR_P(ts)); } p.title = get_param0(&ctx, tl, "title"); bstr layout = get_param(&ctx, "layout"); if (layout.start) { if (bstr_equals0(layout, "this")) { p.is_layout = true; } else { mp_warn(log, "Unknown layout param: '%.*s'\n", BSTR_P(layout)); } } MP_TARRAY_APPEND(tl, tl->parts, tl->num_parts, p); } if (ctx.error) goto error; for (int n = 0; n < ctx.num_params; n++) { mp_warn(log, "Unknown or duplicate parameter: '%.*s'\n", BSTR_P(ctx.param_names[n])); } } assert(root->num_pars); for (int n = 0; n < root->num_pars; n++) { if (root->pars[n]->num_parts < 1) { mp_err(log, "EDL specifies no segments.'\n"); goto error; } } return root; error: mp_err(log, "EDL parsing failed.\n"); talloc_free(root); return NULL; } static struct demuxer *open_source(struct timeline *root, struct timeline_par *tl, char *filename) { for (int n = 0; n < tl->num_parts; n++) { struct demuxer *d = tl->parts[n].source; if (d && d->filename && strcmp(d->filename, filename) == 0) return d; } struct demuxer_params params = { .init_fragment = tl->init_fragment, .stream_flags = root->stream_origin, }; struct demuxer *d = demux_open_url(filename, ¶ms, root->cancel, root->global); if (d) { MP_TARRAY_APPEND(root, root->sources, root->num_sources, d); } else { MP_ERR(root, "EDL: Could not open source file '%s'.\n", filename); } return d; } static double demuxer_chapter_time(struct demuxer *demuxer, int n) { if (n < 0 || n >= demuxer->num_chapters) return -1; return demuxer->chapters[n].pts; } // Append all chapters from src to the chapters array. // Ignore chapters outside of the given time range. static void copy_chapters(struct demux_chapter **chapters, int *num_chapters, struct demuxer *src, double start, double len, double dest_offset) { for (int n = 0; n < src->num_chapters; n++) { double time = demuxer_chapter_time(src, n); if (time >= start && time <= start + len) { struct demux_chapter ch = { .pts = dest_offset + time - start, .metadata = mp_tags_dup(*chapters, src->chapters[n].metadata), }; MP_TARRAY_APPEND(NULL, *chapters, *num_chapters, ch); } } } static void resolve_timestamps(struct tl_part *part, struct demuxer *demuxer) { if (part->chapter_ts) { double start = demuxer_chapter_time(demuxer, part->offset); double length = part->length; double end = length; if (end >= 0) end = demuxer_chapter_time(demuxer, part->offset + part->length); if (end >= 0 && start >= 0) length = end - start; part->offset = start; part->length = length; } if (!part->offset_set) part->offset = demuxer->start_time; } static struct timeline_par *build_timeline(struct timeline *root, struct tl_root *edl_root, struct tl_parts *parts) { struct timeline_par *tl = talloc_zero(root, struct timeline_par); MP_TARRAY_APPEND(root, root->pars, root->num_pars, tl); tl->track_layout = NULL; tl->dash = parts->dash; tl->no_clip = parts->no_clip; tl->delay_open = parts->delay_open; // There is no copy function for sh_stream, so just steal it. for (int n = 0; n < parts->num_sh_meta; n++) { MP_TARRAY_APPEND(tl, tl->sh_meta, tl->num_sh_meta, talloc_steal(tl, parts->sh_meta[n])); parts->sh_meta[n] = NULL; } parts->num_sh_meta = 0; if (parts->init_fragment_url && parts->init_fragment_url[0]) { MP_VERBOSE(root, "Opening init fragment...\n"); stream_t *s = stream_create(parts->init_fragment_url, STREAM_READ | root->stream_origin, root->cancel, root->global); if (s) { root->is_network |= s->is_network; root->is_streaming |= s->streaming; tl->init_fragment = stream_read_complete(s, tl, 1000000); } free_stream(s); if (!tl->init_fragment.len) { MP_ERR(root, "Could not read init fragment.\n"); goto error; } struct demuxer_params params = { .init_fragment = tl->init_fragment, .stream_flags = root->stream_origin, }; tl->track_layout = demux_open_url("memory://", ¶ms, root->cancel, root->global); if (!tl->track_layout) { MP_ERR(root, "Could not demux init fragment.\n"); goto error; } MP_TARRAY_APPEND(root, root->sources, root->num_sources, tl->track_layout); } tl->parts = talloc_array_ptrtype(tl, tl->parts, parts->num_parts); double starttime = 0; for (int n = 0; n < parts->num_parts; n++) { struct tl_part *part = &parts->parts[n]; struct demuxer *source = NULL; if (!bstrcasecmp0(mp_split_proto(bstr0(part->filename), NULL), "edl")) { MP_ERR(root, "Nested EDL is not allowed.\n"); goto error; } if (tl->dash) { part->offset = starttime; if (part->length <= 0) MP_WARN(root, "Segment %d has unknown duration.\n", n); if (part->offset_set) MP_WARN(root, "Offsets are ignored.\n"); if (!tl->track_layout) tl->track_layout = open_source(root, tl, part->filename); } else if (tl->delay_open) { if (n == 0 && !part->offset_set) { part->offset = starttime; part->offset_set = true; } if (part->chapter_ts || (part->length < 0 && !tl->no_clip)) { MP_ERR(root, "Invalid specification for delay_open stream.\n"); goto error; } } else { MP_VERBOSE(root, "Opening segment %d...\n", n); source = open_source(root, tl, part->filename); if (!source) goto error; resolve_timestamps(part, source); double end_time = source->duration; if (end_time >= 0) end_time += source->start_time; // Unknown length => use rest of the file. If duration is unknown, make // something up. if (part->length < 0) { if (end_time < 0) { MP_WARN(root, "EDL: source file '%s' has unknown duration.\n", part->filename); end_time = 1; } part->length = end_time - part->offset; } else if (end_time >= 0) { double end_part = part->offset + part->length; if (end_part > end_time) { MP_WARN(root, "EDL: entry %d uses %f " "seconds, but file has only %f seconds.\n", n, end_part, end_time); } } if (!parts->disable_chapters) { // Add a chapter between each file. struct demux_chapter ch = { .pts = starttime, .metadata = talloc_zero(tl, struct mp_tags), }; mp_tags_set_str(ch.metadata, "title", part->title ? part->title : part->filename); MP_TARRAY_APPEND(root, root->chapters, root->num_chapters, ch); // Also copy the source file's chapters for the relevant parts copy_chapters(&root->chapters, &root->num_chapters, source, part->offset, part->length, starttime); } } tl->parts[n] = (struct timeline_part) { .start = starttime, .end = starttime + part->length, .source_start = part->offset, .source = source, .url = talloc_strdup(tl, part->filename), }; starttime = tl->parts[n].end; if (source && !tl->track_layout && part->is_layout) tl->track_layout = source; tl->num_parts++; } if (tl->no_clip && tl->num_parts > 1) MP_WARN(root, "Multiple parts with no_clip. Undefined behavior ahead.\n"); if (!tl->track_layout) { // Use a heuristic to select the "broadest" part as layout. for (int n = 0; n < parts->num_parts; n++) { struct demuxer *s = tl->parts[n].source; if (!s) continue; if (!tl->track_layout || demux_get_num_stream(s) > demux_get_num_stream(tl->track_layout)) tl->track_layout = s; } } if (!tl->track_layout && !tl->delay_open) goto error; if (!root->meta) root->meta = tl->track_layout; // Not very sane, since demuxer fields are supposed to be treated read-only // from outside, but happens to work in this case, so who cares. if (root->meta) mp_tags_merge(root->meta->metadata, edl_root->tags); assert(tl->num_parts == parts->num_parts); return tl; error: root->num_pars = 0; return NULL; } static void fix_filenames(struct tl_parts *parts, char *source_path) { bstr proto = mp_split_proto(bstr0(source_path), NULL); // Don't adjust self-expanding protocols if (!bstrcasecmp0(proto, "memory") || !bstrcasecmp0(proto, "lavf") || !bstrcasecmp0(proto, "hex") || !bstrcasecmp0(proto, "edl")) { return; } struct bstr dirname = mp_dirname(source_path); for (int n = 0; n < parts->num_parts; n++) { struct tl_part *part = &parts->parts[n]; if (!mp_is_url(bstr0(part->filename))) { part->filename = mp_path_join_bstr(parts, dirname, bstr0(part->filename)); } } } static void build_mpv_edl_timeline(struct timeline *tl) { struct priv *p = tl->demuxer->priv; struct tl_root *root = parse_edl(p->data, tl->log); if (!root) { MP_ERR(tl, "Error in EDL.\n"); return; } bool all_dash = true; bool all_no_clip = true; bool all_single = true; for (int n = 0; n < root->num_pars; n++) { struct tl_parts *parts = root->pars[n]; fix_filenames(parts, tl->demuxer->filename); struct timeline_par *par = build_timeline(tl, root, parts); if (!par) break; all_dash &= par->dash; all_no_clip &= par->no_clip; all_single &= par->num_parts == 1; } if (all_dash) { tl->format = "dash"; } else if (all_no_clip && all_single) { tl->format = "multi"; } else { tl->format = "edl"; } talloc_free(root); } static int try_open_file(struct demuxer *demuxer, enum demux_check check) { if (!demuxer->access_references) return -1; struct priv *p = talloc_zero(demuxer, struct priv); demuxer->priv = p; demuxer->fully_read = true; struct stream *s = demuxer->stream; if (s->info && strcmp(s->info->name, "edl") == 0) { p->data = bstr0(s->path); return 0; } if (check >= DEMUX_CHECK_UNSAFE) { char header[sizeof(HEADER) - 1]; int len = stream_read_peek(s, header, sizeof(header)); if (len != strlen(HEADER) || memcmp(header, HEADER, len) != 0) return -1; } p->data = stream_read_complete(s, demuxer, 1000000); if (p->data.start == NULL) return -1; bstr_eatstart0(&p->data, HEADER); demux_close_stream(demuxer); return 0; } const struct demuxer_desc demuxer_desc_edl = { .name = "edl", .desc = "Edit decision list", .open = try_open_file, .load_timeline = build_mpv_edl_timeline, };