/* Copyright (C) 2012-2015 Carl Hetherington This file is part of libdcp. libdcp is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. libdcp 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 General Public License for more details. You should have received a copy of the GNU General Public License along with libdcp. If not, see . In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library under certain conditions as described in each individual source file, and distribute linked combinations including the two. You must obey the GNU General Public License in all respects for all of the code used other than OpenSSL. If you modify file(s) with this exception, you may extend this exception to your version of the file(s), but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. If you delete this exception statement from all source files in the program, then also delete it here. */ /** @file src/dcp.cc * @brief DCP class. */ #include "raw_convert.h" #include "dcp.h" #include "sound_asset.h" #include "atmos_asset.h" #include "picture_asset.h" #include "interop_subtitle_asset.h" #include "smpte_subtitle_asset.h" #include "mono_picture_asset.h" #include "stereo_picture_asset.h" #include "reel_subtitle_asset.h" #include "util.h" #include "metadata.h" #include "exceptions.h" #include "cpl.h" #include "certificate_chain.h" #include "compose.hpp" #include "decrypted_kdm.h" #include "decrypted_kdm_key.h" #include "dcp_assert.h" #include "reel_asset.h" #include "font_asset.h" #include "pkl.h" #include "asset_factory.h" #include #include #include #include #include #include #include using std::string; using std::list; using std::vector; using std::cout; using std::make_pair; using std::map; using std::cerr; using std::exception; using boost::shared_ptr; using boost::dynamic_pointer_cast; using boost::optional; using boost::algorithm::starts_with; using namespace dcp; static string const assetmap_interop_ns = "http://www.digicine.com/PROTO-ASDCP-AM-20040311#"; static string const assetmap_smpte_ns = "http://www.smpte-ra.org/schemas/429-9/2007/AM"; static string const volindex_interop_ns = "http://www.digicine.com/PROTO-ASDCP-VL-20040311#"; static string const volindex_smpte_ns = "http://www.smpte-ra.org/schemas/429-9/2007/AM"; DCP::DCP (boost::filesystem::path directory) : _directory (directory) { if (!boost::filesystem::exists (directory)) { boost::filesystem::create_directories (directory); } _directory = boost::filesystem::canonical (_directory); } /** Call this instead of throwing an exception if the error can be tolerated */ template void survivable_error (bool keep_going, dcp::DCP::ReadErrors* errors, T const & e) { if (keep_going) { if (errors) { errors->push_back (shared_ptr (new T (e))); } } else { throw e; } } static string remove_parameters (string const& n) { return n.substr(0, n.find(";")); } void DCP::read (bool keep_going, ReadErrors* errors, bool ignore_incorrect_picture_mxf_type) { /* Read the ASSETMAP and PKL */ boost::filesystem::path asset_map_file; if (boost::filesystem::exists (_directory / "ASSETMAP")) { asset_map_file = _directory / "ASSETMAP"; } else if (boost::filesystem::exists (_directory / "ASSETMAP.xml")) { asset_map_file = _directory / "ASSETMAP.xml"; } else { boost::throw_exception (DCPReadError (String::compose ("could not find AssetMap file in `%1'", _directory.string()))); } cxml::Document asset_map ("AssetMap"); asset_map.read_file (asset_map_file); if (asset_map.namespace_uri() == assetmap_interop_ns) { _standard = INTEROP; } else if (asset_map.namespace_uri() == assetmap_smpte_ns) { _standard = SMPTE; } else { boost::throw_exception (XMLError ("Unrecognised Assetmap namespace " + asset_map.namespace_uri())); } list > asset_nodes = asset_map.node_child("AssetList")->node_children ("Asset"); map paths; list pkl_paths; BOOST_FOREACH (shared_ptr i, asset_nodes) { if (i->node_child("ChunkList")->node_children("Chunk").size() != 1) { boost::throw_exception (XMLError ("unsupported asset chunk count")); } string p = i->node_child("ChunkList")->node_child("Chunk")->string_child ("Path"); if (starts_with (p, "file://")) { p = p.substr (7); } switch (*_standard) { case INTEROP: if (i->optional_node_child("PackingList")) { pkl_paths.push_back (p); } else { paths.insert (make_pair (remove_urn_uuid (i->string_child ("Id")), p)); } break; case SMPTE: { optional pkl_bool = i->optional_string_child("PackingList"); if (pkl_bool && *pkl_bool == "true") { pkl_paths.push_back (p); } else { paths.insert (make_pair (remove_urn_uuid (i->string_child ("Id")), p)); } break; } } } if (pkl_paths.empty()) { boost::throw_exception (XMLError ("No packing lists found in asset map")); } BOOST_FOREACH (boost::filesystem::path i, pkl_paths) { _pkls.push_back (shared_ptr(new PKL(_directory / i))); } /* Now we have: paths - files in the DCP that are not PKLs. _pkls - PKL objects for each PKL. Read all the assets from the asset map. */ /* Make a list of non-CPL/PKL assets so that we can resolve the references from the CPLs. */ list > other_assets; for (map::const_iterator i = paths.begin(); i != paths.end(); ++i) { boost::filesystem::path path = _directory / i->second; if (i->second.empty()) { /* I can't see how this is valid, but it's been seen in the wild with a DCP that claims to come from ClipsterDCI 5.10.0.5. */ survivable_error (keep_going, errors, EmptyAssetPathError(i->first)); continue; } if (!boost::filesystem::exists(path)) { survivable_error (keep_going, errors, MissingAssetError (path)); continue; } /* Find the for this asset from the PKL that contains the asset */ optional pkl_type; BOOST_FOREACH (shared_ptr j, _pkls) { pkl_type = j->type(i->first); if (pkl_type) { break; } } if (!pkl_type) { /* This asset is in the ASSETMAP but not mentioned in any PKL so we don't * need to worry about it. */ continue; } /* Remove any optional parameters (after ;) */ pkl_type = pkl_type->substr(0, pkl_type->find(";")); if ( pkl_type == remove_parameters(CPL::static_pkl_type(*_standard)) || pkl_type == remove_parameters(InteropSubtitleAsset::static_pkl_type(*_standard))) { xmlpp::DomParser* p = new xmlpp::DomParser; try { p->parse_file (path.string()); } catch (std::exception& e) { delete p; throw DCPReadError(String::compose("XML error in %1", path.string()), e.what()); } string const root = p->get_document()->get_root_node()->get_name (); delete p; if (root == "CompositionPlaylist") { shared_ptr cpl (new CPL (path)); if (_standard && cpl->standard() && cpl->standard().get() != _standard.get()) { survivable_error (keep_going, errors, MismatchedStandardError ()); } _cpls.push_back (cpl); } else if (root == "DCSubtitle") { if (_standard && _standard.get() == SMPTE) { survivable_error (keep_going, errors, MismatchedStandardError ()); } other_assets.push_back (shared_ptr (new InteropSubtitleAsset (path))); } } else if ( *pkl_type == remove_parameters(PictureAsset::static_pkl_type(*_standard)) || *pkl_type == remove_parameters(SoundAsset::static_pkl_type(*_standard)) || *pkl_type == remove_parameters(AtmosAsset::static_pkl_type(*_standard)) || *pkl_type == remove_parameters(SMPTESubtitleAsset::static_pkl_type(*_standard)) ) { other_assets.push_back (asset_factory(path, ignore_incorrect_picture_mxf_type)); } else if (*pkl_type == remove_parameters(FontAsset::static_pkl_type(*_standard))) { other_assets.push_back (shared_ptr (new FontAsset (i->first, path))); } else if (*pkl_type == "image/png") { /* It's an Interop PNG subtitle; let it go */ } else { throw DCPReadError (String::compose("Unknown asset type %1 in PKL", *pkl_type)); } } BOOST_FOREACH (shared_ptr i, cpls ()) { i->resolve_refs (other_assets); } } void DCP::resolve_refs (list > assets) { BOOST_FOREACH (shared_ptr i, cpls ()) { i->resolve_refs (assets); } } bool DCP::equals (DCP const & other, EqualityOptions opt, NoteHandler note) const { list > a = cpls (); list > b = other.cpls (); if (a.size() != b.size()) { note (DCP_ERROR, String::compose ("CPL counts differ: %1 vs %2", a.size(), b.size())); return false; } bool r = true; BOOST_FOREACH (shared_ptr i, a) { list >::const_iterator j = b.begin (); while (j != b.end() && !(*j)->equals (i, opt, note)) { ++j; } if (j == b.end ()) { r = false; } } return r; } void DCP::add (boost::shared_ptr cpl) { _cpls.push_back (cpl); } bool DCP::encrypted () const { BOOST_FOREACH (shared_ptr i, cpls ()) { if (i->encrypted ()) { return true; } } return false; } /** Add a KDM to decrypt this DCP. This method must be called after DCP::read() * or the KDM you specify will be ignored. * @param kdm KDM to use. */ void DCP::add (DecryptedKDM const & kdm) { list keys = kdm.keys (); BOOST_FOREACH (shared_ptr i, cpls ()) { BOOST_FOREACH (DecryptedKDMKey const & j, kdm.keys ()) { if (j.cpl_id() == i->id()) { i->add (kdm); } } } } /** Write the VOLINDEX file. * @param standard DCP standard to use (INTEROP or SMPTE) */ void DCP::write_volindex (Standard standard) const { boost::filesystem::path p = _directory; switch (standard) { case INTEROP: p /= "VOLINDEX"; break; case SMPTE: p /= "VOLINDEX.xml"; break; default: DCP_ASSERT (false); } xmlpp::Document doc; xmlpp::Element* root; switch (standard) { case INTEROP: root = doc.create_root_node ("VolumeIndex", volindex_interop_ns); break; case SMPTE: root = doc.create_root_node ("VolumeIndex", volindex_smpte_ns); break; default: DCP_ASSERT (false); } root->add_child("Index")->add_child_text ("1"); doc.write_to_file_formatted (p.string (), "UTF-8"); } void DCP::write_assetmap (Standard standard, string pkl_uuid, boost::filesystem::path pkl_path, XMLMetadata metadata) const { boost::filesystem::path p = _directory; switch (standard) { case INTEROP: p /= "ASSETMAP"; break; case SMPTE: p /= "ASSETMAP.xml"; break; default: DCP_ASSERT (false); } xmlpp::Document doc; xmlpp::Element* root; switch (standard) { case INTEROP: root = doc.create_root_node ("AssetMap", assetmap_interop_ns); break; case SMPTE: root = doc.create_root_node ("AssetMap", assetmap_smpte_ns); break; default: DCP_ASSERT (false); } root->add_child("Id")->add_child_text ("urn:uuid:" + make_uuid()); root->add_child("AnnotationText")->add_child_text (metadata.annotation_text); switch (standard) { case INTEROP: root->add_child("VolumeCount")->add_child_text ("1"); root->add_child("IssueDate")->add_child_text (metadata.issue_date); root->add_child("Issuer")->add_child_text (metadata.issuer); root->add_child("Creator")->add_child_text (metadata.creator); break; case SMPTE: root->add_child("Creator")->add_child_text (metadata.creator); root->add_child("VolumeCount")->add_child_text ("1"); root->add_child("IssueDate")->add_child_text (metadata.issue_date); root->add_child("Issuer")->add_child_text (metadata.issuer); break; default: DCP_ASSERT (false); } xmlpp::Node* asset_list = root->add_child ("AssetList"); xmlpp::Node* asset = asset_list->add_child ("Asset"); asset->add_child("Id")->add_child_text ("urn:uuid:" + pkl_uuid); asset->add_child("PackingList")->add_child_text ("true"); xmlpp::Node* chunk_list = asset->add_child ("ChunkList"); xmlpp::Node* chunk = chunk_list->add_child ("Chunk"); chunk->add_child("Path")->add_child_text (pkl_path.filename().string()); chunk->add_child("VolumeIndex")->add_child_text ("1"); chunk->add_child("Offset")->add_child_text ("0"); chunk->add_child("Length")->add_child_text (raw_convert (boost::filesystem::file_size (pkl_path))); BOOST_FOREACH (shared_ptr i, assets ()) { i->write_to_assetmap (asset_list, _directory); } doc.write_to_file_formatted (p.string (), "UTF-8"); } /** Write all the XML files for this DCP. * @param standand INTEROP or SMPTE. * @param metadata Metadata to use for PKL and asset map files. * @param signer Signer to use, or 0. */ void DCP::write_xml ( Standard standard, XMLMetadata metadata, shared_ptr signer, NameFormat name_format ) { BOOST_FOREACH (shared_ptr i, cpls ()) { NameFormat::Map values; values['t'] = "cpl"; i->write_xml (_directory / (name_format.get(values, "_" + i->id() + ".xml")), standard, signer); } shared_ptr pkl; if (_pkls.empty()) { pkl.reset (new PKL (standard, metadata.annotation_text, metadata.issue_date, metadata.issuer, metadata.creator)); _pkls.push_back (pkl); BOOST_FOREACH (shared_ptr i, assets ()) { i->add_to_pkl (pkl, _directory); } } else { pkl = _pkls.front (); } NameFormat::Map values; values['t'] = "pkl"; boost::filesystem::path pkl_path = _directory / name_format.get(values, "_" + pkl->id() + ".xml"); pkl->write (pkl_path, signer); write_volindex (standard); write_assetmap (standard, pkl->id(), pkl_path, metadata); } list > DCP::cpls () const { return _cpls; } /** @param ignore_unresolved true to silently ignore unresolved assets, otherwise * an exception is thrown if they are found. * @return All assets (including CPLs). */ list > DCP::assets (bool ignore_unresolved) const { list > assets; BOOST_FOREACH (shared_ptr i, cpls ()) { assets.push_back (i); BOOST_FOREACH (shared_ptr j, i->reel_assets ()) { if (ignore_unresolved && !j->asset_ref().resolved()) { continue; } shared_ptr o = j->asset_ref().asset (); assets.push_back (o); /* More Interop special-casing */ shared_ptr sub = dynamic_pointer_cast (o); if (sub) { sub->add_font_assets (assets); } } } return assets; } /** Given a list of files that make up 1 or more DCPs, return the DCP directories */ vector DCP::directories_from_files (vector files) { vector d; BOOST_FOREACH (boost::filesystem::path i, files) { if (i.filename() == "ASSETMAP" || i.filename() == "ASSETMAP.xml") { d.push_back (i.parent_path ()); } } return d; }