X-Git-Url: https://main.carlh.net/gitweb/?p=dcpomatic.git;a=blobdiff_plain;f=src%2Flib%2Fdcp_examiner.cc;h=ffdcad1c144fd0030a70eefc6215497fecc783f2;hp=1e4cc899df96df614fd6a9b1413d3101245247a4;hb=a498b8819ab431ecc2aac058b1aadb9e15d396ac;hpb=3b48d5494c3cae7743d283203f5c8021860ab81f diff --git a/src/lib/dcp_examiner.cc b/src/lib/dcp_examiner.cc index 1e4cc899d..ffdcad1c1 100644 --- a/src/lib/dcp_examiner.cc +++ b/src/lib/dcp_examiner.cc @@ -1,72 +1,135 @@ /* - Copyright (C) 2014 Carl Hetherington + Copyright (C) 2014-2020 Carl Hetherington - This program is free software; you can redistribute it and/or modify + This file is part of DCP-o-matic. + + DCP-o-matic 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. - This program is distributed in the hope that it will be useful, + DCP-o-matic 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 this program; if not, write to the Free Software - Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. + along with DCP-o-matic. If not, see . */ +#include "dcp_examiner.h" +#include "dcp_content.h" +#include "exceptions.h" +#include "image.h" +#include "config.h" +#include "util.h" #include +#include #include #include #include #include -#include +#include +#include #include -#include +#include +#include #include -#include -#include "dcp_examiner.h" -#include "dcp_content.h" -#include "exceptions.h" -#include "image.h" -#include "config.h" +#include +#include +#include +#include +#include +#include +#include +#include +#include #include "i18n.h" using std::list; using std::cout; -using boost::shared_ptr; -using boost::dynamic_pointer_cast; - -DCPExaminer::DCPExaminer (shared_ptr content) - : _video_length (0) - , _audio_length (0) - , _has_subtitles (false) - , _encrypted (false) - , _kdm_valid (false) +using std::runtime_error; +using std::map; +using std::shared_ptr; +using std::string; +using std::dynamic_pointer_cast; +using boost::optional; + + +DCPExaminer::DCPExaminer (shared_ptr content, bool tolerant) + : DCP (content, tolerant) { - dcp::DCP dcp (content->directory ()); - dcp.read (); + shared_ptr cpl; - if (content->kdm ()) { - dcp.add (dcp::DecryptedKDM (content->kdm().get(), Config::instance()->decryption_private_key ())); + for (int i = 0; i < static_cast(TextType::COUNT); ++i) { + _text_count[i] = 0; } - if (dcp.cpls().size() == 0) { + if (content->cpl ()) { + /* Use the CPL that the content was using before */ + for (auto i: cpls()) { + if (i->id() == content->cpl().get()) { + cpl = i; + } + } + } else { + /* Choose the CPL with the fewest unsatisfied references */ + + int least_unsatisfied = INT_MAX; + + for (auto i: cpls()) { + int unsatisfied = 0; + for (auto j: i->reels()) { + if (j->main_picture() && !j->main_picture()->asset_ref().resolved()) { + ++unsatisfied; + } + if (j->main_sound() && !j->main_sound()->asset_ref().resolved()) { + ++unsatisfied; + } + if (j->main_subtitle() && !j->main_subtitle()->asset_ref().resolved()) { + ++unsatisfied; + } + if (j->atmos() && !j->atmos()->asset_ref().resolved()) { + ++unsatisfied; + } + } + + if (unsatisfied < least_unsatisfied) { + least_unsatisfied = unsatisfied; + cpl = i; + } + } + } + + if (!cpl) { throw DCPError ("No CPLs found in DCP"); - } else if (dcp.cpls().size() > 1) { - throw DCPError ("Multiple CPLs found in DCP"); } - _name = dcp.cpls().front()->content_title_text (); + _cpl = cpl->id (); + _name = cpl->content_title_text (); + _content_kind = cpl->content_kind (); + + auto try_to_parse_language = [](optional lang) -> boost::optional { + try { + if (lang) { + return dcp::LanguageTag (*lang); + } + } catch (...) {} + return boost::none; + }; - list > reels = dcp.cpls().front()->reels (); - for (list >::const_iterator i = reels.begin(); i != reels.end(); ++i) { + for (auto i: cpl->reels()) { - if ((*i)->main_picture ()) { - dcp::Fraction const frac = (*i)->main_picture()->frame_rate (); + if (i->main_picture ()) { + if (!i->main_picture()->asset_ref().resolved()) { + /* We are missing this asset so we can't continue; examination will be repeated later */ + _needs_assets = true; + return; + } + + auto const frac = i->main_picture()->edit_rate (); float const fr = float(frac.numerator) / frac.denominator; if (!_video_frame_rate) { _video_frame_rate = fr; @@ -74,63 +137,161 @@ DCPExaminer::DCPExaminer (shared_ptr content) throw DCPError (_("Mismatched frame rates in DCP")); } - shared_ptr mxf = (*i)->main_picture()->mxf (); + _has_video = true; + auto asset = i->main_picture()->asset(); if (!_video_size) { - _video_size = mxf->size (); - } else if (_video_size.get() != mxf->size ()) { + _video_size = asset->size (); + } else if (_video_size.get() != asset->size ()) { throw DCPError (_("Mismatched video sizes in DCP")); } - _video_length += ContentTime::from_frames ((*i)->main_picture()->duration(), _video_frame_rate.get ()); + _video_length += i->main_picture()->actual_duration(); } - - if ((*i)->main_sound ()) { - shared_ptr mxf = (*i)->main_sound()->mxf (); + + if (i->main_sound ()) { + if (!i->main_sound()->asset_ref().resolved()) { + /* We are missing this asset so we can't continue; examination will be repeated later */ + _needs_assets = true; + return; + } + + _has_audio = true; + auto asset = i->main_sound()->asset(); if (!_audio_channels) { - _audio_channels = mxf->channels (); - } else if (_audio_channels.get() != mxf->channels ()) { + _audio_channels = asset->channels (); + } else if (_audio_channels.get() != asset->channels ()) { throw DCPError (_("Mismatched audio channel counts in DCP")); } if (!_audio_frame_rate) { - _audio_frame_rate = mxf->sampling_rate (); - } else if (_audio_frame_rate.get() != mxf->sampling_rate ()) { - throw DCPError (_("Mismatched audio frame rates in DCP")); + _audio_frame_rate = asset->sampling_rate (); + } else if (_audio_frame_rate.get() != asset->sampling_rate ()) { + throw DCPError (_("Mismatched audio sample rates in DCP")); + } + + _audio_length += i->main_sound()->actual_duration(); + _audio_language = try_to_parse_language (asset->language()); + } + + if (i->main_subtitle ()) { + if (!i->main_subtitle()->asset_ref().resolved()) { + /* We are missing this asset so we can't continue; examination will be repeated later */ + _needs_assets = true; + return; + } + + _text_count[static_cast(TextType::OPEN_SUBTITLE)] = 1; + _open_subtitle_language = try_to_parse_language (i->main_subtitle()->language()); + } + + for (auto j: i->closed_captions()) { + if (!j->asset_ref().resolved()) { + /* We are missing this asset so we can't continue; examination will be repeated later */ + _needs_assets = true; + return; } - _audio_length += ContentTime::from_frames ((*i)->main_sound()->duration(), _video_frame_rate.get ()); + _text_count[static_cast(TextType::CLOSED_CAPTION)]++; + _dcp_text_tracks.push_back (DCPTextTrack(j->annotation_text(), try_to_parse_language(j->language()))); + } + + if (i->main_markers ()) { + auto rm = i->main_markers()->get(); + _markers.insert (rm.begin(), rm.end()); + } + + if (i->atmos()) { + _has_atmos = true; + _atmos_length += i->atmos()->actual_duration(); + if (_atmos_edit_rate != dcp::Fraction()) { + DCPOMATIC_ASSERT (i->atmos()->edit_rate() == _atmos_edit_rate); + } + _atmos_edit_rate = i->atmos()->edit_rate(); } - if ((*i)->main_subtitle ()) { - _has_subtitles = true; + if (i->main_picture()) { + _reel_lengths.push_back (i->main_picture()->actual_duration()); + } else if (i->main_sound()) { + _reel_lengths.push_back (i->main_sound()->actual_duration()); + } else if (i->main_subtitle()) { + _reel_lengths.push_back (i->main_subtitle()->actual_duration()); + } else if (!i->closed_captions().empty()) { + _reel_lengths.push_back (i->closed_captions().front()->actual_duration()); + } else if (!i->atmos()) { + _reel_lengths.push_back (i->atmos()->actual_duration()); } } - _encrypted = dcp.encrypted (); + _encrypted = cpl->any_encrypted (); _kdm_valid = true; - - /* Check that we can read the first picture frame */ + + /* Check first that anything encrypted has a key. We must do this, as if we try to + * read encrypted data with asdcplib without even offering a key it will just return + * the encrypted data. Secondly, check that we can read the first thing from each + * asset in each reel. This checks that when we do have a key it's the right one. + */ try { - if (!dcp.cpls().empty () && !dcp.cpls().front()->reels().empty ()) { - shared_ptr mxf = dcp.cpls().front()->reels().front()->main_picture()->mxf (); - shared_ptr mono = dynamic_pointer_cast (mxf); - shared_ptr stereo = dynamic_pointer_cast (mxf); - - shared_ptr image (new Image (PIX_FMT_RGB24, _video_size.get(), false)); - + for (auto i: cpl->reels()) { + auto pic = i->main_picture()->asset(); + if (pic->encrypted() && !pic->key()) { + _kdm_valid = false; + } + auto mono = dynamic_pointer_cast(pic); + auto stereo = dynamic_pointer_cast(pic); + if (mono) { - mono->get_frame(0)->rgb_frame (image->data()[0]); + auto reader = mono->start_read(); + reader->set_check_hmac (false); + reader->get_frame(0)->xyz_image(); } else { - stereo->get_frame(0)->rgb_frame (dcp::EYE_LEFT, image->data()[0]); + auto reader = stereo->start_read(); + reader->set_check_hmac (false); + reader->get_frame(0)->xyz_image(dcp::Eye::LEFT); + } + + if (i->main_sound()) { + auto sound = i->main_sound()->asset (); + if (sound->encrypted() && !sound->key()) { + _kdm_valid = false; + } + auto reader = i->main_sound()->asset()->start_read(); + reader->set_check_hmac (false); + reader->get_frame(0); + } + + if (i->main_subtitle()) { + auto sub = i->main_subtitle()->asset(); + auto mxf_sub = dynamic_pointer_cast(sub); + if (mxf_sub && mxf_sub->encrypted() && !mxf_sub->key()) { + _kdm_valid = false; + } + sub->subtitles (); + } + + if (i->atmos()) { + auto atmos = i->atmos()->asset(); + if (atmos->encrypted() && !atmos->key()) { + _kdm_valid = false; + } + auto reader = atmos->start_read(); + reader->set_check_hmac (false); + reader->get_frame(0); } - } - } catch (dcp::DCPReadError& e) { + } catch (dcp::ReadError& e) { + _kdm_valid = false; + } catch (dcp::MiscError& e) { _kdm_valid = false; - if (_encrypted && content->kdm ()) { - /* XXX: maybe don't use an exception for this */ - throw StringError (_("The KDM does not decrypt the DCP. Perhaps it is targeted at the wrong CPL")); - } } + + _standard = cpl->standard(); + _three_d = !cpl->reels().empty() && cpl->reels().front()->main_picture() && + dynamic_pointer_cast (cpl->reels().front()->main_picture()->asset()); + _ratings = cpl->ratings(); + for (auto i: cpl->content_versions()) { + _content_versions.push_back (i.label_text); + } + + _cpl = cpl->id (); }