/*************************************************************************** * Copyright (C) 2009 by Ilya Kotov * * forkotov02@hotmail.ru * * * * This program 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, * * 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., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #define CDDA_SECTORS 8 #include "decoder_cdaudio.h" static void log_handler (cdio_log_level_t level, const char message[]) { QString str = QString::fromLocal8Bit(message).trimmed(); switch (level) { case CDIO_LOG_DEBUG: qDebug("DecoderCDAudio: cdio message: %s (level=debug)", qPrintable(str)); case CDIO_LOG_INFO: qDebug("DecoderCDAudio: cdio message: %s (level=info)", qPrintable(str)); return; default: qWarning("DecoderCDAudio: cdio message: %s (level=error)", qPrintable(str)); } } // Decoder class DecoderCDAudio::DecoderCDAudio(const QString &url) : Decoder() { m_bitrate = 0; m_totalTime = 0; m_first_sector = -1; m_last_sector = -1; m_current_sector = -1; m_url = url; m_cdio = 0; } DecoderCDAudio::~DecoderCDAudio() { m_bitrate = 0; if (m_cdio) { cdio_destroy(m_cdio); m_cdio = 0; } } QList DecoderCDAudio::generateTrackList(const QString &device) { //read settings QSettings settings(Qmmp::configFile(), QSettings::IniFormat); int cd_speed = settings.value("cdaudio/speed", 0).toInt(); bool use_cd_text = settings.value("cdaudio/cdtext", TRUE).toBool(); QList tracks; cdio_log_set_handler(log_handler); //setup cdio log handler CdIo_t *cdio = 0; QString device_path = device; if (device_path.isEmpty() || device_path == "/") device_path = settings.value("device").toString(); if (device_path.isEmpty() || device_path == "/") { char **cd_drives = cdio_get_devices_with_cap(0, CDIO_FS_AUDIO, TRUE); //get drive list with CDA disks // open first audio capable cd drive if (cd_drives && *cd_drives) { cdio = cdio_open_cd(*cd_drives); if (!cdio) { qWarning("DecoderCDAudio: failed to open CD."); cdio_free_device_list(cd_drives); return tracks; } qDebug("DecoderCDAudio: found cd audio capable drive \"%s\"", *cd_drives); } else { qWarning("DecoderCDAudio: unable to find cd audio drive."); cdio_free_device_list(cd_drives); return tracks; } device_path = QString(*cd_drives); if (cd_drives && *cd_drives) //free device list cdio_free_device_list(cd_drives); } else { cdio = cdio_open_cd(device_path.toAscii().constData()); if (!cdio) { qWarning("DecoderCDAudio: failed to open CD."); return tracks; } qDebug("DecoderCDAudio: using cd audio capable drive \"%s\"", qPrintable(device_path)); } if (cd_speed) { qDebug("DecoderCDAudio: setting drive speed to %dX.", cd_speed); if (cdio_set_speed(cdio, 1) != DRIVER_OP_SUCCESS) qWarning("DecoderCDAudio: unable to set drive speed to %dX.", cd_speed); } cdrom_drive_t *pcdrom_drive = cdio_cddap_identify_cdio(cdio, 1, 0); //create paranoya CD-ROM object //get first and last track numbers int first_track_number = cdio_get_first_track_num(pcdrom_drive->p_cdio); int last_track_number = cdio_get_last_track_num(pcdrom_drive->p_cdio); if ((first_track_number == CDIO_INVALID_TRACK) || (last_track_number == CDIO_INVALID_TRACK)) { qWarning("DecoderCDAudio: invalid first (last) track number."); cdio_destroy(cdio); cdio = 0; return tracks; } //fill track list for (int i = first_track_number; i <= last_track_number; ++i) { CDATrack t; t.first_sector = cdio_get_track_lsn(pcdrom_drive->p_cdio, i); t.last_sector = cdio_get_track_last_lsn(pcdrom_drive->p_cdio, i); t.info.setLength((t.last_sector - t.first_sector +1) / 75); t.info.setMetaData(Qmmp::TRACK, i); t.info.setPath(QString("cdda://%1#%2").arg(device_path).arg(i)); if ((t.first_sector == CDIO_INVALID_LSN) || (t.last_sector== CDIO_INVALID_LSN)) { qWarning("DecoderCDAudio: invalid stard(end) lsn for the track %d.", i); tracks.clear(); cdio_destroy(cdio); cdio = 0; return tracks; } //cd text cdtext_t *cdtext = use_cd_text ? cdio_get_cdtext(pcdrom_drive->p_cdio, i) : 0; if (cdtext && cdtext->field[CDTEXT_TITLE]) { t.info.setMetaData(Qmmp::TITLE, QString::fromLocal8Bit(cdtext->field[CDTEXT_TITLE])); t.info.setMetaData(Qmmp::ARTIST, QString::fromLocal8Bit(cdtext->field[CDTEXT_PERFORMER])); t.info.setMetaData(Qmmp::GENRE, QString::fromLocal8Bit(cdtext->field[CDTEXT_GENRE])); } else t.info.setMetaData(Qmmp::TITLE, QString("CDA Track %1").arg(i, 2, 10, QChar('0'))); tracks << t; } qDebug("DecoderCDAudio: found %d audio tracks", tracks.size()); cdio_destroy(cdio); cdio = 0; return tracks; } qint64 DecoderCDAudio::calculateTrackLength(lsn_t startlsn, lsn_t endlsn) { return ((endlsn - startlsn + 1) * 1000) / 75; } bool DecoderCDAudio::initialize() { m_bitrate = 0; m_totalTime = 0; //extract track from url int track_number = m_url.section("#", -1).toInt(); track_number = qMax(track_number, 1); QList tracks = DecoderCDAudio::generateTrackList(QUrl(m_url).path()); //generate track list if (tracks.isEmpty()) { qWarning("DecoderCDAudio: initialize failed"); return FALSE; } //find track by number int track_at = -1; for (int i = 0; i < tracks.size(); ++i) if (tracks[i].info.metaData(Qmmp::TRACK).toInt() == track_number) { track_at = i; break; } if (track_at < 0) { qWarning("DecoderCDAudio: invalid track number"); return FALSE; } if (QUrl(m_url).path().isEmpty() || QUrl(m_url).path() == "/") //try default path from config { QSettings settings(Qmmp::configFile(), QSettings::IniFormat); m_url = QString("cdda://%1#%2").arg(settings.value("device").toString()).arg(track_number); } if (QUrl(m_url).path() == "/") { char **cd_drives = cdio_get_devices_with_cap(0, CDIO_FS_AUDIO, TRUE); //get drive list with CDA disks // open first audio capable cd drive if (cd_drives && *cd_drives) { m_cdio = cdio_open_cd(*cd_drives); if (!m_cdio) { qWarning("DecoderCDAudio: failed to open CD."); cdio_free_device_list(cd_drives); return FALSE; } qDebug("DecoderCDAudio: found cd audio capable drive \"%s\"", *cd_drives); } else { qWarning("DecoderCDAudio: unable to find cd audio drive."); return FALSE; } if (cd_drives && *cd_drives) //free device list cdio_free_device_list(cd_drives); } else { m_cdio = cdio_open_cd(QUrl(m_url).path().toAscii().constData()); if (!m_cdio) { qWarning("DecoderCDAudio: failed to open CD."); return FALSE; } qDebug("DecoderCDAudio: using cd audio capable drive \"%s\"", QUrl(m_url).path().toAscii().constData()); } configure(44100, 2, Qmmp::PCM_S16LE); m_bitrate = 1411; m_totalTime = tracks[track_at].info.length() * 1000; m_first_sector = tracks[track_at].first_sector; m_current_sector = tracks[track_at].first_sector; m_last_sector = tracks[track_at].last_sector; StateHandler::instance()->dispatch(tracks[track_at].info.metaData()); //send metadata qDebug("DecoderCDAudio: initialize succes"); return TRUE; } qint64 DecoderCDAudio::totalTime() { return m_totalTime; } int DecoderCDAudio::bitrate() { return m_bitrate; } qint64 DecoderCDAudio::read(char *audio, qint64 maxSize) { long len = 0; lsn_t secorts_to_read = qMin(CDDA_SECTORS, (m_last_sector - m_current_sector + 1)); if(secorts_to_read * CDIO_CD_FRAMESIZE_RAW > maxSize) { qWarning("DecoderCDAudio: buffer is too small"); return 0; } if (secorts_to_read <= 0) len = 0; else { if (cdio_read_audio_sectors(m_cdio, audio, m_current_sector, secorts_to_read) != DRIVER_OP_SUCCESS) len = -1; else { len = secorts_to_read * CDIO_CD_FRAMESIZE_RAW; m_current_sector += secorts_to_read; } } return len; } void DecoderCDAudio::seek(qint64 pos) { m_current_sector = m_first_sector + pos * 75 / 1000; }