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|
/*
*
* $Id: k3bcdparanoialib.cpp 621693 2007-01-09 14:38:25Z trueg $
* Copyright (C) 2003-2007 Sebastian Trueg <trueg@k3b.org>
*
* This file is part of the K3b project.
* Copyright (C) 1998-2007 Sebastian Trueg <trueg@k3b.org>
*
* 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.
* See the file "COPYING" for the exact licensing terms.
*/
#include <config.h>
#include "k3bcdparanoialib.h"
#include <k3bdevice.h>
#include <k3btoc.h>
#include <k3bmsf.h>
#include <kdebug.h>
#include <dlfcn.h>
#include <tqfile.h>
#include <tqmutex.h>
static bool s_haveLibCdio = false;
void* K3bCdparanoiaLib::s_libInterface = 0;
void* K3bCdparanoiaLib::s_libParanoia = 0;
int K3bCdparanoiaLib::s_counter = 0;
#define CDDA_IDENTIFY s_haveLibCdio ? "cdio_cddap_identify" : "cdda_identify"
#define CDDA_CLOSE s_haveLibCdio ? "cdio_cddap_close" : "cdda_close"
#define CDDA_OPEN s_haveLibCdio ? "cdio_cddap_open" : "cdda_open"
#define CDDA_TRACK_FIRSTSECTOR s_haveLibCdio ? "cdio_cddap_track_firstsector" : "cdda_track_firstsector"
#define CDDA_TRACK_LASTSECTOR s_haveLibCdio ? "cdio_cddap_track_lastsector" : "cdda_track_lastsector"
#define CDDA_VERBOSE_SET s_haveLibCdio ? "cdio_cddap_verbose_set" : "cdda_verbose_set"
#define CDDA_DISC_FIRSTSECTOR s_haveLibCdio ? "cdio_cddap_disc_firstsector" : "cdda_disc_firstsector"
#define PARANOIA_INIT s_haveLibCdio ? "cdio_paranoia_init" : "paranoia_init"
#define PARANOIA_FREE s_haveLibCdio ? "cdio_paranoia_free" : "paranoia_free"
#define PARANOIA_MODESET s_haveLibCdio ? "cdio_paranoia_modeset" : "paranoia_modeset"
#define PARANOIA_SEEK s_haveLibCdio ? "cdio_paranoia_seek" : "paranoia_seek"
#define PARANOIA_READ_LIMITED s_haveLibCdio ? "cdio_paranoia_read_limited" : "paranoia_read_limited"
// from cdda_paranoia.h
#define PARANOIA_CB_READ 0
#define PARANOIA_CB_VERIFY 1
#define PARANOIA_CB_FIXUP_EDGE 2
#define PARANOIA_CB_FIXUP_ATOM 3
#define PARANOIA_CB_SCRATCH 4
#define PARANOIA_CB_REPAIR 5
#define PARANOIA_CB_SKIP 6
#define PARANOIA_CB_DRIFT 7
#define PARANOIA_CB_BACKOFF 8
#define PARANOIA_CB_OVERLAP 9
#define PARANOIA_CB_FIXUP_DROPPED 10
#define PARANOIA_CB_FIXUP_DUPED 11
#define PARANOIA_CB_READERR 12
static void paranoiaCallback( long, int status )
{
// do nothing so far....
return;
switch( status ) {
case -1:
break;
case -2:
break;
case PARANOIA_CB_READ:
// no problem
// does only this mean that the sector has been read?
// m_lastReadSector = sector; // this seems to be rather useless
// m_readSectors++;
break;
case PARANOIA_CB_VERIFY:
break;
case PARANOIA_CB_FIXUP_EDGE:
break;
case PARANOIA_CB_FIXUP_ATOM:
break;
case PARANOIA_CB_SCRATCH:
// scratch detected
break;
case PARANOIA_CB_REPAIR:
break;
case PARANOIA_CB_SKIP:
// skipped sector
break;
case PARANOIA_CB_DRIFT:
break;
case PARANOIA_CB_BACKOFF:
break;
case PARANOIA_CB_OVERLAP:
// sector does not seem to contain the current
// sector but the amount of overlapped data
// m_overlap = sector;
break;
case PARANOIA_CB_FIXUP_DROPPED:
break;
case PARANOIA_CB_FIXUP_DUPED:
break;
case PARANOIA_CB_READERR:
break;
}
}
extern "C" {
struct cdrom_drive;
struct cdrom_paranoia;
// HINT: these pointers must NOT have the same name like the actual methods!
// I added "cdda_" as prefix
// Before doing that K3b crashed in cdda_open!
// Can anyone please explain that to me?
// cdda_interface
cdrom_drive* (*cdda_cdda_identify)(const char*, int, char**);
int (*cdda_cdda_open)(cdrom_drive *d);
int (*cdda_cdda_close)(cdrom_drive *d);
long (*cdda_cdda_track_firstsector)( cdrom_drive*, int );
long (*cdda_cdda_track_lastsector)( cdrom_drive*, int );
long (*cdda_cdda_disc_firstsector)(cdrom_drive *d);
void (*cdda_cdda_verbose_set)(cdrom_drive *d,int err_action, int mes_action);
// cdda_paranoia
cdrom_paranoia* (*cdda_paranoia_init)(cdrom_drive*);
void (*cdda_paranoia_free)(cdrom_paranoia *p);
void (*cdda_paranoia_modeset)(cdrom_paranoia *p, int mode);
int16_t* (*cdda_paranoia_read_limited)(cdrom_paranoia *p, void(*callback)(long,int), int);
long (*cdda_paranoia_seek)(cdrom_paranoia *p,long seek,int mode);
}
// from cdda_paranoia.h
#define PARANOIA_MODE_FULL 0xff
#define PARANOIA_MODE_DISABLE 0
#define PARANOIA_MODE_VERIFY 1
#define PARANOIA_MODE_FRAGMENT 2
#define PARANOIA_MODE_OVERLAP 4
#define PARANOIA_MODE_SCRATCH 8
#define PARANOIA_MODE_REPAIR 16
#define PARANOIA_MODE_NEVERSKIP 32
/**
* Internal class used by K3bCdparanoiaLib
*/
class K3bCdparanoiaLibData
{
public:
K3bCdparanoiaLibData( K3bDevice::Device* dev )
: m_device(dev),
m_drive(0),
m_paranoia(0),
m_currentSector(0) {
s_dataMap.insert( dev, this );
}
~K3bCdparanoiaLibData() {
paranoiaFree();
s_dataMap.erase( m_device );
}
K3bDevice::Device* device() const { return m_device; }
void paranoiaModeSet( int );
bool paranoiaInit();
void paranoiaFree();
int16_t* paranoiaRead( void(*callback)(long,int), int maxRetries );
long paranoiaSeek( long, int );
long firstSector( int );
long lastSector( int );
long sector() const { return m_currentSector; }
static K3bCdparanoiaLibData* data( K3bDevice::Device* dev ) {
TQMap<K3bDevice::Device*, K3bCdparanoiaLibData*>::const_iterator it = s_dataMap.tqfind( dev );
if( it == s_dataMap.constEnd() )
return new K3bCdparanoiaLibData( dev );
else
return *it;
}
static void freeAll() {
// clean up all K3bCdparanoiaLibData instances
for( TQMap<K3bDevice::Device*, K3bCdparanoiaLibData*>::iterator it = s_dataMap.begin();
it != s_dataMap.end(); ++it )
delete it.data();
}
private:
//
// We have exactly one instance of K3bCdparanoiaLibData per device
//
static TQMap<K3bDevice::Device*, K3bCdparanoiaLibData*> s_dataMap;
K3bDevice::Device* m_device;
cdrom_drive* m_drive;
cdrom_paranoia* m_paranoia;
long m_currentSector;
TQMutex mutex;
};
TQMap<K3bDevice::Device*, K3bCdparanoiaLibData*> K3bCdparanoiaLibData::s_dataMap;
bool K3bCdparanoiaLibData::paranoiaInit()
{
mutex.lock();
if( m_drive )
paranoiaFree();
// since we use cdparanoia to open the device it is important to close
// the device here
m_device->close();
m_drive = cdda_cdda_identify( TQFile::encodeName(m_device->blockDeviceName()), 0, 0 );
if( m_drive == 0 ) {
mutex.unlock();
return false;
}
// cdda_cdda_verbose_set( m_drive, 1, 1 );
cdda_cdda_open( m_drive );
m_paranoia = cdda_paranoia_init( m_drive );
if( m_paranoia == 0 ) {
mutex.unlock();
paranoiaFree();
return false;
}
m_currentSector = 0;
mutex.unlock();
return true;
}
void K3bCdparanoiaLibData::paranoiaFree()
{
mutex.lock();
if( m_paranoia ) {
cdda_paranoia_free( m_paranoia );
m_paranoia = 0;
}
if( m_drive ) {
cdda_cdda_close( m_drive );
m_drive = 0;
}
mutex.unlock();
}
void K3bCdparanoiaLibData::paranoiaModeSet( int mode )
{
mutex.lock();
cdda_paranoia_modeset( m_paranoia, mode );
mutex.unlock();
}
int16_t* K3bCdparanoiaLibData::paranoiaRead( void(*callback)(long,int), int maxRetries )
{
if( m_paranoia ) {
mutex.lock();
int16_t* data = cdda_paranoia_read_limited( m_paranoia, callback, maxRetries );
if( data )
m_currentSector++;
mutex.unlock();
return data;
}
else
return 0;
}
long K3bCdparanoiaLibData::firstSector( int track )
{
if( m_drive ) {
mutex.lock();
long sector = cdda_cdda_track_firstsector( m_drive, track );
mutex.unlock();
return sector;
}
else
return -1;
}
long K3bCdparanoiaLibData::lastSector( int track )
{
if( m_drive ) {
mutex.lock();
long sector = cdda_cdda_track_lastsector(m_drive, track );
mutex.unlock();
return sector;
}
else
return -1;
}
long K3bCdparanoiaLibData::paranoiaSeek( long sector, int mode )
{
if( m_paranoia ) {
mutex.lock();
m_currentSector = cdda_paranoia_seek( m_paranoia, sector, mode );
mutex.unlock();
return m_currentSector;
}
else
return -1;
}
class K3bCdparanoiaLib::Private
{
public:
Private()
: device(0),
currentSector(0),
startSector(0),
lastSector(0),
status(S_OK),
paranoiaLevel(0),
neverSkip(true),
maxRetries(5),
data(0) {
}
~Private() {
}
void updateParanoiaMode() {
// from cdrdao 1.1.7
int paranoiaMode = PARANOIA_MODE_FULL^PARANOIA_MODE_NEVERSKIP;
switch( paranoiaLevel ) {
case 0:
paranoiaMode = PARANOIA_MODE_DISABLE;
break;
case 1:
paranoiaMode |= PARANOIA_MODE_OVERLAP;
paranoiaMode &= ~PARANOIA_MODE_VERIFY;
break;
case 2:
paranoiaMode &= ~(PARANOIA_MODE_SCRATCH|PARANOIA_MODE_REPAIR);
break;
}
if( neverSkip )
paranoiaMode |= PARANOIA_MODE_NEVERSKIP;
data->paranoiaModeSet( paranoiaMode );
}
// high-level api
K3bDevice::Device* device;
K3bDevice::Toc toc;
long currentSector;
long startSector;
long lastSector;
int status;
unsigned int currentTrack;
int paranoiaLevel;
bool neverSkip;
int maxRetries;
K3bCdparanoiaLibData* data;
};
K3bCdparanoiaLib::K3bCdparanoiaLib()
{
d = new Private();
s_counter++;
}
K3bCdparanoiaLib::~K3bCdparanoiaLib()
{
delete d;
s_counter--;
if( s_counter == 0 ) {
K3bCdparanoiaLibData::freeAll();
// cleanup the dynamically loaded lib
dlclose( s_libInterface );
dlclose( s_libParanoia );
s_libInterface = 0;
s_libParanoia = 0;
}
}
bool K3bCdparanoiaLib::load()
{
cdda_cdda_identify = (cdrom_drive* (*) (const char*, int, char**))dlsym( s_libInterface, CDDA_IDENTIFY );
cdda_cdda_open = (int (*) (cdrom_drive*))dlsym( s_libInterface, CDDA_OPEN );
cdda_cdda_close = (int (*) (cdrom_drive*))dlsym( s_libInterface, CDDA_CLOSE );
cdda_cdda_track_firstsector = (long (*)(cdrom_drive*, int))dlsym( s_libInterface, CDDA_TRACK_FIRSTSECTOR );
cdda_cdda_track_lastsector = (long (*)(cdrom_drive*, int))dlsym( s_libInterface, CDDA_TRACK_LASTSECTOR );
cdda_cdda_verbose_set = (void (*)(cdrom_drive *d,int err_action, int mes_action))dlsym( s_libInterface, CDDA_VERBOSE_SET );
cdda_cdda_disc_firstsector = (long (*)(cdrom_drive *d))dlsym( s_libInterface, CDDA_DISC_FIRSTSECTOR );
cdda_paranoia_init = (cdrom_paranoia* (*)(cdrom_drive*))dlsym( s_libParanoia, PARANOIA_INIT );
cdda_paranoia_free = (void (*)(cdrom_paranoia *p))dlsym( s_libParanoia, PARANOIA_FREE );
cdda_paranoia_modeset = (void (*)(cdrom_paranoia *p, int mode))dlsym( s_libParanoia, PARANOIA_MODESET );
cdda_paranoia_read_limited = (int16_t* (*)(cdrom_paranoia *p, void(*callback)(long,int), int))dlsym( s_libParanoia, PARANOIA_READ_LIMITED );
cdda_paranoia_seek = (long (*)(cdrom_paranoia *p,long seek,int mode))dlsym( s_libParanoia, PARANOIA_SEEK );
// check if all symbols could be resoled
if( cdda_cdda_identify == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_identify'" << endl;
return false;
}
if( cdda_cdda_open == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_open'" << endl;
return false;
}
if( cdda_cdda_close == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_close'" << endl;
return false;
}
if( cdda_cdda_track_firstsector == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_track_firstsector'" << endl;
return false;
}
if( cdda_cdda_track_lastsector == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_track_lastsector'" << endl;
return false;
}
if( cdda_cdda_disc_firstsector == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_disc_firstsector'" << endl;
return false;
}
if( cdda_cdda_verbose_set == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'cdda_verbose_set'" << endl;
return false;
}
if( cdda_paranoia_init == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'paranoia_init'" << endl;
return false;
}
if( cdda_paranoia_free == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'paranoia_free'" << endl;
return false;
}
if( cdda_paranoia_modeset == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'paranoia_modeset'" << endl;
return false;
}
if( cdda_paranoia_read_limited == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'paranoia_read_limited'" << endl;
return false;
}
if( cdda_paranoia_seek == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve 'paranoia_seek'" << endl;
return false;
}
return true;
}
K3bCdparanoiaLib* K3bCdparanoiaLib::create()
{
// check if libcdda_interface is avalilable
if( s_libInterface == 0 ) {
s_haveLibCdio = false;
s_libInterface = dlopen( "libcdda_interface.so.0", RTLD_NOW|RTLD_GLOBAL );
// try the redhat & Co. location
if( s_libInterface == 0 )
s_libInterface = dlopen( "cdda/libcdda_interface.so.0", RTLD_NOW|RTLD_GLOBAL );
// try the new cdio lib
if( s_libInterface == 0 ) {
s_libInterface = dlopen( "libcdio_cdda.so", RTLD_NOW|RTLD_GLOBAL );
s_haveLibCdio = true;
}
if( s_libInterface == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error while loading libcdda_interface. " << endl;
return 0;
}
s_libParanoia = dlopen( "libcdda_paranoia.so.0", RTLD_NOW );
// try the redhat & Co. location
if( s_libParanoia == 0 )
s_libParanoia = dlopen( "cdda/libcdda_paranoia.so.0", RTLD_NOW );
// try the new cdio lib
if( s_haveLibCdio && s_libParanoia == 0 )
s_libParanoia = dlopen( "libcdio_paranoia.so.0", RTLD_NOW );
if( s_libParanoia == 0 ) {
kdDebug() << "(K3bCdparanoiaLib) Error while loading libcdda_paranoia. " << endl;
dlclose( s_libInterface );
s_libInterface = 0;
return 0;
}
}
K3bCdparanoiaLib* lib = new K3bCdparanoiaLib();
if( !lib->load() ) {
kdDebug() << "(K3bCdparanoiaLib) Error: could not resolve all symbols!" << endl;
delete lib;
return 0;
}
return lib;
}
bool K3bCdparanoiaLib::initParanoia( K3bDevice::Device* dev, const K3bDevice::Toc& toc )
{
if( !dev ) {
kdError() << "(K3bCdparanoiaLib::initParanoia) dev = 0!" << endl;
return false;
}
close();
d->device = dev;
d->toc = toc;
if( d->toc.isEmpty() ) {
kdDebug() << "(K3bCdparanoiaLib) empty toc." << endl;
cleanup();
return false;
}
if( d->toc.contentType() == K3bDevice::DATA ) {
kdDebug() << "(K3bCdparanoiaLib) No audio tracks found." << endl;
cleanup();
return false;
}
//
// Get the appropriate data instance for this device
//
d->data = K3bCdparanoiaLibData::data( dev );
if( d->data->paranoiaInit() ) {
d->startSector = d->currentSector = d->lastSector = 0;
return true;
}
else {
cleanup();
return false;
}
}
bool K3bCdparanoiaLib::initParanoia( K3bDevice::Device* dev )
{
return initParanoia( dev, dev->readToc() );
}
void K3bCdparanoiaLib::close()
{
cleanup();
}
void K3bCdparanoiaLib::cleanup()
{
if( d->data )
d->data->paranoiaFree();
d->device = 0;
d->currentSector = 0;
}
bool K3bCdparanoiaLib::initReading()
{
if( d->device ) {
// find first audio track
K3bDevice::Toc::const_iterator trackIt = d->toc.begin();
while( (*trackIt).type() != K3bDevice::Track::AUDIO ) {
++trackIt;
}
long start = (*trackIt).firstSector().lba();
// find last audio track
while( trackIt != d->toc.end() && (*trackIt).type() == K3bDevice::Track::AUDIO )
++trackIt;
--trackIt;
long end = (*trackIt).lastSector().lba();
return initReading( start, end );
}
else {
kdDebug() << "(K3bCdparanoiaLib) initReading without initParanoia." << endl;
return false;
}
}
bool K3bCdparanoiaLib::initReading( unsigned int track )
{
if( d->device ) {
if( track <= d->toc.count() ) {
const K3bDevice::Track& k3bTrack = d->toc[track-1];
if( k3bTrack.type() == K3bDevice::Track::AUDIO ) {
return initReading( k3bTrack.firstSector().lba(), k3bTrack.lastSector().lba() );
}
else {
kdDebug() << "(K3bCdparanoiaLib) Track " << track << " no audio track." << endl;
return false;
}
}
else {
kdDebug() << "(K3bCdparanoiaLib) Track " << track << " too high." << endl;
return false;
}
}
else {
kdDebug() << "(K3bCdparanoiaLib) initReading without initParanoia." << endl;
return false;
}
}
bool K3bCdparanoiaLib::initReading( long start, long end )
{
kdDebug() << "(K3bCdparanoiaLib) initReading( " << start << ", " << end << " )" << endl;
if( d->device ) {
if( d->toc.firstSector().lba() <= start &&
d->toc.lastSector().lba() >= end ) {
d->startSector = d->currentSector = start;
d->lastSector = end;
// determine track number
d->currentTrack = 1;
while( d->toc[d->currentTrack-1].lastSector() < start )
d->currentTrack++;
// let the paranoia stuff point to the startSector
d->data->paranoiaSeek( start, SEEK_SET );
return true;
}
else {
kdDebug() << "(K3bCdparanoiaLib) " << start << " and " << end << " out of range." << endl;
return false;
}
}
else {
kdDebug() << "(K3bCdparanoiaLib) initReading without initParanoia." << endl;
return false;
}
}
char* K3bCdparanoiaLib::read( int* statusCode, unsigned int* track, bool littleEndian )
{
if( d->currentSector > d->lastSector ) {
kdDebug() << "(K3bCdparanoiaLib) finished ripping. read "
<< (d->currentSector - d->startSector) << " sectors." << endl
<< " current sector: " << d->currentSector << endl;
d->status = S_OK;
if( statusCode )
*statusCode = d->status;
return 0;
}
if( d->currentSector != d->data->sector() ) {
kdDebug() << "(K3bCdparanoiaLib) need to seek before read. Looks as if we are reusing the paranoia instance." << endl;
if( !d->data->paranoiaSeek( d->currentSector, SEEK_SET ) )
return 0;
}
//
// The paranoia data could have been used by someone else before
// and setting the paranoia mode is fast
//
d->updateParanoiaMode();
TQ_INT16* data = d->data->paranoiaRead( paranoiaCallback, d->maxRetries );
char* charData = reinterpret_cast<char*>(data);
#ifdef WORDS_BIGENDIAN // __BYTE_ORDER == __BIG_ENDIAN
if( littleEndian ) {
#else
if( !littleEndian ) {
#endif
for( int i = 0; i < CD_FRAMESIZE_RAW-1; i+=2 ) {
char b = charData[i];
charData[i] = charData[i+1];
charData[i+1] = b;
}
}
if( data )
d->status = S_OK;
else
d->status = S_ERROR; // We may skip this sector if we'd like...
if( statusCode )
*statusCode = d->status;
if( track )
*track = d->currentTrack;
d->currentSector++;
if( d->toc[d->currentTrack-1].lastSector() < d->currentSector )
d->currentTrack++;
return charData;
}
int K3bCdparanoiaLib::status() const
{
return d->status;
}
const K3bDevice::Toc& K3bCdparanoiaLib::toc() const
{
return d->toc;
}
long K3bCdparanoiaLib::rippedDataLength() const
{
return d->lastSector - d->startSector + 1;
}
void K3bCdparanoiaLib::setParanoiaMode( int m )
{
d->paranoiaLevel = m;
}
void K3bCdparanoiaLib::setNeverSkip( bool b )
{
d->neverSkip = b;
}
void K3bCdparanoiaLib::setMaxRetries( int r )
{
d->maxRetries = r;
}
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