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/* Cabal - Legacy Game Implementations
*
* Cabal is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "backends/audiocd/win32/win32-audiocd.h"
#include "audio/audiostream.h"
#include "backends/audiocd/default/default-audiocd.h"
#include "common/array.h"
#include "common/config-manager.h"
#include "common/debug.h"
#include "common/mutex.h"
#include "common/queue.h"
#include "common/str.h"
#include "common/timer.h"
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#ifdef _MSC_VER
#include <winioctl.h>
#include <ntddcdrm.h>
#else
#include <ddk/ntddcdrm.h>
#endif
enum {
kLeadoutTrack = 0xAA
};
enum {
kBytesPerFrame = 2352,
kSamplesPerFrame = kBytesPerFrame / 2
};
enum {
kSecondsPerMinute = 60,
kFramesPerSecond = 75
};
enum {
// The CD-ROM pre-gap is 2s
kPreGapFrames = kFramesPerSecond * 2
};
enum {
// Keep about a second's worth of audio in the buffer
kBufferThreshold = kFramesPerSecond
};
static int getFrameCount(const TRACK_DATA &data) {
int time = data.Address[1];
time *= kSecondsPerMinute;
time += data.Address[2];
time *= kFramesPerSecond;
time += data.Address[3];
return time;
}
class Win32AudioCDStream : public Audio::SeekableAudioStream {
public:
Win32AudioCDStream(HANDLE handle, const TRACK_DATA &startEntry, const TRACK_DATA &endEntry);
~Win32AudioCDStream();
int readBuffer(int16 *buffer, const int numSamples);
bool isStereo() const { return true; }
int getRate() const { return 44100; }
bool endOfData() const;
bool seek(const Audio::Timestamp &where);
Audio::Timestamp getLength() const;
private:
HANDLE _driveHandle;
const TRACK_DATA &_startEntry, &_endEntry;
int16 _buffer[kSamplesPerFrame];
int _frame;
uint _bufferPos;
Common::Queue<int16 *> _bufferQueue;
int _bufferFrame;
Common::Mutex _mutex;
bool readNextFrame();
static void timerProc(void *refCon);
void onTimer();
void emptyQueue();
void startTimer();
void stopTimer();
};
Win32AudioCDStream::Win32AudioCDStream(HANDLE handle, const TRACK_DATA &startEntry, const TRACK_DATA &endEntry) :
_driveHandle(handle), _startEntry(startEntry), _endEntry(endEntry), _buffer(), _frame(0), _bufferPos(kSamplesPerFrame), _bufferFrame(0) {
startTimer();
}
Win32AudioCDStream::~Win32AudioCDStream() {
stopTimer();
emptyQueue();
}
int Win32AudioCDStream::readBuffer(int16 *buffer, const int numSamples) {
int samples = 0;
// See if any data is left first
while (_bufferPos < kSamplesPerFrame && samples < numSamples)
buffer[samples++] = _buffer[_bufferPos++];
// Bail out if done
if (endOfData())
return samples;
while (samples < numSamples && !endOfData()) {
if (!readNextFrame())
return samples;
// Copy the samples over
for (_bufferPos = 0; _bufferPos < kSamplesPerFrame && samples < numSamples; )
buffer[samples++] = _buffer[_bufferPos++];
}
return samples;
}
bool Win32AudioCDStream::readNextFrame() {
// Fetch a frame from the queue
int16 *buffer;
{
Common::StackLock lock(_mutex);
// Nothing we can do if it's empty
if (_bufferQueue.empty())
return false;
buffer = _bufferQueue.pop();
}
memcpy(_buffer, buffer, kSamplesPerFrame * 2);
delete[] buffer;
_frame++;
return true;
}
bool Win32AudioCDStream::endOfData() const {
return getFrameCount(_startEntry) + _frame >= getFrameCount(_endEntry) && _bufferPos == kSamplesPerFrame;
}
bool Win32AudioCDStream::seek(const Audio::Timestamp &where) {
// Stop the timer
stopTimer();
// Clear anything out of the queue
emptyQueue();
// Convert to the frame number
// Really not much else needed
_bufferPos = kSamplesPerFrame;
_frame = where.convertToFramerate(kFramesPerSecond).totalNumberOfFrames();
_bufferFrame = _frame;
// Start the timer again
startTimer();
return true;
}
Audio::Timestamp Win32AudioCDStream::getLength() const {
return Audio::Timestamp(0, getFrameCount(_endEntry) - getFrameCount(_startEntry), 75);
}
void Win32AudioCDStream::timerProc(void *refCon) {
static_cast<Win32AudioCDStream *>(refCon)->onTimer();
}
void Win32AudioCDStream::onTimer() {
// The goal here is to do as much work in this timer instead
// of doing it in the readBuffer() call, which is the mixer.
// If we're done, bail.
if (getFrameCount(_startEntry) + _bufferFrame >= getFrameCount(_endEntry))
return;
// Get a quick count of the number of items in the queue
// We don't care that much; we only need a quick estimate
_mutex.lock();
uint32 queueCount = _bufferQueue.size();
_mutex.unlock();
// If we have enough audio buffered, bail out
if (queueCount >= kBufferThreshold)
return;
while (queueCount < kBufferThreshold && getFrameCount(_startEntry) + _bufferFrame < getFrameCount(_endEntry)) {
int16 *buffer = new int16[kSamplesPerFrame];
// Figure out the MSF of the frame we're looking for
int frame = _bufferFrame + getFrameCount(_startEntry);
// Request to read that frame
RAW_READ_INFO readAudio;
memset(&readAudio, 0, sizeof(readAudio));
readAudio.DiskOffset.QuadPart = (frame - kPreGapFrames) * 2048;
readAudio.SectorCount = 1;
readAudio.TrackMode = CDDA;
DWORD bytesReturned;
bool result = DeviceIoControl(
_driveHandle,
IOCTL_CDROM_RAW_READ,
&readAudio,
sizeof(readAudio),
buffer,
kBytesPerFrame,
&bytesReturned,
NULL);
if (!result) {
warning("Failed to retrieve CD sector %d: %d", frame, (int)GetLastError());
_bufferFrame = getFrameCount(_endEntry) - getFrameCount(_startEntry);
return;
}
_bufferFrame++;
// Now push the buffer onto the queue
Common::StackLock lock(_mutex);
_bufferQueue.push(buffer);
queueCount = _bufferQueue.size();
}
}
void Win32AudioCDStream::startTimer() {
g_system->getTimerManager()->installTimerProc(timerProc, 10 * 1000, this, "Win32AudioCDStream");
}
void Win32AudioCDStream::stopTimer() {
g_system->getTimerManager()->removeTimerProc(timerProc);
}
void Win32AudioCDStream::emptyQueue() {
while (!_bufferQueue.empty())
delete[] _bufferQueue.pop();
}
class Win32AudioCDManager : public DefaultAudioCDManager {
public:
Win32AudioCDManager();
~Win32AudioCDManager();
bool openCD(int drive);
void closeCD();
void playCD(int track, int numLoops, int startFrame, int duration);
private:
bool loadTOC();
typedef Common::Array<char> DriveList;
DriveList detectDrives();
bool tryAddDrive(char drive, DriveList &drives);
HANDLE _driveHandle;
int _firstTrack, _lastTrack;
Common::Array<TRACK_DATA> _tocEntries;
};
Win32AudioCDManager::Win32AudioCDManager() {
_driveHandle = INVALID_HANDLE_VALUE;
_firstTrack = _lastTrack = 0;
}
Win32AudioCDManager::~Win32AudioCDManager() {
closeCD();
}
bool Win32AudioCDManager::openCD(int drive) {
closeCD();
// Fetch the drive list
DriveList drives = detectDrives();
if (drive >= (int)drives.size())
return false;
debug(1, "Opening CD drive %c:\\", drives[drive]);
// Construct the drive path and try to open it
Common::String drivePath = Common::String::format("\\\\.\\%c:", drives[drive]);
_driveHandle = CreateFileA(drivePath.c_str(), GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, 0, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, 0);
if (_driveHandle == INVALID_HANDLE_VALUE) {
warning("Failed to open drive %c:\\, error %d", drives[drive], (int)GetLastError());
return false;
}
if (!loadTOC()) {
closeCD();
return false;
}
return false;
}
void Win32AudioCDManager::closeCD() {
// Stop any previous track
stop();
if (_driveHandle != INVALID_HANDLE_VALUE) {
CloseHandle(_driveHandle);
_driveHandle = INVALID_HANDLE_VALUE;
}
_firstTrack = _lastTrack = 0;
_tocEntries.clear();
}
void Win32AudioCDManager::playCD(int track, int numLoops, int startFrame, int duration) {
// Stop any previous track
stop();
// HACK: For now, just assume that track number is right
// That only works because ScummVM uses the wrong track number anyway
if (track >= (int)_tocEntries.size() - 1) {
warning("No such track %d", track);
return;
}
// Bail if the track isn't an audio track
if ((_tocEntries[track].Control & 0x04) != 0) {
warning("Track %d is not audio", track);
return;
}
// Create the AudioStream and play it
debug(1, "Playing CD track %d", track);
Audio::SeekableAudioStream *audioStream = new Win32AudioCDStream(_driveHandle, _tocEntries[track], _tocEntries[track + 1]);
Audio::Timestamp start = Audio::Timestamp(0, startFrame, 75);
Audio::Timestamp end = (duration == 0) ? audioStream->getLength() : Audio::Timestamp(0, startFrame + duration, 75);
// Fake emulation since we're really playing an AudioStream
_emulating = true;
_mixer->playStream(
Audio::Mixer::kMusicSoundType,
&_handle,
Audio::makeLoopingAudioStream(audioStream, start, end, (numLoops < 1) ? numLoops + 1 : numLoops),
-1,
_cd.volume,
_cd.balance,
DisposeAfterUse::YES,
true);
}
bool Win32AudioCDManager::loadTOC() {
CDROM_READ_TOC_EX tocRequest;
memset(&tocRequest, 0, sizeof(tocRequest));
tocRequest.Format = CDROM_READ_TOC_EX_FORMAT_TOC;
tocRequest.Msf = 1;
tocRequest.SessionTrack = 0;
DWORD bytesReturned;
CDROM_TOC tocData;
bool result = DeviceIoControl(
_driveHandle,
IOCTL_CDROM_READ_TOC_EX,
&tocRequest,
sizeof(tocRequest),
&tocData,
sizeof(tocData),
&bytesReturned,
NULL);
if (!result) {
debug("Failed to query the CD TOC: %d", (int)GetLastError());
return false;
}
_firstTrack = tocData.FirstTrack;
_lastTrack = tocData.LastTrack;
#if 0
debug("First Track: %d", tocData.FirstTrack);
debug("Last Track: %d", tocData.LastTrack);
#endif
for (uint32 i = 0; i < (bytesReturned - 4) / sizeof(TRACK_DATA); i++)
_tocEntries.push_back(tocData.TrackData[i]);
#if 0
for (uint32 i = 0; i < _tocEntries.size(); i++) {
const TRACK_DATA &entry = _tocEntries[i];
debug("Entry:");
debug("\tTrack: %d", entry.TrackNumber);
debug("\tAdr: %d", entry.Adr);
debug("\tCtrl: %d", entry.Control);
debug("\tMSF: %d:%d:%d\n", entry.Address[1], entry.Address[2], entry.Address[3]);
}
#endif
return true;
}
Win32AudioCDManager::DriveList Win32AudioCDManager::detectDrives() {
DriveList drives;
// Try to get the game path's drive
char gameDrive = 0;
if (ConfMan.hasKey("path")) {
Common::String gamePath = ConfMan.get("path");
char fullPath[MAX_PATH];
DWORD result = GetFullPathNameA(gamePath.c_str(), sizeof(fullPath), fullPath, 0);
if (result > 0 && result < sizeof(fullPath) && Common::isAlpha(fullPath[0]) && fullPath[1] == ':' && tryAddDrive(toupper(fullPath[0]), drives))
gameDrive = drives[0];
}
// Try adding the rest of the drives
for (char drive = 'A'; drive <= 'Z'; drive++)
if (drive != gameDrive)
tryAddDrive(drive, drives);
return drives;
}
bool Win32AudioCDManager::tryAddDrive(char drive, DriveList &drives) {
Common::String drivePath = Common::String::format("%c:\\", drive);
// Ensure it's an actual CD drive
if (GetDriveTypeA(drivePath.c_str()) != DRIVE_CDROM)
return false;
debug(2, "Detected drive %c:\\ as a CD drive", drive);
drives.push_back(drive);
return true;
}
AudioCDManager *createWin32AudioCDManager() {
return new Win32AudioCDManager();
}
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