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dexed/JuceLibraryCode/modules/juce_audio_devices/native/juce_linux_ALSA.cpp

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2013 - Raw Material Software Ltd.
Permission is granted to use this software under the terms of either:
a) the GPL v2 (or any later version)
b) the Affero GPL v3
Details of these licenses can be found at: www.gnu.org/licenses
JUCE 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.
------------------------------------------------------------------------------
To release a closed-source product which uses JUCE, commercial licenses are
available: visit www.juce.com for more information.
==============================================================================
*/
namespace
{
#ifndef JUCE_ALSA_LOGGING
#define JUCE_ALSA_LOGGING 0
#endif
#if JUCE_ALSA_LOGGING
#define JUCE_ALSA_LOG(dbgtext) { juce::String tempDbgBuf ("ALSA: "); tempDbgBuf << dbgtext; Logger::writeToLog (tempDbgBuf); DBG (tempDbgBuf) }
#define JUCE_CHECKED_RESULT(x) (logErrorMessage (x, __LINE__))
static int logErrorMessage (int err, int lineNum)
{
if (err < 0)
JUCE_ALSA_LOG ("Error: line " << lineNum << ": code " << err << " (" << snd_strerror (err) << ")");
return err;
}
#else
#define JUCE_ALSA_LOG(x)
#define JUCE_CHECKED_RESULT(x) (x)
#endif
#define JUCE_ALSA_FAILED(x) failed (x)
static void getDeviceSampleRates (snd_pcm_t* handle, Array<double>& rates)
{
const int ratesToTry[] = { 22050, 32000, 44100, 48000, 88200, 96000, 176400, 192000, 0 };
snd_pcm_hw_params_t* hwParams;
snd_pcm_hw_params_alloca (&hwParams);
for (int i = 0; ratesToTry[i] != 0; ++i)
{
if (snd_pcm_hw_params_any (handle, hwParams) >= 0
&& snd_pcm_hw_params_test_rate (handle, hwParams, ratesToTry[i], 0) == 0)
{
rates.addIfNotAlreadyThere ((double) ratesToTry[i]);
}
}
}
static void getDeviceNumChannels (snd_pcm_t* handle, unsigned int* minChans, unsigned int* maxChans)
{
snd_pcm_hw_params_t *params;
snd_pcm_hw_params_alloca (&params);
if (snd_pcm_hw_params_any (handle, params) >= 0)
{
snd_pcm_hw_params_get_channels_min (params, minChans);
snd_pcm_hw_params_get_channels_max (params, maxChans);
JUCE_ALSA_LOG ("getDeviceNumChannels: " << (int) *minChans << " " << (int) *maxChans);
// some virtual devices (dmix for example) report 10000 channels , we have to clamp these values
*maxChans = jmin (*maxChans, 32u);
*minChans = jmin (*minChans, *maxChans);
}
else
{
JUCE_ALSA_LOG ("getDeviceNumChannels failed");
}
}
static void getDeviceProperties (const String& deviceID,
unsigned int& minChansOut,
unsigned int& maxChansOut,
unsigned int& minChansIn,
unsigned int& maxChansIn,
Array<double>& rates,
bool testOutput,
bool testInput)
{
minChansOut = maxChansOut = minChansIn = maxChansIn = 0;
if (deviceID.isEmpty())
return;
JUCE_ALSA_LOG ("getDeviceProperties(" << deviceID.toUTF8().getAddress() << ")");
snd_pcm_info_t* info;
snd_pcm_info_alloca (&info);
if (testOutput)
{
snd_pcm_t* pcmHandle;
if (JUCE_CHECKED_RESULT (snd_pcm_open (&pcmHandle, deviceID.toUTF8().getAddress(), SND_PCM_STREAM_PLAYBACK, SND_PCM_NONBLOCK)) >= 0)
{
getDeviceNumChannels (pcmHandle, &minChansOut, &maxChansOut);
getDeviceSampleRates (pcmHandle, rates);
snd_pcm_close (pcmHandle);
}
}
if (testInput)
{
snd_pcm_t* pcmHandle;
if (JUCE_CHECKED_RESULT (snd_pcm_open (&pcmHandle, deviceID.toUTF8(), SND_PCM_STREAM_CAPTURE, SND_PCM_NONBLOCK) >= 0))
{
getDeviceNumChannels (pcmHandle, &minChansIn, &maxChansIn);
if (rates.size() == 0)
getDeviceSampleRates (pcmHandle, rates);
snd_pcm_close (pcmHandle);
}
}
}
static void ensureMinimumNumBitsSet (BigInteger& chans, int minNumChans)
{
int i = 0;
while (chans.countNumberOfSetBits() < minNumChans)
chans.setBit (i++);
}
static void silentErrorHandler (const char*, int, const char*, int, const char*,...) {}
//==============================================================================
class ALSADevice
{
public:
ALSADevice (const String& devID, bool forInput)
: handle (0),
bitDepth (16),
numChannelsRunning (0),
latency (0),
deviceID (devID),
isInput (forInput),
isInterleaved (true)
{
JUCE_ALSA_LOG ("snd_pcm_open (" << deviceID.toUTF8().getAddress() << ", forInput=" << forInput << ")");
int err = snd_pcm_open (&handle, deviceID.toUTF8(),
forInput ? SND_PCM_STREAM_CAPTURE : SND_PCM_STREAM_PLAYBACK,
SND_PCM_ASYNC);
if (err < 0)
{
if (-err == EBUSY)
error << "The device \"" << deviceID << "\" is busy (another application is using it).";
else if (-err == ENOENT)
error << "The device \"" << deviceID << "\" is not available.";
else
error << "Could not open " << (forInput ? "input" : "output") << " device \"" << deviceID
<< "\": " << snd_strerror(err) << " (" << err << ")";
JUCE_ALSA_LOG ("snd_pcm_open failed; " << error);
}
}
~ALSADevice()
{
closeNow();
}
void closeNow()
{
if (handle != 0)
{
snd_pcm_close (handle);
handle = 0;
}
}
bool setParameters (unsigned int sampleRate, int numChannels, int bufferSize)
{
if (handle == 0)
return false;
JUCE_ALSA_LOG ("ALSADevice::setParameters(" << deviceID << ", "
<< (int) sampleRate << ", " << numChannels << ", " << bufferSize << ")");
snd_pcm_hw_params_t* hwParams;
snd_pcm_hw_params_alloca (&hwParams);
if (snd_pcm_hw_params_any (handle, hwParams) < 0)
{
// this is the error message that aplay returns when an error happens here,
// it is a bit more explicit that "Invalid parameter"
error = "Broken configuration for this PCM: no configurations available";
return false;
}
if (snd_pcm_hw_params_set_access (handle, hwParams, SND_PCM_ACCESS_RW_INTERLEAVED) >= 0) // works better for plughw..
isInterleaved = true;
else if (snd_pcm_hw_params_set_access (handle, hwParams, SND_PCM_ACCESS_RW_NONINTERLEAVED) >= 0)
isInterleaved = false;
else
{
jassertfalse;
return false;
}
enum { isFloatBit = 1 << 16, isLittleEndianBit = 1 << 17, onlyUseLower24Bits = 1 << 18 };
const int formatsToTry[] = { SND_PCM_FORMAT_FLOAT_LE, 32 | isFloatBit | isLittleEndianBit,
SND_PCM_FORMAT_FLOAT_BE, 32 | isFloatBit,
SND_PCM_FORMAT_S32_LE, 32 | isLittleEndianBit,
SND_PCM_FORMAT_S32_BE, 32,
SND_PCM_FORMAT_S24_3LE, 24 | isLittleEndianBit,
SND_PCM_FORMAT_S24_3BE, 24,
SND_PCM_FORMAT_S24_LE, 32 | isLittleEndianBit | onlyUseLower24Bits,
SND_PCM_FORMAT_S16_LE, 16 | isLittleEndianBit,
SND_PCM_FORMAT_S16_BE, 16 };
bitDepth = 0;
for (int i = 0; i < numElementsInArray (formatsToTry); i += 2)
{
if (snd_pcm_hw_params_set_format (handle, hwParams, (_snd_pcm_format) formatsToTry [i]) >= 0)
{
const int type = formatsToTry [i + 1];
bitDepth = type & 255;
converter = createConverter (isInput, bitDepth,
(type & isFloatBit) != 0,
(type & isLittleEndianBit) != 0,
(type & onlyUseLower24Bits) != 0,
numChannels);
break;
}
}
if (bitDepth == 0)
{
error = "device doesn't support a compatible PCM format";
JUCE_ALSA_LOG ("Error: " + error);
return false;
}
int dir = 0;
unsigned int periods = 4;
snd_pcm_uframes_t samplesPerPeriod = bufferSize;
if (JUCE_ALSA_FAILED (snd_pcm_hw_params_set_rate_near (handle, hwParams, &sampleRate, 0))
|| JUCE_ALSA_FAILED (snd_pcm_hw_params_set_channels (handle, hwParams, numChannels))
|| JUCE_ALSA_FAILED (snd_pcm_hw_params_set_periods_near (handle, hwParams, &periods, &dir))
|| JUCE_ALSA_FAILED (snd_pcm_hw_params_set_period_size_near (handle, hwParams, &samplesPerPeriod, &dir))
|| JUCE_ALSA_FAILED (snd_pcm_hw_params (handle, hwParams)))
{
return false;
}
snd_pcm_uframes_t frames = 0;
if (JUCE_ALSA_FAILED (snd_pcm_hw_params_get_period_size (hwParams, &frames, &dir))
|| JUCE_ALSA_FAILED (snd_pcm_hw_params_get_periods (hwParams, &periods, &dir)))
latency = 0;
else
latency = frames * (periods - 1); // (this is the method JACK uses to guess the latency..)
JUCE_ALSA_LOG ("frames: " << (int) frames << ", periods: " << (int) periods
<< ", samplesPerPeriod: " << (int) samplesPerPeriod);
snd_pcm_sw_params_t* swParams;
snd_pcm_sw_params_alloca (&swParams);
snd_pcm_uframes_t boundary;
if (JUCE_ALSA_FAILED (snd_pcm_sw_params_current (handle, swParams))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params_get_boundary (swParams, &boundary))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params_set_silence_threshold (handle, swParams, 0))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params_set_silence_size (handle, swParams, boundary))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params_set_start_threshold (handle, swParams, samplesPerPeriod))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params_set_stop_threshold (handle, swParams, boundary))
|| JUCE_ALSA_FAILED (snd_pcm_sw_params (handle, swParams)))
{
return false;
}
#if JUCE_ALSA_LOGGING
// enable this to dump the config of the devices that get opened
snd_output_t* out;
snd_output_stdio_attach (&out, stderr, 0);
snd_pcm_hw_params_dump (hwParams, out);
snd_pcm_sw_params_dump (swParams, out);
#endif
numChannelsRunning = numChannels;
return true;
}
//==============================================================================
bool writeToOutputDevice (AudioSampleBuffer& outputChannelBuffer, const int numSamples)
{
jassert (numChannelsRunning <= outputChannelBuffer.getNumChannels());
float** const data = outputChannelBuffer.getArrayOfChannels();
snd_pcm_sframes_t numDone = 0;
if (isInterleaved)
{
scratch.ensureSize (sizeof (float) * numSamples * numChannelsRunning, false);
for (int i = 0; i < numChannelsRunning; ++i)
converter->convertSamples (scratch.getData(), i, data[i], 0, numSamples);
numDone = snd_pcm_writei (handle, scratch.getData(), numSamples);
}
else
{
for (int i = 0; i < numChannelsRunning; ++i)
converter->convertSamples (data[i], data[i], numSamples);
numDone = snd_pcm_writen (handle, (void**) data, numSamples);
}
if (numDone < 0 && JUCE_ALSA_FAILED (snd_pcm_recover (handle, numDone, 1 /* silent */)))
return false;
if (numDone < numSamples)
JUCE_ALSA_LOG ("Did not write all samples: numDone: " << numDone << ", numSamples: " << numSamples);
return true;
}
bool readFromInputDevice (AudioSampleBuffer& inputChannelBuffer, const int numSamples)
{
jassert (numChannelsRunning <= inputChannelBuffer.getNumChannels());
float** const data = inputChannelBuffer.getArrayOfChannels();
if (isInterleaved)
{
scratch.ensureSize (sizeof (float) * numSamples * numChannelsRunning, false);
scratch.fillWith (0); // (not clearing this data causes warnings in valgrind)
snd_pcm_sframes_t num = snd_pcm_readi (handle, scratch.getData(), numSamples);
if (num < 0 && JUCE_ALSA_FAILED (snd_pcm_recover (handle, num, 1 /* silent */)))
return false;
if (num < numSamples)
JUCE_ALSA_LOG ("Did not read all samples: num: " << num << ", numSamples: " << numSamples);
for (int i = 0; i < numChannelsRunning; ++i)
converter->convertSamples (data[i], 0, scratch.getData(), i, numSamples);
}
else
{
snd_pcm_sframes_t num = snd_pcm_readn (handle, (void**) data, numSamples);
if (num < 0 && JUCE_ALSA_FAILED (snd_pcm_recover (handle, num, 1 /* silent */)))
return false;
if (num < numSamples)
JUCE_ALSA_LOG ("Did not read all samples: num: " << num << ", numSamples: " << numSamples);
for (int i = 0; i < numChannelsRunning; ++i)
converter->convertSamples (data[i], data[i], numSamples);
}
return true;
}
//==============================================================================
snd_pcm_t* handle;
String error;
int bitDepth, numChannelsRunning, latency;
private:
//==============================================================================
String deviceID;
const bool isInput;
bool isInterleaved;
MemoryBlock scratch;
ScopedPointer<AudioData::Converter> converter;
//==============================================================================
template <class SampleType>
struct ConverterHelper
{
static AudioData::Converter* createConverter (const bool forInput, const bool isLittleEndian, const int numInterleavedChannels)
{
if (forInput)
{
typedef AudioData::Pointer <AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::NonConst> DestType;
if (isLittleEndian)
return new AudioData::ConverterInstance <AudioData::Pointer <SampleType, AudioData::LittleEndian, AudioData::Interleaved, AudioData::Const>, DestType> (numInterleavedChannels, 1);
return new AudioData::ConverterInstance <AudioData::Pointer <SampleType, AudioData::BigEndian, AudioData::Interleaved, AudioData::Const>, DestType> (numInterleavedChannels, 1);
}
typedef AudioData::Pointer <AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::Const> SourceType;
if (isLittleEndian)
return new AudioData::ConverterInstance <SourceType, AudioData::Pointer <SampleType, AudioData::LittleEndian, AudioData::Interleaved, AudioData::NonConst> > (1, numInterleavedChannels);
return new AudioData::ConverterInstance <SourceType, AudioData::Pointer <SampleType, AudioData::BigEndian, AudioData::Interleaved, AudioData::NonConst> > (1, numInterleavedChannels);
}
};
static AudioData::Converter* createConverter (bool forInput, int bitDepth,
bool isFloat, bool isLittleEndian, bool useOnlyLower24Bits,
int numInterleavedChannels)
{
JUCE_ALSA_LOG ("format: bitDepth=" << bitDepth << ", isFloat=" << isFloat
<< ", isLittleEndian=" << isLittleEndian << ", numChannels=" << numInterleavedChannels);
if (isFloat) return ConverterHelper <AudioData::Float32>::createConverter (forInput, isLittleEndian, numInterleavedChannels);
if (bitDepth == 16) return ConverterHelper <AudioData::Int16> ::createConverter (forInput, isLittleEndian, numInterleavedChannels);
if (bitDepth == 24) return ConverterHelper <AudioData::Int24> ::createConverter (forInput, isLittleEndian, numInterleavedChannels);
jassert (bitDepth == 32);
if (useOnlyLower24Bits)
return ConverterHelper <AudioData::Int24in32>::createConverter (forInput, isLittleEndian, numInterleavedChannels);
return ConverterHelper <AudioData::Int32>::createConverter (forInput, isLittleEndian, numInterleavedChannels);
}
//==============================================================================
bool failed (const int errorNum)
{
if (errorNum >= 0)
return false;
error = snd_strerror (errorNum);
JUCE_ALSA_LOG ("ALSA error: " << error);
return true;
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ALSADevice)
};
//==============================================================================
class ALSAThread : public Thread
{
public:
ALSAThread (const String& inputDeviceID, const String& outputDeviceID)
: Thread ("Juce ALSA"),
sampleRate (0),
bufferSize (0),
outputLatency (0),
inputLatency (0),
callback (0),
inputId (inputDeviceID),
outputId (outputDeviceID),
numCallbacks (0),
audioIoInProgress (false),
inputChannelBuffer (1, 1),
outputChannelBuffer (1, 1)
{
initialiseRatesAndChannels();
}
~ALSAThread()
{
close();
}
void open (BigInteger inputChannels,
BigInteger outputChannels,
const double newSampleRate,
const int newBufferSize)
{
close();
error.clear();
sampleRate = newSampleRate;
bufferSize = newBufferSize;
inputChannelBuffer.setSize (jmax ((int) minChansIn, inputChannels.getHighestBit()) + 1, bufferSize);
inputChannelBuffer.clear();
inputChannelDataForCallback.clear();
currentInputChans.clear();
if (inputChannels.getHighestBit() >= 0)
{
for (int i = 0; i <= jmax (inputChannels.getHighestBit(), (int) minChansIn); ++i)
{
if (inputChannels[i])
{
inputChannelDataForCallback.add (inputChannelBuffer.getSampleData (i));
currentInputChans.setBit (i);
}
}
}
ensureMinimumNumBitsSet (outputChannels, minChansOut);
outputChannelBuffer.setSize (jmax ((int) minChansOut, outputChannels.getHighestBit()) + 1, bufferSize);
outputChannelBuffer.clear();
outputChannelDataForCallback.clear();
currentOutputChans.clear();
if (outputChannels.getHighestBit() >= 0)
{
for (int i = 0; i <= jmax (outputChannels.getHighestBit(), (int) minChansOut); ++i)
{
if (outputChannels[i])
{
outputChannelDataForCallback.add (outputChannelBuffer.getSampleData (i));
currentOutputChans.setBit (i);
}
}
}
if (outputChannelDataForCallback.size() > 0 && outputId.isNotEmpty())
{
outputDevice = new ALSADevice (outputId, false);
if (outputDevice->error.isNotEmpty())
{
error = outputDevice->error;
outputDevice = nullptr;
return;
}
if (! outputDevice->setParameters ((unsigned int) sampleRate,
jlimit ((int) minChansOut, (int) maxChansOut,
currentOutputChans.getHighestBit() + 1),
bufferSize))
{
error = outputDevice->error;
outputDevice = nullptr;
return;
}
outputLatency = outputDevice->latency;
}
if (inputChannelDataForCallback.size() > 0 && inputId.isNotEmpty())
{
inputDevice = new ALSADevice (inputId, true);
if (inputDevice->error.isNotEmpty())
{
error = inputDevice->error;
inputDevice = nullptr;
return;
}
ensureMinimumNumBitsSet (currentInputChans, minChansIn);
if (! inputDevice->setParameters ((unsigned int) sampleRate,
jlimit ((int) minChansIn, (int) maxChansIn, currentInputChans.getHighestBit() + 1),
bufferSize))
{
error = inputDevice->error;
inputDevice = nullptr;
return;
}
inputLatency = inputDevice->latency;
}
if (outputDevice == nullptr && inputDevice == nullptr)
{
error = "no channels";
return;
}
if (outputDevice != nullptr && inputDevice != nullptr)
snd_pcm_link (outputDevice->handle, inputDevice->handle);
if (inputDevice != nullptr && JUCE_ALSA_FAILED (snd_pcm_prepare (inputDevice->handle)))
return;
if (outputDevice != nullptr && JUCE_ALSA_FAILED (snd_pcm_prepare (outputDevice->handle)))
return;
startThread (9);
int count = 1000;
while (numCallbacks == 0)
{
sleep (5);
if (--count < 0 || ! isThreadRunning())
{
error = "device didn't start";
break;
}
}
}
void close()
{
if (isThreadRunning())
{
// problem: when pulseaudio is suspended (with pasuspend) , the ALSAThread::run is just stuck in
// snd_pcm_writei -- no error, no nothing it just stays stuck. So the only way I found to exit "nicely"
// (that is without the "killing thread by force" of stopThread) , is to just call snd_pcm_close from
// here which will cause the thread to resume, and exit
signalThreadShouldExit();
const int callbacksToStop = numCallbacks;
if ((! waitForThreadToExit (400)) && audioIoInProgress && numCallbacks == callbacksToStop)
{
JUCE_ALSA_LOG ("Thread is stuck in i/o.. Is pulseaudio suspended?");
if (outputDevice != nullptr) outputDevice->closeNow();
if (inputDevice != nullptr) inputDevice->closeNow();
}
}
stopThread (6000);
inputDevice = nullptr;
outputDevice = nullptr;
inputChannelBuffer.setSize (1, 1);
outputChannelBuffer.setSize (1, 1);
numCallbacks = 0;
}
void setCallback (AudioIODeviceCallback* const newCallback) noexcept
{
const ScopedLock sl (callbackLock);
callback = newCallback;
}
void run() override
{
while (! threadShouldExit())
{
if (inputDevice != nullptr && inputDevice->handle)
{
audioIoInProgress = true;
if (! inputDevice->readFromInputDevice (inputChannelBuffer, bufferSize))
{
JUCE_ALSA_LOG ("Read failure");
break;
}
audioIoInProgress = false;
}
if (threadShouldExit())
break;
{
const ScopedLock sl (callbackLock);
++numCallbacks;
if (callback != nullptr)
{
callback->audioDeviceIOCallback ((const float**) inputChannelDataForCallback.getRawDataPointer(),
inputChannelDataForCallback.size(),
outputChannelDataForCallback.getRawDataPointer(),
outputChannelDataForCallback.size(),
bufferSize);
}
else
{
for (int i = 0; i < outputChannelDataForCallback.size(); ++i)
zeromem (outputChannelDataForCallback[i], sizeof (float) * bufferSize);
}
}
if (outputDevice != nullptr && outputDevice->handle)
{
JUCE_ALSA_FAILED (snd_pcm_wait (outputDevice->handle, 2000));
if (threadShouldExit())
break;
snd_pcm_sframes_t avail = snd_pcm_avail_update (outputDevice->handle);
if (avail < 0)
JUCE_ALSA_FAILED (snd_pcm_recover (outputDevice->handle, avail, 0));
audioIoInProgress = true;
if (! outputDevice->writeToOutputDevice (outputChannelBuffer, bufferSize))
{
JUCE_ALSA_LOG ("write failure");
break;
}
audioIoInProgress = false;
}
}
audioIoInProgress = false;
}
int getBitDepth() const noexcept
{
if (outputDevice != nullptr)
return outputDevice->bitDepth;
if (inputDevice != nullptr)
return inputDevice->bitDepth;
return 16;
}
//==============================================================================
String error;
double sampleRate;
int bufferSize, outputLatency, inputLatency;
BigInteger currentInputChans, currentOutputChans;
Array<double> sampleRates;
StringArray channelNamesOut, channelNamesIn;
AudioIODeviceCallback* callback;
private:
//==============================================================================
const String inputId, outputId;
ScopedPointer<ALSADevice> outputDevice, inputDevice;
int numCallbacks;
bool audioIoInProgress;
CriticalSection callbackLock;
AudioSampleBuffer inputChannelBuffer, outputChannelBuffer;
Array<float*> inputChannelDataForCallback, outputChannelDataForCallback;
unsigned int minChansOut, maxChansOut;
unsigned int minChansIn, maxChansIn;
bool failed (const int errorNum)
{
if (errorNum >= 0)
return false;
error = snd_strerror (errorNum);
JUCE_ALSA_LOG ("ALSA error: " << error);
return true;
}
void initialiseRatesAndChannels()
{
sampleRates.clear();
channelNamesOut.clear();
channelNamesIn.clear();
minChansOut = 0;
maxChansOut = 0;
minChansIn = 0;
maxChansIn = 0;
unsigned int dummy = 0;
getDeviceProperties (inputId, dummy, dummy, minChansIn, maxChansIn, sampleRates, false, true);
getDeviceProperties (outputId, minChansOut, maxChansOut, dummy, dummy, sampleRates, true, false);
for (unsigned int i = 0; i < maxChansOut; ++i)
channelNamesOut.add ("channel " + String ((int) i + 1));
for (unsigned int i = 0; i < maxChansIn; ++i)
channelNamesIn.add ("channel " + String ((int) i + 1));
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ALSAThread)
};
//==============================================================================
class ALSAAudioIODevice : public AudioIODevice
{
public:
ALSAAudioIODevice (const String& deviceName,
const String& typeName,
const String& inputDeviceID,
const String& outputDeviceID)
: AudioIODevice (deviceName, typeName),
inputId (inputDeviceID),
outputId (outputDeviceID),
isOpen_ (false),
isStarted (false),
internal (inputDeviceID, outputDeviceID)
{
}
~ALSAAudioIODevice()
{
close();
}
StringArray getOutputChannelNames() override { return internal.channelNamesOut; }
StringArray getInputChannelNames() override { return internal.channelNamesIn; }
Array<double> getAvailableSampleRates() override { return internal.sampleRates; }
Array<int> getAvailableBufferSizes() override
{
Array<int> r;
int n = 16;
for (int i = 0; i < 50; ++i)
{
r.add (n);
n += n < 64 ? 16
: (n < 512 ? 32
: (n < 1024 ? 64
: (n < 2048 ? 128 : 256)));
}
return r;
}
int getDefaultBufferSize() override { return 512; }
String open (const BigInteger& inputChannels,
const BigInteger& outputChannels,
double sampleRate,
int bufferSizeSamples) override
{
close();
if (bufferSizeSamples <= 0)
bufferSizeSamples = getDefaultBufferSize();
if (sampleRate <= 0)
{
for (int i = 0; i < internal.sampleRates.size(); ++i)
{
double rate = internal.sampleRates[i];
if (rate >= 44100)
{
sampleRate = rate;
break;
}
}
}
internal.open (inputChannels, outputChannels,
sampleRate, bufferSizeSamples);
isOpen_ = internal.error.isEmpty();
return internal.error;
}
void close() override
{
stop();
internal.close();
isOpen_ = false;
}
bool isOpen() override { return isOpen_; }
bool isPlaying() override { return isStarted && internal.error.isEmpty(); }
String getLastError() override { return internal.error; }
int getCurrentBufferSizeSamples() override { return internal.bufferSize; }
double getCurrentSampleRate() override { return internal.sampleRate; }
int getCurrentBitDepth() override { return internal.getBitDepth(); }
BigInteger getActiveOutputChannels() const override { return internal.currentOutputChans; }
BigInteger getActiveInputChannels() const override { return internal.currentInputChans; }
int getOutputLatencyInSamples() override { return internal.outputLatency; }
int getInputLatencyInSamples() override { return internal.inputLatency; }
void start (AudioIODeviceCallback* callback) override
{
if (! isOpen_)
callback = nullptr;
if (callback != nullptr)
callback->audioDeviceAboutToStart (this);
internal.setCallback (callback);
isStarted = (callback != nullptr);
}
void stop() override
{
AudioIODeviceCallback* const oldCallback = internal.callback;
start (nullptr);
if (oldCallback != nullptr)
oldCallback->audioDeviceStopped();
}
String inputId, outputId;
private:
bool isOpen_, isStarted;
ALSAThread internal;
};
//==============================================================================
class ALSAAudioIODeviceType : public AudioIODeviceType
{
public:
ALSAAudioIODeviceType (bool onlySoundcards, const String &typeName)
: AudioIODeviceType (typeName),
hasScanned (false),
listOnlySoundcards (onlySoundcards)
{
#if ! JUCE_ALSA_LOGGING
snd_lib_error_set_handler (&silentErrorHandler);
#endif
}
~ALSAAudioIODeviceType()
{
#if ! JUCE_ALSA_LOGGING
snd_lib_error_set_handler (nullptr);
#endif
snd_config_update_free_global(); // prevent valgrind from screaming about alsa leaks
}
//==============================================================================
void scanForDevices()
{
if (hasScanned)
return;
hasScanned = true;
inputNames.clear();
inputIds.clear();
outputNames.clear();
outputIds.clear();
JUCE_ALSA_LOG ("scanForDevices()");
if (listOnlySoundcards)
enumerateAlsaSoundcards();
else
enumerateAlsaPCMDevices();
inputNames.appendNumbersToDuplicates (false, true);
outputNames.appendNumbersToDuplicates (false, true);
}
StringArray getDeviceNames (bool wantInputNames) const
{
jassert (hasScanned); // need to call scanForDevices() before doing this
return wantInputNames ? inputNames : outputNames;
}
int getDefaultDeviceIndex (bool forInput) const
{
jassert (hasScanned); // need to call scanForDevices() before doing this
const int idx = (forInput ? inputIds : outputIds).indexOf ("default");
return idx >= 0 ? idx : 0;
}
bool hasSeparateInputsAndOutputs() const { return true; }
int getIndexOfDevice (AudioIODevice* device, bool asInput) const
{
jassert (hasScanned); // need to call scanForDevices() before doing this
if (ALSAAudioIODevice* d = dynamic_cast <ALSAAudioIODevice*> (device))
return asInput ? inputIds.indexOf (d->inputId)
: outputIds.indexOf (d->outputId);
return -1;
}
AudioIODevice* createDevice (const String& outputDeviceName,
const String& inputDeviceName)
{
jassert (hasScanned); // need to call scanForDevices() before doing this
const int inputIndex = inputNames.indexOf (inputDeviceName);
const int outputIndex = outputNames.indexOf (outputDeviceName);
String deviceName (outputIndex >= 0 ? outputDeviceName
: inputDeviceName);
if (inputIndex >= 0 || outputIndex >= 0)
return new ALSAAudioIODevice (deviceName, getTypeName(),
inputIds [inputIndex],
outputIds [outputIndex]);
return nullptr;
}
private:
//==============================================================================
StringArray inputNames, outputNames, inputIds, outputIds;
bool hasScanned, listOnlySoundcards;
bool testDevice (const String &id, const String &outputName, const String &inputName)
{
unsigned int minChansOut = 0, maxChansOut = 0;
unsigned int minChansIn = 0, maxChansIn = 0;
Array<double> rates;
bool isInput = inputName.isNotEmpty(), isOutput = outputName.isNotEmpty();
getDeviceProperties (id, minChansOut, maxChansOut, minChansIn, maxChansIn, rates, isOutput, isInput);
isInput = maxChansIn > 0;
isOutput = maxChansOut > 0;
if ((isInput || isOutput) && rates.size() > 0)
{
JUCE_ALSA_LOG ("testDevice: '" << id.toUTF8().getAddress() << "' -> isInput: "
<< isInput << ", isOutput: " << isOutput);
if (isInput)
{
inputNames.add (inputName);
inputIds.add (id);
}
if (isOutput)
{
outputNames.add (outputName);
outputIds.add (id);
}
return isInput || isOutput;
}
return false;
}
void enumerateAlsaSoundcards()
{
snd_ctl_t* handle = nullptr;
snd_ctl_card_info_t* info = nullptr;
snd_ctl_card_info_alloca (&info);
int cardNum = -1;
while (outputIds.size() + inputIds.size() <= 64)
{
snd_card_next (&cardNum);
if (cardNum < 0)
break;
if (JUCE_CHECKED_RESULT (snd_ctl_open (&handle, ("hw:" + String (cardNum)).toUTF8(), SND_CTL_NONBLOCK)) >= 0)
{
if (JUCE_CHECKED_RESULT (snd_ctl_card_info (handle, info)) >= 0)
{
String cardId (snd_ctl_card_info_get_id (info));
if (cardId.removeCharacters ("0123456789").isEmpty())
cardId = String (cardNum);
String cardName = snd_ctl_card_info_get_name (info);
if (cardName.isEmpty())
cardName = cardId;
int device = -1;
snd_pcm_info_t* pcmInfo;
snd_pcm_info_alloca (&pcmInfo);
for (;;)
{
if (snd_ctl_pcm_next_device (handle, &device) < 0 || device < 0)
break;
snd_pcm_info_set_device (pcmInfo, device);
for (int subDevice = 0, nbSubDevice = 1; subDevice < nbSubDevice; ++subDevice)
{
snd_pcm_info_set_subdevice (pcmInfo, subDevice);
snd_pcm_info_set_stream (pcmInfo, SND_PCM_STREAM_CAPTURE);
const bool isInput = (snd_ctl_pcm_info (handle, pcmInfo) >= 0);
snd_pcm_info_set_stream (pcmInfo, SND_PCM_STREAM_PLAYBACK);
const bool isOutput = (snd_ctl_pcm_info (handle, pcmInfo) >= 0);
if (! (isInput || isOutput))
continue;
if (nbSubDevice == 1)
nbSubDevice = snd_pcm_info_get_subdevices_count (pcmInfo);
String id, name;
if (nbSubDevice == 1)
{
id << "hw:" << cardId << "," << device;
name << cardName << ", " << snd_pcm_info_get_name (pcmInfo);
}
else
{
id << "hw:" << cardId << "," << device << "," << subDevice;
name << cardName << ", " << snd_pcm_info_get_name (pcmInfo)
<< " {" << snd_pcm_info_get_subdevice_name (pcmInfo) << "}";
}
JUCE_ALSA_LOG ("Soundcard ID: " << id << ", name: '" << name
<< ", isInput:" << isInput << ", isOutput:" << isOutput << "\n");
if (isInput)
{
inputNames.add (name);
inputIds.add (id);
}
if (isOutput)
{
outputNames.add (name);
outputIds.add (id);
}
}
}
}
JUCE_CHECKED_RESULT (snd_ctl_close (handle));
}
}
}
/* Enumerates all ALSA output devices (as output by the command aplay -L)
Does not try to open the devices (with "testDevice" for example),
so that it also finds devices that are busy and not yet available.
*/
void enumerateAlsaPCMDevices()
{
void** hints = nullptr;
if (JUCE_CHECKED_RESULT (snd_device_name_hint (-1, "pcm", &hints)) == 0)
{
for (char** h = (char**) hints; *h; ++h)
{
const String id (hintToString (*h, "NAME"));
const String description (hintToString (*h, "DESC"));
const String ioid (hintToString (*h, "IOID"));
JUCE_ALSA_LOG ("ID: " << id << "; desc: " << description << "; ioid: " << ioid);
String ss = id.fromFirstOccurrenceOf ("=", false, false)
.upToFirstOccurrenceOf (",", false, false);
if (id.isEmpty()
|| id.startsWith ("default:") || id.startsWith ("sysdefault:")
|| id.startsWith ("plughw:") || id == "null")
continue;
String name (description.replace ("\n", "; "));
if (name.isEmpty())
name = id;
bool isOutput = (ioid != "Input");
bool isInput = (ioid != "Output");
// alsa is stupid here, it advertises dmix and dsnoop as input/output devices, but
// opening dmix as input, or dsnoop as output will trigger errors..
isInput = isInput && ! id.startsWith ("dmix");
isOutput = isOutput && ! id.startsWith ("dsnoop");
if (isInput)
{
inputNames.add (name);
inputIds.add (id);
}
if (isOutput)
{
outputNames.add (name);
outputIds.add (id);
}
}
snd_device_name_free_hint (hints);
}
// sometimes the "default" device is not listed, but it is nice to see it explicitely in the list
if (! outputIds.contains ("default"))
testDevice ("default", "Default ALSA Output", "Default ALSA Input");
// same for the pulseaudio plugin
if (! outputIds.contains ("pulse"))
testDevice ("pulse", "Pulseaudio output", "Pulseaudio input");
// make sure the default device is listed first, and followed by the pulse device (if present)
int idx = outputIds.indexOf ("pulse");
outputIds.move (idx, 0);
outputNames.move (idx, 0);
idx = inputIds.indexOf ("pulse");
inputIds.move (idx, 0);
inputNames.move (idx, 0);
idx = outputIds.indexOf ("default");
outputIds.move (idx, 0);
outputNames.move (idx, 0);
idx = inputIds.indexOf ("default");
inputIds.move (idx, 0);
inputNames.move (idx, 0);
}
static String hintToString (const void* hints, const char* type)
{
char* const hint = snd_device_name_get_hint (hints, type);
const String s (String::fromUTF8 (hint));
::free (hint);
return s;
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ALSAAudioIODeviceType)
};
}
//==============================================================================
AudioIODeviceType* createAudioIODeviceType_ALSA_Soundcards()
{
return new ALSAAudioIODeviceType (true, "ALSA HW");
}
AudioIODeviceType* createAudioIODeviceType_ALSA_PCMDevices()
{
return new ALSAAudioIODeviceType (false, "ALSA");
}
AudioIODeviceType* AudioIODeviceType::createAudioIODeviceType_ALSA()
{
return createAudioIODeviceType_ALSA_PCMDevices();
}