/** * OpenAL cross platform audio library * Copyright (C) 1999-2007 by authors. * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * Or go to http://www.gnu.org/copyleft/lgpl.html */ #include "config.h" #include "backends/sndio.h" #include #include #include #include #include #include "alcmain.h" #include "alu.h" #include "threads.h" #include "vector.h" #include "ringbuffer.h" #include namespace { static const ALCchar sndio_device[] = "SndIO Default"; struct SndioPlayback final : public BackendBase { SndioPlayback(ALCdevice *device) noexcept : BackendBase{device} { } ~SndioPlayback() override; int mixerProc(); ALCenum open(const ALCchar *name) override; ALCboolean reset() override; ALCboolean start() override; void stop() override; sio_hdl *mSndHandle{nullptr}; al::vector mBuffer; std::atomic mKillNow{true}; std::thread mThread; DEF_NEWDEL(SndioPlayback) }; SndioPlayback::~SndioPlayback() { if(mSndHandle) sio_close(mSndHandle); mSndHandle = nullptr; } int SndioPlayback::mixerProc() { SetRTPriority(); althrd_setname(MIXER_THREAD_NAME); const ALuint frameSize{mDevice->frameSizeFromFmt()}; while(!mKillNow.load(std::memory_order_acquire) && mDevice->Connected.load(std::memory_order_acquire)) { ALubyte *WritePtr{mBuffer.data()}; size_t len{mBuffer.size()}; lock(); aluMixData(mDevice, WritePtr, static_cast(len/frameSize)); unlock(); while(len > 0 && !mKillNow.load(std::memory_order_acquire)) { size_t wrote{sio_write(mSndHandle, WritePtr, len)}; if(wrote == 0) { ERR("sio_write failed\n"); aluHandleDisconnect(mDevice, "Failed to write playback samples"); break; } len -= wrote; WritePtr += wrote; } } return 0; } ALCenum SndioPlayback::open(const ALCchar *name) { if(!name) name = sndio_device; else if(strcmp(name, sndio_device) != 0) return ALC_INVALID_VALUE; mSndHandle = sio_open(nullptr, SIO_PLAY, 0); if(mSndHandle == nullptr) { ERR("Could not open device\n"); return ALC_INVALID_VALUE; } mDevice->DeviceName = name; return ALC_NO_ERROR; } ALCboolean SndioPlayback::reset() { sio_par par; sio_initpar(&par); par.rate = mDevice->Frequency; par.pchan = ((mDevice->FmtChans != DevFmtMono) ? 2 : 1); switch(mDevice->FmtType) { case DevFmtByte: par.bits = 8; par.sig = 1; break; case DevFmtUByte: par.bits = 8; par.sig = 0; break; case DevFmtFloat: case DevFmtShort: par.bits = 16; par.sig = 1; break; case DevFmtUShort: par.bits = 16; par.sig = 0; break; case DevFmtInt: par.bits = 32; par.sig = 1; break; case DevFmtUInt: par.bits = 32; par.sig = 0; break; } par.le = SIO_LE_NATIVE; par.round = mDevice->UpdateSize; par.appbufsz = mDevice->BufferSize - mDevice->UpdateSize; if(!par.appbufsz) par.appbufsz = mDevice->UpdateSize; if(!sio_setpar(mSndHandle, &par) || !sio_getpar(mSndHandle, &par)) { ERR("Failed to set device parameters\n"); return ALC_FALSE; } if(par.bits != par.bps*8) { ERR("Padded samples not supported (%u of %u bits)\n", par.bits, par.bps*8); return ALC_FALSE; } mDevice->Frequency = par.rate; mDevice->FmtChans = ((par.pchan==1) ? DevFmtMono : DevFmtStereo); if(par.bits == 8 && par.sig == 1) mDevice->FmtType = DevFmtByte; else if(par.bits == 8 && par.sig == 0) mDevice->FmtType = DevFmtUByte; else if(par.bits == 16 && par.sig == 1) mDevice->FmtType = DevFmtShort; else if(par.bits == 16 && par.sig == 0) mDevice->FmtType = DevFmtUShort; else if(par.bits == 32 && par.sig == 1) mDevice->FmtType = DevFmtInt; else if(par.bits == 32 && par.sig == 0) mDevice->FmtType = DevFmtUInt; else { ERR("Unhandled sample format: %s %u-bit\n", (par.sig?"signed":"unsigned"), par.bits); return ALC_FALSE; } SetDefaultChannelOrder(mDevice); mDevice->UpdateSize = par.round; mDevice->BufferSize = par.bufsz + par.round; mBuffer.resize(mDevice->UpdateSize * mDevice->frameSizeFromFmt()); std::fill(mBuffer.begin(), mBuffer.end(), 0); return ALC_TRUE; } ALCboolean SndioPlayback::start() { if(!sio_start(mSndHandle)) { ERR("Error starting playback\n"); return ALC_FALSE; } try { mKillNow.store(false, std::memory_order_release); mThread = std::thread{std::mem_fn(&SndioPlayback::mixerProc), this}; return ALC_TRUE; } catch(std::exception& e) { ERR("Could not create playback thread: %s\n", e.what()); } catch(...) { } sio_stop(mSndHandle); return ALC_FALSE; } void SndioPlayback::stop() { if(mKillNow.exchange(true, std::memory_order_acq_rel) || !mThread.joinable()) return; mThread.join(); if(!sio_stop(mSndHandle)) ERR("Error stopping device\n"); } struct SndioCapture final : public BackendBase { SndioCapture(ALCdevice *device) noexcept : BackendBase{device} { } ~SndioCapture() override; int recordProc(); ALCenum open(const ALCchar *name) override; ALCboolean start() override; void stop() override; ALCenum captureSamples(void *buffer, ALCuint samples) override; ALCuint availableSamples() override; sio_hdl *mSndHandle{nullptr}; RingBufferPtr mRing; std::atomic mKillNow{true}; std::thread mThread; DEF_NEWDEL(SndioCapture) }; SndioCapture::~SndioCapture() { if(mSndHandle) sio_close(mSndHandle); mSndHandle = nullptr; } int SndioCapture::recordProc() { SetRTPriority(); althrd_setname(RECORD_THREAD_NAME); const ALuint frameSize{mDevice->frameSizeFromFmt()}; while(!mKillNow.load(std::memory_order_acquire) && mDevice->Connected.load(std::memory_order_acquire)) { auto data = mRing->getWriteVector(); size_t todo{data.first.len + data.second.len}; if(todo == 0) { static char junk[4096]; sio_read(mSndHandle, junk, minz(sizeof(junk)/frameSize, mDevice->UpdateSize)*frameSize); continue; } size_t total{0u}; data.first.len *= frameSize; data.second.len *= frameSize; todo = minz(todo, mDevice->UpdateSize) * frameSize; while(total < todo) { if(!data.first.len) data.first = data.second; size_t got{sio_read(mSndHandle, data.first.buf, minz(todo-total, data.first.len))}; if(!got) { aluHandleDisconnect(mDevice, "Failed to read capture samples"); break; } data.first.buf += got; data.first.len -= got; total += got; } mRing->writeAdvance(total / frameSize); } return 0; } ALCenum SndioCapture::open(const ALCchar *name) { if(!name) name = sndio_device; else if(strcmp(name, sndio_device) != 0) return ALC_INVALID_VALUE; mSndHandle = sio_open(nullptr, SIO_REC, 0); if(mSndHandle == nullptr) { ERR("Could not open device\n"); return ALC_INVALID_VALUE; } sio_par par; sio_initpar(&par); switch(mDevice->FmtType) { case DevFmtByte: par.bps = 1; par.sig = 1; break; case DevFmtUByte: par.bps = 1; par.sig = 0; break; case DevFmtShort: par.bps = 2; par.sig = 1; break; case DevFmtUShort: par.bps = 2; par.sig = 0; break; case DevFmtInt: par.bps = 4; par.sig = 1; break; case DevFmtUInt: par.bps = 4; par.sig = 0; break; case DevFmtFloat: ERR("%s capture samples not supported\n", DevFmtTypeString(mDevice->FmtType)); return ALC_INVALID_VALUE; } par.bits = par.bps * 8; par.le = SIO_LE_NATIVE; par.msb = SIO_LE_NATIVE ? 0 : 1; par.rchan = mDevice->channelsFromFmt(); par.rate = mDevice->Frequency; par.appbufsz = maxu(mDevice->BufferSize, mDevice->Frequency/10); par.round = minu(par.appbufsz, mDevice->Frequency/40); mDevice->UpdateSize = par.round; mDevice->BufferSize = par.appbufsz; if(!sio_setpar(mSndHandle, &par) || !sio_getpar(mSndHandle, &par)) { ERR("Failed to set device parameters\n"); return ALC_INVALID_VALUE; } if(par.bits != par.bps*8) { ERR("Padded samples not supported (%u of %u bits)\n", par.bits, par.bps*8); return ALC_INVALID_VALUE; } if(!((mDevice->FmtType == DevFmtByte && par.bits == 8 && par.sig != 0) || (mDevice->FmtType == DevFmtUByte && par.bits == 8 && par.sig == 0) || (mDevice->FmtType == DevFmtShort && par.bits == 16 && par.sig != 0) || (mDevice->FmtType == DevFmtUShort && par.bits == 16 && par.sig == 0) || (mDevice->FmtType == DevFmtInt && par.bits == 32 && par.sig != 0) || (mDevice->FmtType == DevFmtUInt && par.bits == 32 && par.sig == 0)) || mDevice->channelsFromFmt() != par.rchan || mDevice->Frequency != par.rate) { ERR("Failed to set format %s %s %uhz, got %c%u %u-channel %uhz instead\n", DevFmtTypeString(mDevice->FmtType), DevFmtChannelsString(mDevice->FmtChans), mDevice->Frequency, par.sig?'s':'u', par.bits, par.rchan, par.rate); return ALC_INVALID_VALUE; } mRing = CreateRingBuffer(mDevice->BufferSize, par.bps*par.rchan, false); if(!mRing) { ERR("Failed to allocate %u-byte ringbuffer\n", mDevice->BufferSize*par.bps*par.rchan); return ALC_OUT_OF_MEMORY; } SetDefaultChannelOrder(mDevice); mDevice->DeviceName = name; return ALC_NO_ERROR; } ALCboolean SndioCapture::start() { if(!sio_start(mSndHandle)) { ERR("Error starting playback\n"); return ALC_FALSE; } try { mKillNow.store(false, std::memory_order_release); mThread = std::thread{std::mem_fn(&SndioCapture::recordProc), this}; return ALC_TRUE; } catch(std::exception& e) { ERR("Could not create record thread: %s\n", e.what()); } catch(...) { } sio_stop(mSndHandle); return ALC_FALSE; } void SndioCapture::stop() { if(mKillNow.exchange(true, std::memory_order_acq_rel) || !mThread.joinable()) return; mThread.join(); if(!sio_stop(mSndHandle)) ERR("Error stopping device\n"); } ALCenum SndioCapture::captureSamples(void *buffer, ALCuint samples) { mRing->read(buffer, samples); return ALC_NO_ERROR; } ALCuint SndioCapture::availableSamples() { return static_cast(mRing->readSpace()); } } // namespace BackendFactory &SndIOBackendFactory::getFactory() { static SndIOBackendFactory factory{}; return factory; } bool SndIOBackendFactory::init() { return true; } bool SndIOBackendFactory::querySupport(BackendType type) { return (type == BackendType::Playback || type == BackendType::Capture); } void SndIOBackendFactory::probe(DevProbe type, std::string *outnames) { switch(type) { case DevProbe::Playback: case DevProbe::Capture: /* Includes null char. */ outnames->append(sndio_device, sizeof(sndio_device)); break; } } BackendPtr SndIOBackendFactory::createBackend(ALCdevice *device, BackendType type) { if(type == BackendType::Playback) return BackendPtr{new SndioPlayback{device}}; if(type == BackendType::Capture) return BackendPtr{new SndioCapture{device}}; return nullptr; }