/* * Copyright (C) 2010 Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #if ENABLE(WEB_AUDIO) #include "AudioDestinationChromium.h" #include "WebKit.h" #include "platform/WebKitPlatformSupport.h" using namespace WebKit; namespace WebCore { // Buffer size at which the web audio engine will render. const unsigned renderBufferSize = 128; // Size of the FIFO const size_t fifoSize = 8192; // FIXME: add support for multi-channel. const unsigned numberOfChannels = 2; // Factory method: Chromium-implementation PassOwnPtr AudioDestination::create(AudioSourceProvider& provider, float sampleRate) { return adoptPtr(new AudioDestinationChromium(provider, sampleRate)); } AudioDestinationChromium::AudioDestinationChromium(AudioSourceProvider& provider, float sampleRate) : m_provider(provider) , m_renderBus(numberOfChannels, renderBufferSize, false) , m_sampleRate(sampleRate) , m_isPlaying(false) { // Use the optimal buffer size recommended by the audio backend. m_callbackBufferSize = webKitPlatformSupport()->audioHardwareBufferSize(); // Quick exit if the requested size is too large. ASSERT(m_callbackBufferSize + renderBufferSize <= fifoSize); if (m_callbackBufferSize + renderBufferSize > fifoSize) return; m_audioDevice = adoptPtr(webKitPlatformSupport()->createAudioDevice(m_callbackBufferSize, numberOfChannels, sampleRate, this)); ASSERT(m_audioDevice); // Create a FIFO to handle the possibility of the callback size // not being a multiple of the render size. If the FIFO already // contains enough data, the data will be provided directly. // Otherwise, the FIFO will call the provider enough times to // satisfy the request for data. m_fifo = adoptPtr(new FIFO(provider, numberOfChannels, fifoSize, renderBufferSize)); } AudioDestinationChromium::~AudioDestinationChromium() { stop(); } void AudioDestinationChromium::start() { if (!m_isPlaying && m_audioDevice) { m_audioDevice->start(); m_isPlaying = true; } } void AudioDestinationChromium::stop() { if (m_isPlaying && m_audioDevice) { m_audioDevice->stop(); m_isPlaying = false; } } float AudioDestination::hardwareSampleRate() { return static_cast(webKitPlatformSupport()->audioHardwareSampleRate()); } // Pulls on our provider to get the rendered audio stream. void AudioDestinationChromium::render(const WebVector& audioData, size_t numberOfFrames) { bool isNumberOfChannelsGood = audioData.size() == numberOfChannels; if (!isNumberOfChannelsGood) { ASSERT_NOT_REACHED(); return; } bool isBufferSizeGood = numberOfFrames == m_callbackBufferSize; if (!isBufferSizeGood) { ASSERT_NOT_REACHED(); return; } m_renderBus.setChannelMemory(0, audioData[0], numberOfFrames); m_renderBus.setChannelMemory(1, audioData[1], numberOfFrames); m_fifo->consume(&m_renderBus, numberOfFrames); } AudioDestinationChromium::FIFO::FIFO(AudioSourceProvider& provider, unsigned numberOfChannels, size_t fifoLength, size_t providerSize) : m_provider(provider) , m_fifoAudioBus(numberOfChannels, fifoLength) , m_fifoLength(fifoLength) , m_framesInFifo(0) , m_readIndex(0) , m_writeIndex(0) , m_providerSize(providerSize) , m_tempBus(numberOfChannels, providerSize) { } void AudioDestinationChromium::FIFO::consume(AudioBus* destination, size_t framesToConsume) { bool isGood = destination && (framesToConsume <= m_fifoLength); ASSERT(isGood); if (!isGood) return; if (framesToConsume > m_framesInFifo) { // We don't have enough data in the FIFO to fulfill the // request. Ask for more data. fillBuffer(framesToConsume - m_framesInFifo); } // We have enough data now. Copy the requested number of samples // to the destination. size_t part1Length; size_t part2Length; findWrapLengths(m_readIndex, framesToConsume, part1Length, part2Length); size_t numberOfChannels = m_fifoAudioBus.numberOfChannels(); for (size_t channelIndex = 0; channelIndex < numberOfChannels; ++channelIndex) { float* destinationData = destination->channel(channelIndex)->data(); float* sourceData = m_fifoAudioBus.channel(channelIndex)->data(); bool isCopyGood = ((m_readIndex < m_fifoLength) && (m_readIndex + part1Length) <= m_fifoLength && (part1Length <= destination->length()) && (part1Length + part2Length) <= destination->length()); ASSERT(isCopyGood); if (!isCopyGood) return; memcpy(destinationData, sourceData + m_readIndex, part1Length * sizeof(*sourceData)); // Handle wrap around of the FIFO, if needed. if (part2Length > 0) memcpy(destinationData + part1Length, sourceData, part2Length * sizeof(*sourceData)); } m_readIndex = updateIndex(m_readIndex, framesToConsume); m_framesInFifo -= framesToConsume; ASSERT(m_framesInFifo >= 0); } void AudioDestinationChromium::FIFO::findWrapLengths(size_t index, size_t size, size_t& part1Length, size_t& part2Length) { ASSERT(index < m_fifoLength && size <= m_fifoLength); if (index < m_fifoLength && size <= m_fifoLength) { if (index + size > m_fifoLength) { // Need to wrap. Figure out the length of each piece. part1Length = m_fifoLength - index; part2Length = size - part1Length; } else { // No wrap needed. part1Length = size; part2Length = 0; } } else { // Invalid values for index or size. Set the part lengths to // zero so nothing is copied. part1Length = 0; part2Length = 0; } } void AudioDestinationChromium::FIFO::fillBuffer(size_t numberOfFrames) { // Keep asking the provider to give us data until we have received // at least |numberOfFrames| of data. Stuff the data into the // FIFO. size_t framesProvided = 0; while (framesProvided < numberOfFrames) { m_provider.provideInput(&m_tempBus, m_providerSize); size_t part1Length; size_t part2Length; findWrapLengths(m_writeIndex, m_providerSize, part1Length, part2Length); size_t numberOfChannels = m_fifoAudioBus.numberOfChannels(); for (size_t channelIndex = 0; channelIndex < numberOfChannels; ++channelIndex) { float* destination = m_fifoAudioBus.channel(channelIndex)->data(); float* source = m_tempBus.channel(channelIndex)->data(); bool isCopyGood = (part1Length <= m_providerSize && (part1Length + part2Length) <= m_providerSize && (m_writeIndex < m_fifoLength) && (m_writeIndex + part1Length) <= m_fifoLength && part2Length < m_fifoLength); ASSERT(isCopyGood); if (!isCopyGood) return; memcpy(destination + m_writeIndex, source, part1Length * sizeof(*destination)); // Handle wrap around of the FIFO, if needed. if (part2Length > 0) memcpy(destination, source + part1Length, part2Length * sizeof(*destination)); } m_framesInFifo += m_providerSize; ASSERT(m_framesInFifo <= m_fifoLength); m_writeIndex = updateIndex(m_writeIndex, m_providerSize); framesProvided += m_providerSize; } } } // namespace WebCore #endif // ENABLE(WEB_AUDIO)