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https://github.com/RGBCube/serenity
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4921561687
Instead of enumerating all available controllers and then ask each to find its audio channels, we change the initialization sequence to match what happens in the Networking subsystem and Graphics subsystem - we essentially probe for a matching driver on a PCI device, create a device instance, and immediately initialize it. This in fact allows us to immediately find any hardware initialization issues and report it, and then dropping the created instance, as usually being done in other initialization paths in the Kernel. This also opens the opportunity to propagate errors when failed to initialize an AudioChannel instance, and it will be addressed in a future commit.
334 lines
14 KiB
C++
334 lines
14 KiB
C++
/*
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* Copyright (c) 2021-2022, Jelle Raaijmakers <jelle@gmta.nl>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Format.h>
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#include <Kernel/Arch/Delay.h>
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#include <Kernel/Devices/Audio/AC97.h>
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#include <Kernel/Devices/DeviceManagement.h>
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#include <Kernel/IOWindow.h>
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#include <Kernel/InterruptDisabler.h>
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#include <Kernel/Memory/AnonymousVMObject.h>
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namespace Kernel {
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static constexpr int buffer_descriptor_list_max_entries = 32;
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static constexpr u16 pcm_default_sample_rate = 44100;
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static constexpr u16 pcm_fixed_sample_rate = 48000;
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// Valid output range - with double-rate enabled, sample rate can go up to 96kHZ
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static constexpr u16 pcm_sample_rate_minimum = 8000;
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static constexpr u16 pcm_sample_rate_maximum = 48000;
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UNMAP_AFTER_INIT ErrorOr<NonnullRefPtr<AudioController>> AC97::create(PCI::DeviceIdentifier const& pci_device_identifier)
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{
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auto mixer_io_window = TRY(IOWindow::create_for_pci_device_bar(pci_device_identifier, PCI::HeaderType0BaseRegister::BAR0));
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auto bus_io_window = TRY(IOWindow::create_for_pci_device_bar(pci_device_identifier, PCI::HeaderType0BaseRegister::BAR1));
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auto pcm_out_channel_io_window = TRY(bus_io_window->create_from_io_window_with_offset(NativeAudioBusChannel::PCMOutChannel));
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auto pcm_out_channel = TRY(AC97Channel::create_with_parent_pci_device(pci_device_identifier.address(), "PCMOut"sv, move(pcm_out_channel_io_window)));
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return TRY(adopt_nonnull_ref_or_enomem(new (nothrow) AC97(pci_device_identifier, move(pcm_out_channel), move(mixer_io_window), move(bus_io_window))));
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}
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UNMAP_AFTER_INIT ErrorOr<bool> AC97::probe(PCI::DeviceIdentifier const& device_identifier)
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{
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VERIFY(device_identifier.class_code().value() == to_underlying(PCI::ClassID::Multimedia));
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return device_identifier.subclass_code().value() == to_underlying(PCI::Multimedia::SubclassID::AudioController);
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}
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UNMAP_AFTER_INIT AC97::AC97(PCI::DeviceIdentifier const& pci_device_identifier, NonnullOwnPtr<AC97Channel> pcm_out_channel, NonnullOwnPtr<IOWindow> mixer_io_window, NonnullOwnPtr<IOWindow> bus_io_window)
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: PCI::Device(const_cast<PCI::DeviceIdentifier&>(pci_device_identifier))
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, IRQHandler(pci_device_identifier.interrupt_line().value())
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, m_mixer_io_window(move(mixer_io_window))
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, m_bus_io_window(move(bus_io_window))
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, m_pcm_out_channel(move(pcm_out_channel))
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{
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}
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UNMAP_AFTER_INIT AC97::~AC97() = default;
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bool AC97::handle_irq(RegisterState const&)
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{
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auto pcm_out_status = m_pcm_out_channel->io_window().read16(AC97Channel::Register::Status);
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dbgln_if(AC97_DEBUG, "AC97 @ {}: interrupt received - status: {:#05b}", device_identifier().address(), pcm_out_status);
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bool is_dma_halted = (pcm_out_status & AudioStatusRegisterFlag::DMAControllerHalted) > 0;
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bool current_equals_last_valid = (pcm_out_status & AudioStatusRegisterFlag::CurrentEqualsLastValid) > 0;
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bool is_completion_interrupt = (pcm_out_status & AudioStatusRegisterFlag::BufferCompletionInterruptStatus) > 0;
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bool is_fifo_error = (pcm_out_status & AudioStatusRegisterFlag::FIFOError) > 0;
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VERIFY(!is_fifo_error);
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// If there is no buffer completion, we're not going to do anything
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if (!is_completion_interrupt)
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return false;
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// On interrupt, we need to reset PCM interrupt flags by setting their bits
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pcm_out_status = AudioStatusRegisterFlag::LastValidBufferCompletionInterrupt
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| AudioStatusRegisterFlag::BufferCompletionInterruptStatus
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| AudioStatusRegisterFlag::FIFOError;
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m_pcm_out_channel->io_window().write16(AC97Channel::Register::Status, pcm_out_status);
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if (is_dma_halted) {
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VERIFY(current_equals_last_valid);
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m_pcm_out_channel->handle_dma_stopped();
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}
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if (!m_irq_queue.is_empty())
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m_irq_queue.wake_all();
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return true;
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}
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UNMAP_AFTER_INIT ErrorOr<void> AC97::initialize(Badge<AudioManagement>)
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{
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dbgln_if(AC97_DEBUG, "AC97 @ {}: mixer base: {:#04x}", device_identifier().address(), m_mixer_io_window);
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dbgln_if(AC97_DEBUG, "AC97 @ {}: bus base: {:#04x}", device_identifier().address(), m_bus_io_window);
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m_audio_channel = AudioChannel::must_create(*this, 0);
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// Read out AC'97 codec revision and vendor
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auto extended_audio_id = m_mixer_io_window->read16(NativeAudioMixerRegister::ExtendedAudioID);
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m_codec_revision = static_cast<AC97Revision>(((extended_audio_id & ExtendedAudioMask::Revision) >> 10) & 0b11);
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dbgln_if(AC97_DEBUG, "AC97 @ {}: codec revision {:#02b}", device_identifier().address(), to_underlying(m_codec_revision));
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if (m_codec_revision == AC97Revision::Reserved)
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return ENOTSUP;
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// Report vendor / device ID
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u32 vendor_id = m_mixer_io_window->read16(NativeAudioMixerRegister::VendorID1) << 16 | m_mixer_io_window->read16(NativeAudioMixerRegister::VendorID2);
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dmesgln_pci(*this, "Vendor ID: {:#8x}", vendor_id);
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// Bus cold reset, enable interrupts
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enable_pin_based_interrupts();
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PCI::enable_bus_mastering(device_identifier());
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auto control = m_bus_io_window->read32(NativeAudioBusRegister::GlobalControl);
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control |= GlobalControlFlag::GPIInterruptEnable;
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control |= GlobalControlFlag::AC97ColdReset;
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m_bus_io_window->write32(NativeAudioBusRegister::GlobalControl, control);
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// Reset mixer
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m_mixer_io_window->write16(NativeAudioMixerRegister::Reset, 1);
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// Enable variable and double rate PCM audio if supported
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auto extended_audio_status = m_mixer_io_window->read16(NativeAudioMixerRegister::ExtendedAudioStatusControl);
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if ((extended_audio_id & ExtendedAudioMask::VariableRatePCMAudio) > 0) {
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extended_audio_status |= ExtendedAudioStatusControlFlag::VariableRateAudio;
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m_variable_rate_pcm_supported = true;
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}
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if (!m_variable_rate_pcm_supported) {
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extended_audio_status &= ~ExtendedAudioStatusControlFlag::DoubleRateAudio;
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} else if ((extended_audio_id & ExtendedAudioMask::DoubleRatePCMAudio) > 0) {
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extended_audio_status |= ExtendedAudioStatusControlFlag::DoubleRateAudio;
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m_double_rate_pcm_enabled = true;
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}
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m_mixer_io_window->write16(NativeAudioMixerRegister::ExtendedAudioStatusControl, extended_audio_status);
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TRY(set_pcm_output_sample_rate(m_variable_rate_pcm_supported ? pcm_default_sample_rate : pcm_fixed_sample_rate));
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// Left and right volume of 0 means attenuation of 0 dB
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set_master_output_volume(0, 0, Muted::No);
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set_pcm_output_volume(0, 0, Muted::No);
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m_pcm_out_channel->reset();
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enable_irq();
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return {};
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}
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void AC97::set_master_output_volume(u8 left_channel, u8 right_channel, Muted mute)
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{
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u16 volume_value = ((right_channel & 63) << 0)
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| ((left_channel & 63) << 8)
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| ((mute == Muted::Yes ? 1 : 0) << 15);
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m_mixer_io_window->write16(NativeAudioMixerRegister::SetMasterOutputVolume, volume_value);
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}
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ErrorOr<void> AC97::set_pcm_output_sample_rate(u32 sample_rate)
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{
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if (m_sample_rate == sample_rate)
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return {};
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auto const double_rate_shift = m_double_rate_pcm_enabled ? 1 : 0;
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auto shifted_sample_rate = sample_rate >> double_rate_shift;
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if (!m_variable_rate_pcm_supported && shifted_sample_rate != pcm_fixed_sample_rate)
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return ENOTSUP;
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if (shifted_sample_rate < pcm_sample_rate_minimum || shifted_sample_rate > pcm_sample_rate_maximum)
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return ENOTSUP;
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m_mixer_io_window->write16(NativeAudioMixerRegister::PCMFrontDACRate, shifted_sample_rate);
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m_sample_rate = static_cast<u32>(m_mixer_io_window->read16(NativeAudioMixerRegister::PCMFrontDACRate)) << double_rate_shift;
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dmesgln_pci(*this, "PCM front DAC rate set to {} Hz", m_sample_rate);
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// Setting the sample rate stops a running DMA engine, so restart it
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if (m_pcm_out_channel->dma_running())
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m_pcm_out_channel->start_dma();
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return {};
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}
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void AC97::set_pcm_output_volume(u8 left_channel, u8 right_channel, Muted mute)
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{
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u16 volume_value = ((right_channel & 31) << 0)
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| ((left_channel & 31) << 8)
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| ((mute == Muted::Yes ? 1 : 0) << 15);
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m_mixer_io_window->write16(NativeAudioMixerRegister::SetPCMOutputVolume, volume_value);
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}
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LockRefPtr<AudioChannel> AC97::audio_channel(u32 index) const
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{
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if (index == 0)
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return m_audio_channel;
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return {};
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}
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ErrorOr<void> AC97::set_pcm_output_sample_rate(size_t channel_index, u32 samples_per_second_rate)
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{
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if (channel_index != 0)
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return ENODEV;
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TRY(set_pcm_output_sample_rate(samples_per_second_rate));
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return {};
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}
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ErrorOr<u32> AC97::get_pcm_output_sample_rate(size_t channel_index)
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{
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if (channel_index != 0)
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return Error::from_errno(ENODEV);
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return m_sample_rate;
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}
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ErrorOr<size_t> AC97::write(size_t channel_index, UserOrKernelBuffer const& data, size_t length)
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{
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if (channel_index != 0)
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return Error::from_errno(ENODEV);
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if (!m_output_buffer)
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m_output_buffer = TRY(MM.allocate_dma_buffer_pages(m_output_buffer_page_count * PAGE_SIZE, "AC97 Output buffer"sv, Memory::Region::Access::Write));
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if (!m_buffer_descriptor_list) {
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size_t buffer_descriptor_list_size = buffer_descriptor_list_max_entries * sizeof(BufferDescriptorListEntry);
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buffer_descriptor_list_size = TRY(Memory::page_round_up(buffer_descriptor_list_size));
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m_buffer_descriptor_list = TRY(MM.allocate_dma_buffer_pages(buffer_descriptor_list_size, "AC97 Buffer Descriptor List"sv, Memory::Region::Access::Write));
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}
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Checked<size_t> remaining = length;
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size_t offset = 0;
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while (remaining > static_cast<size_t>(0)) {
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TRY(write_single_buffer(data, offset, min(remaining.value(), PAGE_SIZE)));
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offset += PAGE_SIZE;
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remaining.saturating_sub(PAGE_SIZE);
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}
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return length;
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}
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ErrorOr<void> AC97::write_single_buffer(UserOrKernelBuffer const& data, size_t offset, size_t length)
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{
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VERIFY(length <= PAGE_SIZE);
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{
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// Block until we can write into an unused buffer
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InterruptDisabler disabler;
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do {
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auto pcm_out_status = m_pcm_out_channel->io_window().read16(AC97Channel::Register::Status);
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auto current_index = m_pcm_out_channel->io_window().read8(AC97Channel::Register::CurrentIndexValue);
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int last_valid_index = m_pcm_out_channel->io_window().read8(AC97Channel::Register::LastValidIndex);
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auto head_distance = last_valid_index - current_index;
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if (head_distance < 0)
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head_distance += buffer_descriptor_list_max_entries;
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if (m_pcm_out_channel->dma_running())
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++head_distance;
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// Current index has _passed_ last valid index - move our list index up
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if (head_distance > m_output_buffer_page_count) {
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m_buffer_descriptor_list_index = current_index + 1;
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break;
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}
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// There is room for our data
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if (head_distance < m_output_buffer_page_count)
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break;
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dbgln_if(AC97_DEBUG, "AC97 @ {}: waiting on interrupt - status: {:#05b} CI: {} LVI: {}", device_identifier().address(), pcm_out_status, current_index, last_valid_index);
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m_irq_queue.wait_forever("AC97"sv);
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} while (m_pcm_out_channel->dma_running());
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}
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// Copy data from userspace into one of our buffers
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TRY(data.read(m_output_buffer->vaddr_from_page_index(m_output_buffer_page_index).as_ptr(), offset, length));
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// Write the next entry to the buffer descriptor list
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u16 number_of_samples = length / sizeof(u16);
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auto list_entries = reinterpret_cast<BufferDescriptorListEntry*>(m_buffer_descriptor_list->vaddr().get());
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auto list_entry = &list_entries[m_buffer_descriptor_list_index];
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list_entry->buffer_pointer = static_cast<u32>(m_output_buffer->physical_page(m_output_buffer_page_index)->paddr().get());
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list_entry->control_and_length = number_of_samples | BufferDescriptorListEntryFlags::InterruptOnCompletion;
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auto buffer_address = static_cast<u32>(m_buffer_descriptor_list->physical_page(0)->paddr().get());
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m_pcm_out_channel->set_last_valid_index(buffer_address, m_buffer_descriptor_list_index);
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if (!m_pcm_out_channel->dma_running())
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m_pcm_out_channel->start_dma();
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m_output_buffer_page_index = (m_output_buffer_page_index + 1) % m_output_buffer_page_count;
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m_buffer_descriptor_list_index = (m_buffer_descriptor_list_index + 1) % buffer_descriptor_list_max_entries;
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return {};
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}
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ErrorOr<NonnullOwnPtr<AC97::AC97Channel>> AC97::AC97Channel::create_with_parent_pci_device(PCI::Address pci_device_address, StringView name, NonnullOwnPtr<IOWindow> channel_io_base)
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) AC97::AC97Channel(pci_device_address, name, move(channel_io_base)));
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}
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void AC97::AC97Channel::handle_dma_stopped()
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{
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dbgln_if(AC97_DEBUG, "AC97 @ {}: channel {}: DMA engine has stopped", m_device_pci_address, name());
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m_dma_running.with([this](auto& dma_running) {
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// NOTE: QEMU might send spurious interrupts while we're not running, so we don't want to panic here.
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if (!dma_running)
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dbgln("AC97 @ {}: received DMA interrupt while it wasn't running", m_device_pci_address);
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dma_running = false;
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});
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}
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void AC97::AC97Channel::reset()
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{
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dbgln_if(AC97_DEBUG, "AC97 @ {}: channel {}: resetting", m_device_pci_address, name());
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m_channel_io_window->write8(Register::Control, AudioControlRegisterFlag::ResetRegisters);
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while ((m_channel_io_window->read8(Register::Control) & AudioControlRegisterFlag::ResetRegisters) > 0)
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microseconds_delay(50);
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m_dma_running.with([](auto& dma_running) {
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dma_running = false;
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});
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}
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void AC97::AC97Channel::set_last_valid_index(u32 buffer_address, u8 last_valid_index)
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{
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dbgln_if(AC97_DEBUG, "AC97 @ {}: channel {}: setting buffer address: {:#x} LVI: {}", m_device_pci_address, name(), buffer_address, last_valid_index);
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m_channel_io_window->write32(Register::BufferDescriptorListBaseAddress, buffer_address);
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m_channel_io_window->write8(Register::LastValidIndex, last_valid_index);
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}
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void AC97::AC97Channel::start_dma()
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{
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dbgln_if(AC97_DEBUG, "AC97 @ {}: channel {}: starting DMA engine", m_device_pci_address, name());
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auto control = m_channel_io_window->read8(Register::Control);
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control |= AudioControlRegisterFlag::RunPauseBusMaster;
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control |= AudioControlRegisterFlag::FIFOErrorInterruptEnable;
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control |= AudioControlRegisterFlag::InterruptOnCompletionEnable;
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m_channel_io_window->write8(Register::Control, control);
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m_dma_running.with([](auto& dma_running) {
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dma_running = true;
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});
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}
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}
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