/*
* Copyright (c) 2023, Gregory Bertilson <zaggy1024@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "PlaybackStreamPulseAudio.h"
#include <LibCore/ThreadedPromise.h>
namespace Audio {
#define TRY_OR_EXIT_THREAD(expression) \
({ \
auto&& __temporary_result = (expression); \
if (__temporary_result.is_error()) [[unlikely]] { \
warnln("Failure in PulseAudio control thread: {}", __temporary_result.error().string_literal()); \
internal_state->exit(); \
return 1; \
} \
__temporary_result.release_value(); \
})
ErrorOr<NonnullRefPtr<PlaybackStream>> PlaybackStreamPulseAudio::create(OutputState initial_state, u32 sample_rate, u8 channels, u32 target_latency_ms, AudioDataRequestCallback&& data_request_callback)
{
VERIFY(data_request_callback);
// Create an internal state for the control thread to hold on to.
auto internal_state = TRY(adopt_nonnull_ref_or_enomem(new (nothrow) InternalState()));
auto playback_stream = TRY(adopt_nonnull_ref_or_enomem(new (nothrow) PlaybackStreamPulseAudio(internal_state)));
// Create the control thread and start it.
auto thread = TRY(Threading::Thread::try_create([=, data_request_callback = move(data_request_callback)]() mutable {
auto context = TRY_OR_EXIT_THREAD(PulseAudioContext::instance());
internal_state->set_stream(TRY_OR_EXIT_THREAD(context->create_stream(initial_state, sample_rate, channels, target_latency_ms, [data_request_callback = move(data_request_callback)](PulseAudioStream&, Bytes buffer, size_t sample_count) {
return data_request_callback(buffer, PcmSampleFormat::Float32, sample_count);
})));
// PulseAudio retains the last volume it sets for an application. We want to consistently
// start at 100% volume instead.
TRY_OR_EXIT_THREAD(internal_state->stream()->set_volume(1.0));
internal_state->thread_loop();
return 0;
},
"Audio::PlaybackStream"sv));
thread->start();
thread->detach();
return playback_stream;
}
PlaybackStreamPulseAudio::PlaybackStreamPulseAudio(NonnullRefPtr<InternalState> state)
: m_state(move(state))
{
}
PlaybackStreamPulseAudio::~PlaybackStreamPulseAudio()
{
m_state->exit();
}
#define TRY_OR_REJECT(expression, ...) \
({ \
auto&& __temporary_result = (expression); \
if (__temporary_result.is_error()) [[unlikely]] { \
promise->reject(__temporary_result.release_error()); \
return __VA_ARGS__; \
} \
__temporary_result.release_value(); \
})
void PlaybackStreamPulseAudio::set_underrun_callback(Function<void()> callback)
{
m_state->enqueue([this, callback = move(callback)]() mutable {
m_state->stream()->set_underrun_callback(move(callback));
});
}
NonnullRefPtr<Core::ThreadedPromise<Duration>> PlaybackStreamPulseAudio::resume()
{
auto promise = Core::ThreadedPromise<Duration>::create();
TRY_OR_REJECT(m_state->check_is_running(), promise);
m_state->enqueue([this, promise]() {
TRY_OR_REJECT(m_state->stream()->resume());
promise->resolve(TRY_OR_REJECT(m_state->stream()->total_time_played()));
});
return promise;
}
NonnullRefPtr<Core::ThreadedPromise<void>> PlaybackStreamPulseAudio::drain_buffer_and_suspend()
{
auto promise = Core::ThreadedPromise<void>::create();
TRY_OR_REJECT(m_state->check_is_running(), promise);
m_state->enqueue([this, promise]() {
TRY_OR_REJECT(m_state->stream()->drain_and_suspend());
promise->resolve();
});
return promise;
}
NonnullRefPtr<Core::ThreadedPromise<void>> PlaybackStreamPulseAudio::discard_buffer_and_suspend()
{
auto promise = Core::ThreadedPromise<void>::create();
TRY_OR_REJECT(m_state->check_is_running(), promise);
m_state->enqueue([this, promise]() {
TRY_OR_REJECT(m_state->stream()->flush_and_suspend());
promise->resolve();
});
return promise;
}
ErrorOr<Duration> PlaybackStreamPulseAudio::total_time_played()
{
if (m_state->stream() != nullptr)
return m_state->stream()->total_time_played();
return Duration::zero();
}
NonnullRefPtr<Core::ThreadedPromise<void>> PlaybackStreamPulseAudio::set_volume(double volume)
{
auto promise = Core::ThreadedPromise<void>::create();
TRY_OR_REJECT(m_state->check_is_running(), promise);
m_state->enqueue([this, promise, volume]() {
TRY_OR_REJECT(m_state->stream()->set_volume(volume));
promise->resolve();
});
return promise;
}
ErrorOr<void> PlaybackStreamPulseAudio::InternalState::check_is_running()
{
if (m_exit)
return Error::from_string_literal("PulseAudio control thread loop is not running");
return {};
}
void PlaybackStreamPulseAudio::InternalState::set_stream(NonnullRefPtr<PulseAudioStream> const& stream)
{
m_stream = stream;
}
RefPtr<PulseAudioStream> PlaybackStreamPulseAudio::InternalState::stream()
{
return m_stream;
}
void PlaybackStreamPulseAudio::InternalState::enqueue(Function<void()>&& task)
{
Threading::MutexLocker locker { m_mutex };
m_tasks.enqueue(forward<Function<void()>>(task));
m_wake_condition.signal();
}
void PlaybackStreamPulseAudio::InternalState::thread_loop()
{
while (true) {
auto task = [this]() -> Function<void()> {
Threading::MutexLocker locker { m_mutex };
while (m_tasks.is_empty() && !m_exit)
m_wake_condition.wait();
if (m_exit)
return nullptr;
return m_tasks.dequeue();
}();
if (!task) {
VERIFY(m_exit);
break;
}
task();
}
}
void PlaybackStreamPulseAudio::InternalState::exit()
{
m_exit = true;
m_wake_condition.signal();
}
}
