ladybird/Userland/Libraries/LibWeb/Platform/AudioCodecPluginAgnostic.cpp
Zaggy1024 d64ffb1b9b LibWeb: Output audio in stereo regardless of the encoded channel count
Audio loaders currently always output two channels, even if they were
encoded as mono. Therefore, we have to hardcode the channel count in
our audio plugin to avoid crashing until we can handle mono or multi-
channel audio better.

Fixes #21898
2023-11-12 07:57:03 +01:00

176 lines
6.6 KiB
C++

/*
* Copyright (c) 2023, Gregory Bertilson <zaggy1024@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/MemoryStream.h>
#include <AK/WeakPtr.h>
#include <LibAudio/Loader.h>
#include <LibCore/EventLoop.h>
#include <LibCore/ThreadedPromise.h>
#include <LibCore/Timer.h>
#include "AudioCodecPluginAgnostic.h"
namespace Web::Platform {
constexpr int update_interval = 50;
static Duration timestamp_from_samples(i64 samples, u32 sample_rate)
{
return Duration::from_milliseconds(samples * 1000 / sample_rate);
}
static Duration get_loader_timestamp(NonnullRefPtr<Audio::Loader> const& loader)
{
return timestamp_from_samples(loader->loaded_samples(), loader->sample_rate());
}
ErrorOr<NonnullOwnPtr<AudioCodecPluginAgnostic>> AudioCodecPluginAgnostic::create(NonnullRefPtr<Audio::Loader> const& loader)
{
auto duration = timestamp_from_samples(loader->total_samples(), loader->sample_rate());
auto update_timer = TRY(Core::Timer::try_create());
update_timer->set_interval(update_interval);
auto plugin = TRY(adopt_nonnull_own_or_enomem(new (nothrow) AudioCodecPluginAgnostic(loader, duration, move(update_timer))));
constexpr u32 latency_ms = 100;
// FIXME: Audio loaders are hard-coded to output stereo audio. Once that changes, the channel count provided
// below should be retrieved from the audio loader instead of being hard-coded to 2.
RefPtr<Audio::PlaybackStream> output = TRY(Audio::PlaybackStream::create(
Audio::OutputState::Suspended, loader->sample_rate(), /* channels = */ 2, latency_ms,
[&plugin = *plugin, loader](Bytes buffer, Audio::PcmSampleFormat format, size_t sample_count) -> ReadonlyBytes {
VERIFY(format == Audio::PcmSampleFormat::Float32);
auto samples = loader->get_more_samples(sample_count).release_value_but_fixme_should_propagate_errors();
VERIFY(samples.size() <= sample_count);
FixedMemoryStream writing_stream { buffer };
for (auto& sample : samples) {
MUST(writing_stream.write_value(sample.left));
MUST(writing_stream.write_value(sample.right));
}
// FIXME: Check if we have loaded samples past the current known duration, and if so, update it
// and notify the media element.
return buffer.trim(writing_stream.offset());
}));
output->set_underrun_callback([&plugin = *plugin, loader, output]() {
auto new_device_time = output->total_time_played().release_value_but_fixme_should_propagate_errors();
auto new_media_time = timestamp_from_samples(loader->loaded_samples(), loader->sample_rate());
plugin.m_main_thread_event_loop.deferred_invoke([&plugin, new_device_time, new_media_time]() {
plugin.m_last_resume_in_device_time = new_device_time;
plugin.m_last_resume_in_media_time = new_media_time;
});
});
plugin->m_output = move(output);
return plugin;
}
AudioCodecPluginAgnostic::AudioCodecPluginAgnostic(NonnullRefPtr<Audio::Loader> loader, Duration duration, NonnullRefPtr<Core::Timer> update_timer)
: m_loader(move(loader))
, m_duration(duration)
, m_main_thread_event_loop(Core::EventLoop::current())
, m_update_timer(move(update_timer))
{
m_update_timer->on_timeout = [this]() {
update_timestamp();
};
}
void AudioCodecPluginAgnostic::resume_playback()
{
m_paused = false;
m_output->resume()
->when_resolved([this](Duration new_device_time) {
m_main_thread_event_loop.deferred_invoke([this, new_device_time]() {
m_last_resume_in_device_time = new_device_time;
m_update_timer->start();
});
})
.when_rejected([](Error&&) {
// FIXME: Propagate errors.
});
}
void AudioCodecPluginAgnostic::pause_playback()
{
m_paused = true;
m_output->drain_buffer_and_suspend()
->when_resolved([this]() -> ErrorOr<void> {
auto new_media_time = timestamp_from_samples(m_loader->loaded_samples(), m_loader->sample_rate());
auto new_device_time = TRY(m_output->total_time_played());
m_main_thread_event_loop.deferred_invoke([this, new_media_time, new_device_time]() {
m_last_resume_in_media_time = new_media_time;
m_last_resume_in_device_time = new_device_time;
m_update_timer->stop();
update_timestamp();
});
return {};
})
.when_rejected([](Error&&) {
// FIXME: Propagate errors.
});
}
void AudioCodecPluginAgnostic::set_volume(double volume)
{
m_output->set_volume(volume)->when_rejected([](Error&&) {
// FIXME: Propagate errors.
});
}
void AudioCodecPluginAgnostic::seek(double position)
{
m_output->discard_buffer_and_suspend()
->when_resolved([this, position, was_paused = m_paused]() -> ErrorOr<void> {
auto sample_position = static_cast<i32>(position * m_loader->sample_rate());
auto seek_result = m_loader->seek(sample_position);
if (seek_result.is_error())
return Error::from_string_literal("Seeking in audio loader failed");
auto new_media_time = get_loader_timestamp(m_loader);
auto new_device_time = m_output->total_time_played().release_value_but_fixme_should_propagate_errors();
m_main_thread_event_loop.deferred_invoke([this, was_paused, new_device_time, new_media_time]() {
m_last_resume_in_device_time = new_device_time;
m_last_resume_in_media_time = new_media_time;
if (was_paused) {
update_timestamp();
} else {
m_output->resume()->when_rejected([](Error&&) {
// FIXME: Propagate errors.
});
}
});
return {};
})
.when_rejected([](Error&&) {
// FIXME: Propagate errors.
});
}
Duration AudioCodecPluginAgnostic::duration()
{
return m_duration;
}
void AudioCodecPluginAgnostic::update_timestamp()
{
auto current_device_time_result = m_output->total_time_played();
if (!current_device_time_result.is_error())
m_last_good_device_time = current_device_time_result.release_value();
auto current_device_time_delta = m_last_good_device_time - m_last_resume_in_device_time;
auto current_media_time = m_last_resume_in_media_time + current_device_time_delta;
current_media_time = min(current_media_time, m_duration);
on_playback_position_updated(current_media_time);
}
}