Fixed some sound and threading issues.

Details:
* Switched SDL audio mutex to RW lock. This fixes games that continiously call SetVolume in a different thread (like Ghostbusters)
* Added contition to buffer audio packets independent of video packets. This fixes choppy audio across many games.
* Increased the number of audio frame buffers from 2 to 4. Just in case.
* Migrated to std::jthread and std::mutex from pthreads.
* Fixed a race condition with joins on avplayer close that caused a crash.
This commit is contained in:
Vladislav Mikhalin 2024-08-14 21:30:44 +03:00
parent e33ff10212
commit 0d6e8e227a
17 changed files with 231 additions and 481 deletions

View File

@ -13,7 +13,7 @@ namespace Audio {
int SDLAudio::AudioOutOpen(int type, u32 samples_num, u32 freq, int SDLAudio::AudioOutOpen(int type, u32 samples_num, u32 freq,
Libraries::AudioOut::OrbisAudioOutParamFormat format) { Libraries::AudioOut::OrbisAudioOutParamFormat format) {
using Libraries::AudioOut::OrbisAudioOutParamFormat; using Libraries::AudioOut::OrbisAudioOutParamFormat;
std::scoped_lock lock{m_mutex}; std::unique_lock lock{m_mutex};
for (int id = 0; id < portsOut.size(); id++) { for (int id = 0; id < portsOut.size(); id++) {
auto& port = portsOut[id]; auto& port = portsOut[id];
if (!port.isOpen) { if (!port.isOpen) {
@ -88,7 +88,7 @@ int SDLAudio::AudioOutOpen(int type, u32 samples_num, u32 freq,
} }
s32 SDLAudio::AudioOutOutput(s32 handle, const void* ptr) { s32 SDLAudio::AudioOutOutput(s32 handle, const void* ptr) {
std::scoped_lock lock{m_mutex}; std::shared_lock lock{m_mutex};
auto& port = portsOut[handle - 1]; auto& port = portsOut[handle - 1];
if (!port.isOpen) { if (!port.isOpen) {
return ORBIS_AUDIO_OUT_ERROR_INVALID_PORT; return ORBIS_AUDIO_OUT_ERROR_INVALID_PORT;
@ -109,7 +109,7 @@ s32 SDLAudio::AudioOutOutput(s32 handle, const void* ptr) {
bool SDLAudio::AudioOutSetVolume(s32 handle, s32 bitflag, s32* volume) { bool SDLAudio::AudioOutSetVolume(s32 handle, s32 bitflag, s32* volume) {
using Libraries::AudioOut::OrbisAudioOutParamFormat; using Libraries::AudioOut::OrbisAudioOutParamFormat;
std::scoped_lock lock{m_mutex}; std::shared_lock lock{m_mutex};
auto& port = portsOut[handle - 1]; auto& port = portsOut[handle - 1];
if (!port.isOpen) { if (!port.isOpen) {
return ORBIS_AUDIO_OUT_ERROR_INVALID_PORT; return ORBIS_AUDIO_OUT_ERROR_INVALID_PORT;
@ -147,7 +147,7 @@ bool SDLAudio::AudioOutSetVolume(s32 handle, s32 bitflag, s32* volume) {
} }
bool SDLAudio::AudioOutGetStatus(s32 handle, int* type, int* channels_num) { bool SDLAudio::AudioOutGetStatus(s32 handle, int* type, int* channels_num) {
std::scoped_lock lock{m_mutex}; std::shared_lock lock{m_mutex};
auto& port = portsOut[handle - 1]; auto& port = portsOut[handle - 1];
*type = port.type; *type = port.type;
*channels_num = port.channels_num; *channels_num = port.channels_num;

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@ -3,7 +3,7 @@
#pragma once #pragma once
#include <mutex> #include <shared_mutex>
#include <SDL3/SDL_audio.h> #include <SDL3/SDL_audio.h>
#include "core/libraries/audio/audioout.h" #include "core/libraries/audio/audioout.h"
@ -32,7 +32,7 @@ private:
int volume[8] = {}; int volume[8] = {};
SDL_AudioStream* stream = nullptr; SDL_AudioStream* stream = nullptr;
}; };
std::mutex m_mutex; std::shared_mutex m_mutex;
std::array<PortOut, 22> portsOut; // main up to 8 ports , BGM 1 port , voice up to 4 ports , std::array<PortOut, 22> portsOut; // main up to 8 ports , BGM 1 port , voice up to 4 ports ,
// personal up to 4 ports , padspk up to 5 ports , aux 1 port // personal up to 4 ports , padspk up to 5 ports , aux 1 port
}; };

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@ -234,7 +234,7 @@ int PS4_SYSV_ABI sceAudioOutGetSystemState() {
} }
int PS4_SYSV_ABI sceAudioOutInit() { int PS4_SYSV_ABI sceAudioOutInit() {
LOG_INFO(Lib_AudioOut, "called"); LOG_TRACE(Lib_AudioOut, "called");
if (audio != nullptr) { if (audio != nullptr) {
return ORBIS_AUDIO_OUT_ERROR_ALREADY_INIT; return ORBIS_AUDIO_OUT_ERROR_ALREADY_INIT;
} }
@ -323,12 +323,10 @@ int PS4_SYSV_ABI sceAudioOutOpenEx() {
} }
s32 PS4_SYSV_ABI sceAudioOutOutput(s32 handle, const void* ptr) { s32 PS4_SYSV_ABI sceAudioOutOutput(s32 handle, const void* ptr) {
LOG_TRACE(Lib_AudioOut, "called");
return audio->AudioOutOutput(handle, ptr); return audio->AudioOutOutput(handle, ptr);
} }
int PS4_SYSV_ABI sceAudioOutOutputs(OrbisAudioOutOutputParam* param, u32 num) { int PS4_SYSV_ABI sceAudioOutOutputs(OrbisAudioOutOutputParam* param, u32 num) {
LOG_TRACE(Lib_AudioOut, "called");
for (u32 i = 0; i < num; i++) { for (u32 i = 0; i < num; i++) {
if (auto err = audio->AudioOutOutput(param[i].handle, param[i].ptr); err != 0) if (auto err = audio->AudioOutOutput(param[i].handle, param[i].ptr); err != 0)
return err; return err;

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@ -11,8 +11,6 @@
#include <algorithm> // std::max, std::min #include <algorithm> // std::max, std::min
#include <stdarg.h> // va_list
namespace Libraries::AvPlayer { namespace Libraries::AvPlayer {
using namespace Kernel; using namespace Kernel;
@ -140,17 +138,7 @@ SceAvPlayerHandle PS4_SYSV_ABI sceAvPlayerInit(SceAvPlayerInitData* data) {
return nullptr; return nullptr;
} }
ThreadPriorities priorities{}; return new AvPlayer(*data);
const u32 base_priority = data->base_priority != 0 ? data->base_priority : 700;
priorities.video_decoder_priority = GetPriority(base_priority, 5);
priorities.audio_decoder_priority = GetPriority(base_priority, 6);
priorities.demuxer_priority = GetPriority(base_priority, 9);
priorities.controller_priority = GetPriority(base_priority, 2);
// priorities.http_streaming_priority = GetPriority(base_priority, 10);
// priorities.file_streaming_priority = GetPriority(priorities.http_streaming_priority, 15);
// priorities.maxPriority = priorities.http_streaming_priority;
return new AvPlayer(*data, priorities);
} }
s32 PS4_SYSV_ABI sceAvPlayerInitEx(const SceAvPlayerInitDataEx* p_data, s32 PS4_SYSV_ABI sceAvPlayerInitEx(const SceAvPlayerInitDataEx* p_data,
@ -176,56 +164,7 @@ s32 PS4_SYSV_ABI sceAvPlayerInitEx(const SceAvPlayerInitDataEx* p_data,
data.num_output_video_framebuffers = p_data->num_output_video_framebuffers; data.num_output_video_framebuffers = p_data->num_output_video_framebuffers;
data.auto_start = p_data->auto_start; data.auto_start = p_data->auto_start;
ThreadPriorities priorities{}; *p_player = new AvPlayer(data);
s32 base_priority = 0;
const auto res = scePthreadGetprio(scePthreadSelf(), &base_priority);
if (res != 0 || base_priority == 0) {
base_priority = 700;
}
if (p_data->video_decoder_priority != 0) {
priorities.video_decoder_priority = p_data->video_decoder_priority;
} else {
priorities.video_decoder_priority = GetPriority(base_priority, 5);
}
priorities.video_decoder_affinity = p_data->video_decoder_affinity;
if (p_data->audio_decoder_priority != 0) {
priorities.audio_decoder_priority = p_data->audio_decoder_priority;
} else {
priorities.audio_decoder_priority = GetPriority(base_priority, 6);
}
priorities.audio_decoder_affinity = p_data->audio_decoder_affinity;
if (p_data->controller_priority != 0) {
priorities.controller_priority = p_data->controller_priority;
} else {
priorities.controller_priority = GetPriority(base_priority, 2);
}
priorities.controller_affinity = p_data->controller_affinity;
if (p_data->demuxer_priority != 0) {
priorities.demuxer_priority = p_data->demuxer_priority;
} else {
priorities.demuxer_priority = GetPriority(base_priority, 9);
}
priorities.demuxer_affinity = p_data->demuxer_affinity;
// if (p_data->http_streaming_priority != 0) {
// priorities.http_streaming_priority = p_data->http_streaming_priority;
// } else {
// priorities.http_streaming_priority = GetPriority(base_priority, 10);
// }
// priorities.http_streaming_affinity = p_data->http_streaming_affinity;
// if (p_data->file_streaming_priority != 0) {
// priorities.file_streaming_priority = p_data->file_streaming_priority;
// } else {
// priorities.file_streaming_priority = GetPriority(base_priority, 15);
// }
// priorities.http_streaming_affinity = p_data->http_streaming_affinity;
*p_player = new AvPlayer(data, priorities);
return ORBIS_OK; return ORBIS_OK;
} }
@ -320,7 +259,7 @@ s32 PS4_SYSV_ABI sceAvPlayerStart(SceAvPlayerHandle handle) {
} }
s32 PS4_SYSV_ABI sceAvPlayerStop(SceAvPlayerHandle handle) { s32 PS4_SYSV_ABI sceAvPlayerStop(SceAvPlayerHandle handle) {
LOG_ERROR(Lib_AvPlayer, "(STUBBED) called"); LOG_TRACE(Lib_AvPlayer, "called");
if (handle == nullptr) { if (handle == nullptr) {
return ORBIS_AVPLAYER_ERROR_INVALID_PARAMS; return ORBIS_AVPLAYER_ERROR_INVALID_PARAMS;
} }

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@ -5,6 +5,7 @@
#include "common/types.h" #include "common/types.h"
#include <stdarg.h> // va_list
#include <stddef.h> // size_t #include <stddef.h> // size_t
namespace Core::Loader { namespace Core::Loader {

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@ -12,65 +12,6 @@ namespace Libraries::AvPlayer {
using namespace Kernel; using namespace Kernel;
Kernel::ScePthreadMutex CreateMutex(int type, const char* name) {
ScePthreadMutexattr attr{};
ScePthreadMutex mutex{};
if (scePthreadMutexattrInit(&attr) == 0) {
if (scePthreadMutexattrSettype(&attr, type) == 0) {
if (scePthreadMutexInit(&mutex, &attr, name) != 0) {
if (mutex != nullptr) {
scePthreadMutexDestroy(&mutex);
}
return nullptr;
}
}
}
if (attr != nullptr) {
scePthreadMutexattrDestroy(&attr);
}
return mutex;
}
ScePthread CreateThread(Kernel::PthreadEntryFunc func, const ThreadParameters& params) {
ScePthreadAttr attr;
if (scePthreadAttrInit(&attr) != 0) {
return nullptr;
}
if (scePthreadAttrSetinheritsched(&attr, 0) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
SceKernelSchedParam param{.sched_priority = static_cast<int>(params.priority)};
if (scePthreadAttrSetschedparam(&attr, &param) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
if (scePthreadAttrSetstacksize(&attr, std::min(params.stack_size, 0x4000u)) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
if (scePthreadAttrSetdetachstate(&attr, 0) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
if (params.affinity > 0) {
if (scePthreadAttrSetaffinity(&attr, params.affinity) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
}
ScePthread thread{};
if (scePthreadCreate(&thread, &attr, func, params.p_user_data, params.thread_name) != 0) {
scePthreadAttrDestroy(&attr);
return nullptr;
}
scePthreadAttrDestroy(&attr);
return thread;
}
static bool ichar_equals(char a, char b) { static bool ichar_equals(char a, char b) {
return std::tolower(static_cast<unsigned char>(a)) == return std::tolower(static_cast<unsigned char>(a)) ==
std::tolower(static_cast<unsigned char>(b)); std::tolower(static_cast<unsigned char>(b));

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@ -31,9 +31,6 @@ enum class AvState {
C0x0B, C0x0B,
Buffering, Buffering,
Starting, Starting,
C0x0E,
C0x0F,
C0x10,
Error, Error,
}; };
@ -45,23 +42,6 @@ enum class AvEventType {
Error = 255, Error = 255,
}; };
struct ThreadPriorities {
u32 audio_decoder_priority;
u32 audio_decoder_affinity;
u32 video_decoder_priority;
u32 video_decoder_affinity;
u32 demuxer_priority;
u32 demuxer_affinity;
u32 controller_priority;
u32 controller_affinity;
// u32 http_streaming_priority;
// u32 http_streaming_affinity;
// u32 file_streaming_priority;
// u32 file_streaming_affinity;
// u32 maxPriority;
// u32 maxAffinity;
};
union AvPlayerEventData { union AvPlayerEventData {
u32 num_frames; // 20 u32 num_frames; // 20
AvState state; // AvEventType::ChangeFlowState AvState state; // AvEventType::ChangeFlowState
@ -74,68 +54,9 @@ struct AvPlayerEvent {
AvPlayerEventData payload; AvPlayerEventData payload;
}; };
Kernel::ScePthreadMutex CreateMutex(int type, const char* name);
class PthreadMutex {
public:
using ScePthreadMutex = Kernel::ScePthreadMutex;
PthreadMutex() = default;
PthreadMutex(const PthreadMutex&) = delete;
PthreadMutex& operator=(const PthreadMutex&) = delete;
PthreadMutex(PthreadMutex&& r) : m_mutex(r.m_mutex) {
r.m_mutex = nullptr;
}
PthreadMutex& operator=(PthreadMutex&& r) {
std::swap(m_mutex, r.m_mutex);
return *this;
}
PthreadMutex(int type, const char* name) : m_mutex(CreateMutex(type, name)) {}
~PthreadMutex() {
if (m_mutex != nullptr) {
Kernel::scePthreadMutexDestroy(&m_mutex);
}
}
operator ScePthreadMutex() {
return m_mutex;
}
int Lock() {
return Kernel::scePthreadMutexLock(&m_mutex);
}
int Unlock() {
return Kernel::scePthreadMutexUnlock(&m_mutex);
}
// implement BasicLockable to use std::lock_guard
// NOLINTNEXTLINE(readability-identifier-naming)
void lock() {
ASSERT_MSG(Lock() >= 0, "Could not lock the mutex");
}
// NOLINTNEXTLINE(readability-identifier-naming)
void unlock() {
ASSERT_MSG(Unlock() >= 0, "Could not unlock the mutex");
}
operator bool() {
return m_mutex != nullptr;
}
private:
ScePthreadMutex m_mutex{};
};
template <class T> template <class T>
class AvPlayerQueue { class AvPlayerQueue {
public: public:
AvPlayerQueue() : m_mutex(PTHREAD_MUTEX_ERRORCHECK, "SceAvPlayer0StlHandler") {}
size_t Size() { size_t Size() {
return m_queue.size(); return m_queue.size();
} }
@ -161,19 +82,10 @@ public:
} }
private: private:
PthreadMutex m_mutex{}; std::mutex m_mutex{};
std::queue<T> m_queue{}; std::queue<T> m_queue{};
}; };
struct ThreadParameters {
void* p_user_data;
const char* thread_name;
u32 stack_size;
u32 priority;
u32 affinity;
};
Kernel::ScePthread CreateThread(Kernel::PthreadEntryFunc func, const ThreadParameters& params);
SceAvPlayerSourceType GetSourceType(std::string_view path); SceAvPlayerSourceType GetSourceType(std::string_view path);
} // namespace Libraries::AvPlayer } // namespace Libraries::AvPlayer

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@ -69,14 +69,14 @@ s64 AvPlayerFileStreamer::Seek(void* opaque, s64 offset, int whence) {
if (whence == SEEK_CUR) { if (whence == SEEK_CUR) {
self->m_position = self->m_position =
std::min(u64(std::max(0ll, s64(self->m_position) + offset)), self->m_file_size); std::min(u64(std::max(0i64, s64(self->m_position) + offset)), self->m_file_size);
return self->m_position; return self->m_position;
} else if (whence == SEEK_SET) { } else if (whence == SEEK_SET) {
self->m_position = std::min(u64(std::max(0ll, offset)), self->m_file_size); self->m_position = std::min(u64(std::max(0i64, offset)), self->m_file_size);
return self->m_position; return self->m_position;
} else if (whence == SEEK_END) { } else if (whence == SEEK_END) {
self->m_position = self->m_position =
std::min(u64(std::max(0ll, s64(self->m_file_size) + offset)), self->m_file_size); std::min(u64(std::max(0i64, s64(self->m_file_size) + offset)), self->m_file_size);
return self->m_position; return self->m_position;
} }

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@ -77,29 +77,30 @@ u64 PS4_SYSV_ABI AvPlayer::SizeFile(void* handle) {
return size(ptr); return size(ptr);
} }
AvPlayer::AvPlayer(const SceAvPlayerInitData& data, const ThreadPriorities& priorities) SceAvPlayerInitData AvPlayer::StubInitData(const SceAvPlayerInitData& data) {
: m_file_io_mutex(PTHREAD_MUTEX_ERRORCHECK, "AvPlayer_FileIO"), m_init_data(data), SceAvPlayerInitData result = data;
m_init_data_original(data) { result.memory_replacement.object_ptr = this;
result.memory_replacement.allocate = &AvPlayer::Allocate;
m_init_data.memory_replacement.object_ptr = this; result.memory_replacement.deallocate = &AvPlayer::Deallocate;
m_init_data.memory_replacement.allocate = &AvPlayer::Allocate; result.memory_replacement.allocate_texture = &AvPlayer::AllocateTexture;
m_init_data.memory_replacement.deallocate = &AvPlayer::Deallocate; result.memory_replacement.deallocate_texture = &AvPlayer::DeallocateTexture;
m_init_data.memory_replacement.allocate_texture = &AvPlayer::AllocateTexture;
m_init_data.memory_replacement.deallocate_texture = &AvPlayer::DeallocateTexture;
if (data.file_replacement.open == nullptr || data.file_replacement.close == nullptr || if (data.file_replacement.open == nullptr || data.file_replacement.close == nullptr ||
data.file_replacement.readOffset == nullptr || data.file_replacement.size == nullptr) { data.file_replacement.readOffset == nullptr || data.file_replacement.size == nullptr) {
m_init_data.file_replacement = {}; result.file_replacement = {};
} else { } else {
m_init_data.file_replacement.object_ptr = this; result.file_replacement.object_ptr = this;
m_init_data.file_replacement.open = &AvPlayer::OpenFile; result.file_replacement.open = &AvPlayer::OpenFile;
m_init_data.file_replacement.close = &AvPlayer::CloseFile; result.file_replacement.close = &AvPlayer::CloseFile;
m_init_data.file_replacement.readOffset = &AvPlayer::ReadOffsetFile; result.file_replacement.readOffset = &AvPlayer::ReadOffsetFile;
m_init_data.file_replacement.size = &AvPlayer::SizeFile; result.file_replacement.size = &AvPlayer::SizeFile;
} }
return result;
m_state = std::make_unique<AvPlayerState>(m_init_data, priorities);
} }
AvPlayer::AvPlayer(const SceAvPlayerInitData& data)
: m_init_data(StubInitData(data)), m_init_data_original(data),
m_state(std::make_unique<AvPlayerState>(m_init_data)) {}
s32 AvPlayer::PostInit(const SceAvPlayerPostInitData& data) { s32 AvPlayer::PostInit(const SceAvPlayerPostInitData& data) {
m_post_init_data = data; m_post_init_data = data;
return ORBIS_OK; return ORBIS_OK;
@ -109,11 +110,9 @@ s32 AvPlayer::AddSource(std::string_view path) {
if (path.empty()) { if (path.empty()) {
return ORBIS_AVPLAYER_ERROR_INVALID_PARAMS; return ORBIS_AVPLAYER_ERROR_INVALID_PARAMS;
} }
if (AVPLAYER_IS_ERROR(m_state->AddSource(path, GetSourceType(path)))) { if (AVPLAYER_IS_ERROR(m_state->AddSource(path, GetSourceType(path)))) {
return ORBIS_AVPLAYER_ERROR_OPERATION_FAILED; return ORBIS_AVPLAYER_ERROR_OPERATION_FAILED;
} }
return ORBIS_OK; return ORBIS_OK;
} }
@ -121,7 +120,11 @@ s32 AvPlayer::GetStreamCount() {
if (m_state == nullptr) { if (m_state == nullptr) {
return ORBIS_AVPLAYER_ERROR_OPERATION_FAILED; return ORBIS_AVPLAYER_ERROR_OPERATION_FAILED;
} }
return m_state->GetStreamCount(); const auto res = m_state->GetStreamCount();
if (AVPLAYER_IS_ERROR(res)) {
return ORBIS_AVPLAYER_ERROR_OPERATION_FAILED;
}
return res;
} }
s32 AvPlayer::GetStreamInfo(u32 stream_index, SceAvPlayerStreamInfo& info) { s32 AvPlayer::GetStreamInfo(u32 stream_index, SceAvPlayerStreamInfo& info) {

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@ -9,6 +9,8 @@
#include "core/libraries/kernel/thread_management.h" #include "core/libraries/kernel/thread_management.h"
#include <mutex>
extern "C" { extern "C" {
#include <libavcodec/avcodec.h> #include <libavcodec/avcodec.h>
#include <libavformat/avformat.h> #include <libavformat/avformat.h>
@ -21,19 +23,7 @@ namespace Libraries::AvPlayer {
class AvPlayer { class AvPlayer {
public: public:
// Memory Replacement AvPlayer(const SceAvPlayerInitData& data);
static void* PS4_SYSV_ABI Allocate(void* handle, u32 alignment, u32 size);
static void PS4_SYSV_ABI Deallocate(void* handle, void* memory);
static void* PS4_SYSV_ABI AllocateTexture(void* handle, u32 alignment, u32 size);
static void PS4_SYSV_ABI DeallocateTexture(void* handle, void* memory);
// File Replacement
static int PS4_SYSV_ABI OpenFile(void* handle, const char* filename);
static int PS4_SYSV_ABI CloseFile(void* handle);
static int PS4_SYSV_ABI ReadOffsetFile(void* handle, u8* buffer, u64 position, u32 length);
static u64 PS4_SYSV_ABI SizeFile(void* handle);
AvPlayer(const SceAvPlayerInitData& data, const ThreadPriorities& priorities);
s32 PostInit(const SceAvPlayerPostInitData& data); s32 PostInit(const SceAvPlayerPostInitData& data);
s32 AddSource(std::string_view filename); s32 AddSource(std::string_view filename);
@ -51,13 +41,27 @@ public:
private: private:
using ScePthreadMutex = Kernel::ScePthreadMutex; using ScePthreadMutex = Kernel::ScePthreadMutex;
std::unique_ptr<AvPlayerState> m_state{}; // Memory Replacement
static void* PS4_SYSV_ABI Allocate(void* handle, u32 alignment, u32 size);
static void PS4_SYSV_ABI Deallocate(void* handle, void* memory);
static void* PS4_SYSV_ABI AllocateTexture(void* handle, u32 alignment, u32 size);
static void PS4_SYSV_ABI DeallocateTexture(void* handle, void* memory);
// File Replacement
static int PS4_SYSV_ABI OpenFile(void* handle, const char* filename);
static int PS4_SYSV_ABI CloseFile(void* handle);
static int PS4_SYSV_ABI ReadOffsetFile(void* handle, u8* buffer, u64 position, u32 length);
static u64 PS4_SYSV_ABI SizeFile(void* handle);
SceAvPlayerInitData StubInitData(const SceAvPlayerInitData& data);
SceAvPlayerInitData m_init_data{}; SceAvPlayerInitData m_init_data{};
SceAvPlayerInitData m_init_data_original{}; SceAvPlayerInitData m_init_data_original{};
SceAvPlayerPostInitData m_post_init_data{}; SceAvPlayerPostInitData m_post_init_data{};
PthreadMutex m_file_io_mutex{}; std::mutex m_file_io_mutex{};
std::atomic_bool m_has_source{}; std::atomic_bool m_has_source{};
std::unique_ptr<AvPlayerState> m_state{};
}; };
} // namespace Libraries::AvPlayer } // namespace Libraries::AvPlayer

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@ -24,9 +24,9 @@ namespace Libraries::AvPlayer {
using namespace Kernel; using namespace Kernel;
AvPlayerSource::AvPlayerSource(AvPlayerStateCallback& state, std::string_view path, AvPlayerSource::AvPlayerSource(AvPlayerStateCallback& state, std::string_view path,
const SceAvPlayerInitData& init_data, ThreadPriorities& priorities, const SceAvPlayerInitData& init_data,
SceAvPlayerSourceType source_type) SceAvPlayerSourceType source_type)
: m_state(state), m_priorities(priorities), m_memory_replacement(init_data.memory_replacement), : m_state(state), m_memory_replacement(init_data.memory_replacement),
m_num_output_video_framebuffers(init_data.num_output_video_framebuffers) { m_num_output_video_framebuffers(init_data.num_output_video_framebuffers) {
AVFormatContext* context = avformat_alloc_context(); AVFormatContext* context = avformat_alloc_context();
if (init_data.file_replacement.open != nullptr) { if (init_data.file_replacement.open != nullptr) {
@ -113,7 +113,7 @@ s32 AvPlayerSource::GetStreamInfo(u32 stream_index, SceAvPlayerStreamInfo& info)
info.details.video.height = p_stream->codecpar->height; info.details.video.height = p_stream->codecpar->height;
if (p_lang_node != nullptr) { if (p_lang_node != nullptr) {
std::memcpy(info.details.video.language_code, p_lang_node->value, std::memcpy(info.details.video.language_code, p_lang_node->value,
std::min(strlen(p_lang_node->value), 3ull)); std::min(strlen(p_lang_node->value), size_t(3)));
} }
break; break;
case SCE_AVPLAYER_AUDIO: case SCE_AVPLAYER_AUDIO:
@ -123,7 +123,7 @@ s32 AvPlayerSource::GetStreamInfo(u32 stream_index, SceAvPlayerStreamInfo& info)
info.details.audio.size = 0; // sceAvPlayerGetStreamInfo() is expected to set this to 0 info.details.audio.size = 0; // sceAvPlayerGetStreamInfo() is expected to set this to 0
if (p_lang_node != nullptr) { if (p_lang_node != nullptr) {
std::memcpy(info.details.audio.language_code, p_lang_node->value, std::memcpy(info.details.audio.language_code, p_lang_node->value,
std::min(strlen(p_lang_node->value), 3ull)); std::min(strlen(p_lang_node->value), size_t(3)));
} }
break; break;
case SCE_AVPLAYER_TIMEDTEXT: case SCE_AVPLAYER_TIMEDTEXT:
@ -132,7 +132,7 @@ s32 AvPlayerSource::GetStreamInfo(u32 stream_index, SceAvPlayerStreamInfo& info)
info.details.subs.text_size = 12; info.details.subs.text_size = 12;
if (p_lang_node != nullptr) { if (p_lang_node != nullptr) {
std::memcpy(info.details.subs.language_code, p_lang_node->value, std::memcpy(info.details.subs.language_code, p_lang_node->value,
std::min(strlen(p_lang_node->value), 3ull)); std::min(strlen(p_lang_node->value), size_t(3)));
} }
break; break;
default: default:
@ -189,7 +189,7 @@ bool AvPlayerSource::EnableStream(u32 stream_index) {
const auto num_channels = m_audio_codec_context->ch_layout.nb_channels; const auto num_channels = m_audio_codec_context->ch_layout.nb_channels;
const auto align = num_channels * sizeof(u16); const auto align = num_channels * sizeof(u16);
const auto size = num_channels * sizeof(u16) * 1024; const auto size = num_channels * sizeof(u16) * 1024;
for (u64 index = 0; index < 2; ++index) { for (u64 index = 0; index < 4; ++index) {
m_audio_buffers.Push(FrameBuffer(m_memory_replacement, 0x100, size)); m_audio_buffers.Push(FrameBuffer(m_memory_replacement, 0x100, size));
} }
LOG_INFO(Lib_AvPlayer, "Audio stream {} enabled", stream_index); LOG_INFO(Lib_AvPlayer, "Audio stream {} enabled", stream_index);
@ -212,78 +212,41 @@ std::optional<bool> AvPlayerSource::HasFrames(u32 num_frames) {
} }
s32 AvPlayerSource::Start() { s32 AvPlayerSource::Start() {
std::unique_lock lock(m_state_mutex);
if (m_audio_codec_context == nullptr && m_video_codec_context == nullptr) { if (m_audio_codec_context == nullptr && m_video_codec_context == nullptr) {
LOG_ERROR(Lib_AvPlayer, "Could not start playback. NULL context."); LOG_ERROR(Lib_AvPlayer, "Could not start playback. NULL context.");
return -1; return -1;
} }
{ m_demuxer_thread = std::jthread([this](std::stop_token stop) { this->DemuxerThread(stop); });
ThreadParameters demuxer_params{ m_video_decoder_thread =
.p_user_data = this, std::jthread([this](std::stop_token stop) { this->VideoDecoderThread(stop); });
.thread_name = "AvPlayer_Demuxer", m_audio_decoder_thread =
.stack_size = 0x4000, std::jthread([this](std::stop_token stop) { this->AudioDecoderThread(stop); });
.priority = m_priorities.demuxer_priority,
.affinity = m_priorities.demuxer_affinity,
};
m_demuxer_thread = CreateThread(&DemuxerThread, demuxer_params);
if (m_demuxer_thread == nullptr) {
LOG_ERROR(Lib_AvPlayer, "Could not create DEMUXER thread.");
return -1;
}
}
if (m_video_codec_context != nullptr) {
ThreadParameters video_decoder_params{
.p_user_data = this,
.thread_name = "AvPlayer_VideoDecoder",
.stack_size = 0x4000,
.priority = m_priorities.video_decoder_priority,
.affinity = m_priorities.video_decoder_affinity,
};
m_video_decoder_thread = CreateThread(&VideoDecoderThread, video_decoder_params);
if (m_video_decoder_thread == nullptr) {
LOG_ERROR(Lib_AvPlayer, "Could not create VIDEO DECODER thread.");
return -1;
}
}
if (m_audio_codec_context != nullptr) {
ThreadParameters audio_decoder_params{
.p_user_data = this,
.thread_name = "AvPlayer_AudioDecoder",
.stack_size = 0x4000,
.priority = m_priorities.audio_decoder_priority,
.affinity = m_priorities.audio_decoder_affinity,
};
m_audio_decoder_thread = CreateThread(&AudioDecoderThread, audio_decoder_params);
if (m_audio_decoder_thread == nullptr) {
LOG_ERROR(Lib_AvPlayer, "Could not create AUDIO DECODER thread.");
return -1;
}
}
m_start_time = std::chrono::high_resolution_clock::now(); m_start_time = std::chrono::high_resolution_clock::now();
return 0; return 0;
} }
bool AvPlayerSource::Stop() { bool AvPlayerSource::Stop() {
if (m_is_stop) { std::unique_lock lock(m_state_mutex);
if (!HasRunningThreads()) {
LOG_WARNING(Lib_AvPlayer, "Could not stop playback: already stopped."); LOG_WARNING(Lib_AvPlayer, "Could not stop playback: already stopped.");
return false; return false;
} }
m_is_stop = true; m_video_decoder_thread.request_stop();
m_audio_decoder_thread.request_stop();
void* res = nullptr; m_demuxer_thread.request_stop();
if (m_video_decoder_thread != nullptr) { if (m_demuxer_thread.joinable()) {
scePthreadJoin(m_video_decoder_thread, &res); m_demuxer_thread.join();
} }
if (m_audio_decoder_thread != nullptr) { if (m_video_decoder_thread.joinable()) {
scePthreadJoin(m_audio_decoder_thread, &res); m_video_decoder_thread.join();
} }
if (m_demuxer_thread != nullptr) { if (m_audio_decoder_thread.joinable()) {
scePthreadJoin(m_demuxer_thread, &res); m_audio_decoder_thread.join();
} }
m_audio_packets.Clear();
m_video_packets.Clear();
m_audio_frames.Clear();
m_video_frames.Clear();
if (m_current_audio_frame.has_value()) { if (m_current_audio_frame.has_value()) {
m_audio_buffers.Push(std::move(m_current_audio_frame.value())); m_audio_buffers.Push(std::move(m_current_audio_frame.value()));
m_current_audio_frame.reset(); m_current_audio_frame.reset();
@ -292,10 +255,19 @@ bool AvPlayerSource::Stop() {
m_video_buffers.Push(std::move(m_current_video_frame.value())); m_video_buffers.Push(std::move(m_current_video_frame.value()));
m_current_video_frame.reset(); m_current_video_frame.reset();
} }
m_audio_packets.Clear();
m_video_packets.Clear();
m_audio_frames.Clear();
m_video_frames.Clear();
return true; return true;
} }
bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfo& video_info) { bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfo& video_info) {
if (!IsActive()) {
return false;
}
SceAvPlayerFrameInfoEx info{}; SceAvPlayerFrameInfoEx info{};
if (!GetVideoData(info)) { if (!GetVideoData(info)) {
return false; return false;
@ -315,8 +287,13 @@ static void CopyNV12Data(u8* dst, const AVFrame& src) {
} }
bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfoEx& video_info) { bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfoEx& video_info) {
if (!IsActive()) {
return false;
}
using namespace std::chrono;
while (m_video_frames.Size() == 0 && !m_is_eof) { while (m_video_frames.Size() == 0 && !m_is_eof) {
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
} }
auto frame = m_video_frames.Pop(); auto frame = m_video_frames.Pop();
@ -326,11 +303,10 @@ bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfoEx& video_info) {
} }
{ {
using namespace std::chrono;
auto elapsed_time = auto elapsed_time =
duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count(); duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count();
while (elapsed_time < frame->info.timestamp) { while (elapsed_time < frame->info.timestamp) {
sceKernelUsleep((frame->info.timestamp - elapsed_time) * 1000); std::this_thread::sleep_for(milliseconds(frame->info.timestamp - elapsed_time));
elapsed_time = elapsed_time =
duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count(); duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count();
} }
@ -346,8 +322,13 @@ bool AvPlayerSource::GetVideoData(SceAvPlayerFrameInfoEx& video_info) {
} }
bool AvPlayerSource::GetAudioData(SceAvPlayerFrameInfo& audio_info) { bool AvPlayerSource::GetAudioData(SceAvPlayerFrameInfo& audio_info) {
if (!IsActive()) {
return false;
}
using namespace std::chrono;
while (m_audio_frames.Size() == 0 && !m_is_eof) { while (m_audio_frames.Size() == 0 && !m_is_eof) {
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
} }
auto frame = m_audio_frames.Pop(); auto frame = m_audio_frames.Pop();
@ -357,11 +338,10 @@ bool AvPlayerSource::GetAudioData(SceAvPlayerFrameInfo& audio_info) {
} }
{ {
using namespace std::chrono;
auto elapsed_time = auto elapsed_time =
duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count(); duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count();
while (elapsed_time < frame->info.timestamp) { while (elapsed_time < frame->info.timestamp) {
sceKernelUsleep((frame->info.timestamp - elapsed_time) * 1000); std::this_thread::sleep_for(milliseconds(frame->info.timestamp - elapsed_time));
elapsed_time = elapsed_time =
duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count(); duration_cast<milliseconds>(high_resolution_clock::now() - m_start_time).count();
} }
@ -387,8 +367,8 @@ u64 AvPlayerSource::CurrentTime() {
} }
bool AvPlayerSource::IsActive() { bool AvPlayerSource::IsActive() {
return !m_is_stop && (!m_is_eof || m_audio_packets.Size() != 0 || m_video_packets.Size() != 0 || return !m_is_eof || m_audio_packets.Size() != 0 || m_video_packets.Size() != 0 ||
m_video_frames.Size() != 0 || m_audio_frames.Size() != 0); m_video_frames.Size() != 0 || m_audio_frames.Size() != 0;
} }
void AvPlayerSource::ReleaseAVPacket(AVPacket* packet) { void AvPlayerSource::ReleaseAVPacket(AVPacket* packet) {
@ -427,52 +407,51 @@ void AvPlayerSource::ReleaseAVFormatContext(AVFormatContext* context) {
} }
} }
void* AvPlayerSource::DemuxerThread(void* opaque) { void AvPlayerSource::DemuxerThread(std::stop_token stop) {
const auto self = reinterpret_cast<AvPlayerSource*>(opaque); using namespace std::chrono;
if (!self->m_audio_stream_index.has_value() && !self->m_video_stream_index.has_value()) { if (!m_audio_stream_index.has_value() && !m_video_stream_index.has_value()) {
LOG_WARNING(Lib_AvPlayer, "Could not start DEMUXER thread. No streams enabled."); LOG_WARNING(Lib_AvPlayer, "Could not start DEMUXER thread. No streams enabled.");
return nullptr; return;
} }
LOG_INFO(Lib_AvPlayer, "Demuxer Thread started"); LOG_INFO(Lib_AvPlayer, "Demuxer Thread started");
while (!self->m_is_stop) { while (!stop.stop_requested()) {
if (self->m_video_packets.Size() > 60) { if (m_video_packets.Size() > 30 && m_audio_packets.Size() > 8) {
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
continue; continue;
} }
AVPacketPtr up_packet(av_packet_alloc(), &ReleaseAVPacket); AVPacketPtr up_packet(av_packet_alloc(), &ReleaseAVPacket);
const auto res = av_read_frame(self->m_avformat_context.get(), up_packet.get()); const auto res = av_read_frame(m_avformat_context.get(), up_packet.get());
if (res < 0) { if (res < 0) {
if (res == AVERROR_EOF) { if (res == AVERROR_EOF) {
LOG_INFO(Lib_AvPlayer, "EOF reached in demuxer"); LOG_INFO(Lib_AvPlayer, "EOF reached in demuxer");
break; break;
} else { } else {
LOG_ERROR(Lib_AvPlayer, "Could not read AV frame: error = {}", res); LOG_ERROR(Lib_AvPlayer, "Could not read AV frame: error = {}", res);
self->m_state.OnError(); m_state.OnError();
scePthreadExit(0); return;
} }
break; break;
} }
if (up_packet->stream_index == self->m_video_stream_index) { if (up_packet->stream_index == m_video_stream_index) {
self->m_video_packets.Push(std::move(up_packet)); m_video_packets.Push(std::move(up_packet));
} else if (up_packet->stream_index == self->m_audio_stream_index) { } else if (up_packet->stream_index == m_audio_stream_index) {
self->m_audio_packets.Push(std::move(up_packet)); m_audio_packets.Push(std::move(up_packet));
} }
} }
self->m_is_eof = true; m_is_eof = true;
void* res; void* res;
if (self->m_video_decoder_thread) { if (m_video_decoder_thread.joinable()) {
scePthreadJoin(self->m_video_decoder_thread, &res); m_video_decoder_thread.join();
} }
if (self->m_audio_decoder_thread) { if (m_audio_decoder_thread.joinable()) {
scePthreadJoin(self->m_audio_decoder_thread, &res); m_audio_decoder_thread.join();
} }
self->m_state.OnEOF(); m_state.OnEOF();
LOG_INFO(Lib_AvPlayer, "Demuxer Thread exited normaly"); LOG_INFO(Lib_AvPlayer, "Demuxer Thread exited normaly");
scePthreadExit(0);
} }
AvPlayerSource::AVFramePtr AvPlayerSource::ConvertVideoFrame(const AVFrame& frame) { AvPlayerSource::AVFramePtr AvPlayerSource::ConvertVideoFrame(const AVFrame& frame) {
@ -537,67 +516,63 @@ Frame AvPlayerSource::PrepareVideoFrame(FrameBuffer buffer, const AVFrame& frame
}; };
} }
void* AvPlayerSource::VideoDecoderThread(void* opaque) { void AvPlayerSource::VideoDecoderThread(std::stop_token stop) {
using namespace std::chrono;
LOG_INFO(Lib_AvPlayer, "Video Decoder Thread started"); LOG_INFO(Lib_AvPlayer, "Video Decoder Thread started");
const auto self = reinterpret_cast<AvPlayerSource*>(opaque); while ((!m_is_eof || m_video_packets.Size() != 0) && !stop.stop_requested()) {
if (m_video_packets.Size() == 0) {
while ((!self->m_is_eof || self->m_video_packets.Size() != 0) && !self->m_is_stop) { std::this_thread::sleep_for(milliseconds(5));
if (self->m_video_packets.Size() == 0) {
sceKernelUsleep(5000);
continue; continue;
} }
const auto packet = self->m_video_packets.Pop(); const auto packet = m_video_packets.Pop();
if (!packet.has_value()) { if (!packet.has_value()) {
continue; continue;
} }
auto res = avcodec_send_packet(self->m_video_codec_context.get(), packet->get()); auto res = avcodec_send_packet(m_video_codec_context.get(), packet->get());
if (res < 0 && res != AVERROR(EAGAIN)) { if (res < 0 && res != AVERROR(EAGAIN)) {
self->m_state.OnError(); m_state.OnError();
LOG_ERROR(Lib_AvPlayer, "Could not send packet to the video codec. Error = {}", LOG_ERROR(Lib_AvPlayer, "Could not send packet to the video codec. Error = {}",
av_err2str(res)); av_err2str(res));
scePthreadExit(nullptr); return;
} }
while (res >= 0) { while (res >= 0) {
if (self->m_video_buffers.Size() == 0 && !self->m_is_stop) { if (m_video_buffers.Size() == 0 && !stop.stop_requested()) {
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
continue; continue;
} }
auto up_frame = AVFramePtr(av_frame_alloc(), &ReleaseAVFrame); auto up_frame = AVFramePtr(av_frame_alloc(), &ReleaseAVFrame);
res = avcodec_receive_frame(self->m_video_codec_context.get(), up_frame.get()); res = avcodec_receive_frame(m_video_codec_context.get(), up_frame.get());
if (res < 0) { if (res < 0) {
if (res == AVERROR_EOF) { if (res == AVERROR_EOF) {
LOG_INFO(Lib_AvPlayer, "EOF reached in video decoder"); LOG_INFO(Lib_AvPlayer, "EOF reached in video decoder");
scePthreadExit(nullptr); return;
} else if (res != AVERROR(EAGAIN)) { } else if (res != AVERROR(EAGAIN)) {
LOG_ERROR(Lib_AvPlayer, LOG_ERROR(Lib_AvPlayer,
"Could not receive frame from the video codec. Error = {}", "Could not receive frame from the video codec. Error = {}",
av_err2str(res)); av_err2str(res));
self->m_state.OnError(); m_state.OnError();
scePthreadExit(nullptr); return;
} }
} else { } else {
auto buffer = self->m_video_buffers.Pop(); auto buffer = m_video_buffers.Pop();
if (!buffer.has_value()) { if (!buffer.has_value()) {
// Video buffers queue was cleared. This means that player was stopped. // Video buffers queue was cleared. This means that player was stopped.
break; break;
} }
if (up_frame->format != AV_PIX_FMT_NV12) { if (up_frame->format != AV_PIX_FMT_NV12) {
const auto nv12_frame = self->ConvertVideoFrame(*up_frame); const auto nv12_frame = ConvertVideoFrame(*up_frame);
self->m_video_frames.Push( m_video_frames.Push(PrepareVideoFrame(std::move(buffer.value()), *nv12_frame));
self->PrepareVideoFrame(std::move(buffer.value()), *nv12_frame));
} else { } else {
self->m_video_frames.Push( m_video_frames.Push(PrepareVideoFrame(std::move(buffer.value()), *up_frame));
self->PrepareVideoFrame(std::move(buffer.value()), *up_frame));
} }
LOG_TRACE(Lib_AvPlayer, "Produced Video Frame. Num Frames: {}", LOG_TRACE(Lib_AvPlayer, "Produced Video Frame. Num Frames: {}",
self->m_video_frames.Size()); m_video_frames.Size());
} }
} }
} }
LOG_INFO(Lib_AvPlayer, "Video Decoder Thread exited normaly"); LOG_INFO(Lib_AvPlayer, "Video Decoder Thread exited normaly");
scePthreadExit(nullptr);
} }
AvPlayerSource::AVFramePtr AvPlayerSource::ConvertAudioFrame(const AVFrame& frame) { AvPlayerSource::AVFramePtr AvPlayerSource::ConvertAudioFrame(const AVFrame& frame) {
@ -659,66 +634,67 @@ Frame AvPlayerSource::PrepareAudioFrame(FrameBuffer buffer, const AVFrame& frame
}; };
} }
void* AvPlayerSource::AudioDecoderThread(void* opaque) { void AvPlayerSource::AudioDecoderThread(std::stop_token stop) {
using namespace std::chrono;
LOG_INFO(Lib_AvPlayer, "Audio Decoder Thread started"); LOG_INFO(Lib_AvPlayer, "Audio Decoder Thread started");
const auto self = reinterpret_cast<AvPlayerSource*>(opaque); while ((!m_is_eof || m_audio_packets.Size() != 0) && !stop.stop_requested()) {
if (m_audio_packets.Size() == 0) {
while ((!self->m_is_eof || self->m_audio_packets.Size() != 0) && !self->m_is_stop) { std::this_thread::sleep_for(milliseconds(5));
if (self->m_audio_packets.Size() == 0) {
sceKernelUsleep(5000);
continue; continue;
} }
const auto packet = self->m_audio_packets.Pop(); const auto packet = m_audio_packets.Pop();
if (!packet.has_value()) { if (!packet.has_value()) {
continue; continue;
} }
auto res = avcodec_send_packet(self->m_audio_codec_context.get(), packet->get()); auto res = avcodec_send_packet(m_audio_codec_context.get(), packet->get());
if (res < 0 && res != AVERROR(EAGAIN)) { if (res < 0 && res != AVERROR(EAGAIN)) {
self->m_state.OnError(); m_state.OnError();
LOG_ERROR(Lib_AvPlayer, "Could not send packet to the audio codec. Error = {}", LOG_ERROR(Lib_AvPlayer, "Could not send packet to the audio codec. Error = {}",
av_err2str(res)); av_err2str(res));
scePthreadExit(nullptr); return;
} }
while (res >= 0) { while (res >= 0) {
if (self->m_audio_buffers.Size() == 0 && !self->m_is_stop) { if (m_audio_buffers.Size() == 0 && !stop.stop_requested()) {
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
continue; continue;
} }
auto up_frame = AVFramePtr(av_frame_alloc(), &ReleaseAVFrame); auto up_frame = AVFramePtr(av_frame_alloc(), &ReleaseAVFrame);
res = avcodec_receive_frame(self->m_audio_codec_context.get(), up_frame.get()); res = avcodec_receive_frame(m_audio_codec_context.get(), up_frame.get());
if (res < 0) { if (res < 0) {
if (res == AVERROR_EOF) { if (res == AVERROR_EOF) {
LOG_INFO(Lib_AvPlayer, "EOF reached in audio decoder"); LOG_INFO(Lib_AvPlayer, "EOF reached in audio decoder");
scePthreadExit(nullptr); return;
} else if (res != AVERROR(EAGAIN)) { } else if (res != AVERROR(EAGAIN)) {
self->m_state.OnError(); m_state.OnError();
LOG_ERROR(Lib_AvPlayer, LOG_ERROR(Lib_AvPlayer,
"Could not receive frame from the audio codec. Error = {}", "Could not receive frame from the audio codec. Error = {}",
av_err2str(res)); av_err2str(res));
scePthreadExit(nullptr); return;
} }
} else { } else {
auto buffer = self->m_audio_buffers.Pop(); auto buffer = m_audio_buffers.Pop();
if (!buffer.has_value()) { if (!buffer.has_value()) {
// Audio buffers queue was cleared. This means that player was stopped. // Audio buffers queue was cleared. This means that player was stopped.
break; break;
} }
if (up_frame->format != AV_SAMPLE_FMT_S16) { if (up_frame->format != AV_SAMPLE_FMT_S16) {
const auto pcm16_frame = self->ConvertAudioFrame(*up_frame); const auto pcm16_frame = ConvertAudioFrame(*up_frame);
self->m_audio_frames.Push( m_audio_frames.Push(PrepareAudioFrame(std::move(buffer.value()), *pcm16_frame));
self->PrepareAudioFrame(std::move(buffer.value()), *pcm16_frame));
} else { } else {
self->m_audio_frames.Push( m_audio_frames.Push(PrepareAudioFrame(std::move(buffer.value()), *up_frame));
self->PrepareAudioFrame(std::move(buffer.value()), *up_frame));
} }
LOG_TRACE(Lib_AvPlayer, "Produced Audio Frame. Num Frames: {}", LOG_TRACE(Lib_AvPlayer, "Produced Audio Frame. Num Frames: {}",
self->m_audio_frames.Size()); m_audio_frames.Size());
} }
} }
} }
LOG_INFO(Lib_AvPlayer, "Audio Decoder Thread exited normaly"); LOG_INFO(Lib_AvPlayer, "Audio Decoder Thread exited normaly");
scePthreadExit(nullptr); }
bool AvPlayerSource::HasRunningThreads() const {
return m_demuxer_thread.joinable() || m_video_decoder_thread.joinable() ||
m_audio_decoder_thread.joinable();
} }
} // namespace Libraries::AvPlayer } // namespace Libraries::AvPlayer

View File

@ -12,8 +12,11 @@
#include <atomic> #include <atomic>
#include <chrono> #include <chrono>
#include <mutex>
#include <optional> #include <optional>
#include <stop_token>
#include <string> #include <string>
#include <thread>
struct AVCodecContext; struct AVCodecContext;
struct AVFormatContext; struct AVFormatContext;
@ -88,8 +91,7 @@ struct Frame {
class AvPlayerSource { class AvPlayerSource {
public: public:
AvPlayerSource(AvPlayerStateCallback& state, std::string_view path, AvPlayerSource(AvPlayerStateCallback& state, std::string_view path,
const SceAvPlayerInitData& init_data, ThreadPriorities& priorities, const SceAvPlayerInitData& init_data, SceAvPlayerSourceType source_type);
SceAvPlayerSourceType source_type);
~AvPlayerSource(); ~AvPlayerSource();
bool FindStreamInfo(); bool FindStreamInfo();
@ -109,10 +111,6 @@ public:
private: private:
using ScePthread = Kernel::ScePthread; using ScePthread = Kernel::ScePthread;
static void* PS4_SYSV_ABI DemuxerThread(void* opaque);
static void* PS4_SYSV_ABI VideoDecoderThread(void* opaque);
static void* PS4_SYSV_ABI AudioDecoderThread(void* opaque);
static void ReleaseAVPacket(AVPacket* packet); static void ReleaseAVPacket(AVPacket* packet);
static void ReleaseAVFrame(AVFrame* frame); static void ReleaseAVFrame(AVFrame* frame);
static void ReleaseAVCodecContext(AVCodecContext* context); static void ReleaseAVCodecContext(AVCodecContext* context);
@ -127,6 +125,12 @@ private:
using SWSContextPtr = std::unique_ptr<SwsContext, decltype(&ReleaseSWSContext)>; using SWSContextPtr = std::unique_ptr<SwsContext, decltype(&ReleaseSWSContext)>;
using AVFormatContextPtr = std::unique_ptr<AVFormatContext, decltype(&ReleaseAVFormatContext)>; using AVFormatContextPtr = std::unique_ptr<AVFormatContext, decltype(&ReleaseAVFormatContext)>;
void DemuxerThread(std::stop_token stop);
void VideoDecoderThread(std::stop_token stop);
void AudioDecoderThread(std::stop_token stop);
bool HasRunningThreads() const;
AVFramePtr ConvertAudioFrame(const AVFrame& frame); AVFramePtr ConvertAudioFrame(const AVFrame& frame);
AVFramePtr ConvertVideoFrame(const AVFrame& frame); AVFramePtr ConvertVideoFrame(const AVFrame& frame);
@ -135,13 +139,11 @@ private:
AvPlayerStateCallback& m_state; AvPlayerStateCallback& m_state;
ThreadPriorities m_priorities{};
SceAvPlayerMemAllocator m_memory_replacement{}; SceAvPlayerMemAllocator m_memory_replacement{};
u64 m_num_output_video_framebuffers{}; u64 m_num_output_video_framebuffers{};
std::atomic_bool m_is_looping = false; std::atomic_bool m_is_looping = false;
std::atomic_bool m_is_eof = false; std::atomic_bool m_is_eof = false;
std::atomic_bool m_is_stop = false;
std::unique_ptr<IDataStreamer> m_up_data_streamer; std::unique_ptr<IDataStreamer> m_up_data_streamer;
@ -160,9 +162,10 @@ private:
std::optional<s32> m_video_stream_index{}; std::optional<s32> m_video_stream_index{};
std::optional<s32> m_audio_stream_index{}; std::optional<s32> m_audio_stream_index{};
ScePthread m_demuxer_thread{}; std::mutex m_state_mutex;
ScePthread m_video_decoder_thread{}; std::jthread m_demuxer_thread{};
ScePthread m_audio_decoder_thread{}; std::jthread m_video_decoder_thread{};
std::jthread m_audio_decoder_thread{};
AVFormatContextPtr m_avformat_context{nullptr, &ReleaseAVFormatContext}; AVFormatContextPtr m_avformat_context{nullptr, &ReleaseAVFormatContext};
AVCodecContextPtr m_video_codec_context{nullptr, &ReleaseAVCodecContext}; AVCodecContextPtr m_video_codec_context{nullptr, &ReleaseAVCodecContext};

View File

@ -89,12 +89,8 @@ void PS4_SYSV_ABI AvPlayerState::AutoPlayEventCallback(void* opaque, s32 event_i
} }
// Called inside GAME thread // Called inside GAME thread
AvPlayerState::AvPlayerState(const SceAvPlayerInitData& init_data, AvPlayerState::AvPlayerState(const SceAvPlayerInitData& init_data)
const ThreadPriorities& priorities) : m_init_data(init_data), m_event_replacement(init_data.event_replacement) {
: m_init_data(init_data), m_event_replacement(init_data.event_replacement),
m_thread_priorities(priorities),
m_event_handler_mutex(PTHREAD_MUTEX_ERRORCHECK, "AvPlayer_EventHandler"),
m_state_machine_mutex(PTHREAD_MUTEX_ERRORCHECK, "AvPlayer_StateMachine") {
if (m_event_replacement.event_callback == nullptr || init_data.auto_start) { if (m_event_replacement.event_callback == nullptr || init_data.auto_start) {
m_auto_start = true; m_auto_start = true;
m_init_data.event_replacement.event_callback = &AvPlayerState::AutoPlayEventCallback; m_init_data.event_replacement.event_callback = &AvPlayerState::AutoPlayEventCallback;
@ -111,10 +107,9 @@ AvPlayerState::~AvPlayerState() {
if (m_up_source && m_current_state == AvState::Play) { if (m_up_source && m_current_state == AvState::Play) {
m_up_source->Stop(); m_up_source->Stop();
} }
m_quit = true; if (m_controller_thread.joinable()) {
if (m_controller_thread != nullptr) { m_controller_thread.request_stop();
void* res = nullptr; m_controller_thread.join();
scePthreadJoin(m_controller_thread, &res);
} }
m_event_queue.Clear(); m_event_queue.Clear();
} }
@ -131,8 +126,7 @@ s32 AvPlayerState::AddSource(std::string_view path, SceAvPlayerSourceType source
return -1; return -1;
} }
m_up_source = std::make_unique<AvPlayerSource>(*this, path, m_init_data, m_thread_priorities, m_up_source = std::make_unique<AvPlayerSource>(*this, path, m_init_data, source_type);
source_type);
AddSourceEvent(); AddSourceEvent();
return 0; return 0;
} }
@ -166,17 +160,17 @@ s32 AvPlayerState::Start() {
return 0; return 0;
} }
void* AvPlayerState::AvControllerThread(void* p_user_data) { void AvPlayerState::AvControllerThread(std::stop_token stop) {
AvPlayerState* self = reinterpret_cast<AvPlayerState*>(p_user_data); using std::chrono::milliseconds;
while (!self->m_quit) {
if (self->m_event_queue.Size() != 0) { while (!stop.stop_requested()) {
self->ProcessEvent(); if (m_event_queue.Size() != 0) {
ProcessEvent();
continue; continue;
} }
sceKernelUsleep(5000); std::this_thread::sleep_for(milliseconds(5));
self->UpdateBufferingState(); UpdateBufferingState();
} }
scePthreadExit(0);
} }
// Called inside GAME thread // Called inside GAME thread
@ -198,22 +192,9 @@ void AvPlayerState::WarningEvent(s32 id) {
} }
// Called inside GAME thread // Called inside GAME thread
int AvPlayerState::StartControllerThread() { void AvPlayerState::StartControllerThread() {
m_quit.store(0); m_controller_thread =
std::jthread([this](std::stop_token stop) { this->AvControllerThread(stop); });
ThreadParameters params{
.p_user_data = this,
.thread_name = "AvPlayer_Controller",
.stack_size = 0x4000,
.priority = m_thread_priority,
.affinity = m_thread_affinity,
};
m_controller_thread = CreateThread(&AvControllerThread, params);
if (m_controller_thread == nullptr) {
LOG_ERROR(Lib_AvPlayer, "Could not create CONTROLLER thread.");
return -1;
}
return 0;
} }
// Called inside GAME thread // Called inside GAME thread
@ -262,7 +243,7 @@ bool AvPlayerState::IsActive() {
return false; return false;
} }
return m_current_state != AvState::Stop && m_current_state != AvState::Error && return m_current_state != AvState::Stop && m_current_state != AvState::Error &&
m_up_source->IsActive(); m_current_state != AvState::EndOfFile && m_up_source->IsActive();
} }
u64 AvPlayerState::CurrentTime() { u64 AvPlayerState::CurrentTime() {
@ -284,7 +265,9 @@ void AvPlayerState::OnError() {
OnPlaybackStateChanged(AvState::Error); OnPlaybackStateChanged(AvState::Error);
} }
void AvPlayerState::OnEOF() {} void AvPlayerState::OnEOF() {
SetState(AvState::EndOfFile);
}
// Called inside CONTROLLER thread // Called inside CONTROLLER thread
void AvPlayerState::OnPlaybackStateChanged(AvState state) { void AvPlayerState::OnPlaybackStateChanged(AvState state) {
@ -347,16 +330,16 @@ void AvPlayerState::EmitEvent(SceAvPlayerEvents event_id, void* event_data) {
} }
// Called inside CONTROLLER thread // Called inside CONTROLLER thread
int AvPlayerState::ProcessEvent() { void AvPlayerState::ProcessEvent() {
if (m_current_state == AvState::Jump) { if (m_current_state == AvState::Jump) {
return -2; return;
} }
std::lock_guard guard(m_event_handler_mutex); std::lock_guard guard(m_event_handler_mutex);
auto event = m_event_queue.Pop(); auto event = m_event_queue.Pop();
if (!event.has_value()) { if (!event.has_value()) {
return -1; return;
} }
switch (event->event) { switch (event->event) {
case AvEventType::WarningId: { case AvEventType::WarningId: {
@ -385,16 +368,14 @@ int AvPlayerState::ProcessEvent() {
default: default:
break; break;
} }
return 0;
} }
// Called inside CONTROLLER thread // Called inside CONTROLLER thread
int AvPlayerState::UpdateBufferingState() { void AvPlayerState::UpdateBufferingState() {
if (m_current_state == AvState::Buffering) { if (m_current_state == AvState::Buffering) {
const auto has_frames = OnBufferingCheckEvent(10); const auto has_frames = OnBufferingCheckEvent(10);
if (!has_frames.has_value()) { if (!has_frames.has_value()) {
return -1; return;
} }
if (has_frames.value()) { if (has_frames.value()) {
const auto state = const auto state =
@ -405,14 +386,13 @@ int AvPlayerState::UpdateBufferingState() {
} else if (m_current_state == AvState::Play) { } else if (m_current_state == AvState::Play) {
const auto has_frames = OnBufferingCheckEvent(0); const auto has_frames = OnBufferingCheckEvent(0);
if (!has_frames.has_value()) { if (!has_frames.has_value()) {
return -1; return;
} }
if (!has_frames.value()) { if (!has_frames.value()) {
SetState(AvState::Buffering); SetState(AvState::Buffering);
OnPlaybackStateChanged(AvState::Buffering); OnPlaybackStateChanged(AvState::Buffering);
} }
} }
return 0;
} }
bool AvPlayerState::IsStateTransitionValid(AvState state) { bool AvPlayerState::IsStateTransitionValid(AvState state) {

View File

@ -10,6 +10,9 @@
#include "core/libraries/kernel/thread_management.h" #include "core/libraries/kernel/thread_management.h"
#include <memory> #include <memory>
#include <mutex>
#include <stop_token>
#include <thread>
namespace Libraries::AvPlayer { namespace Libraries::AvPlayer {
@ -18,7 +21,7 @@ class AvDecoder;
class AvPlayerState : public AvPlayerStateCallback { class AvPlayerState : public AvPlayerStateCallback {
public: public:
AvPlayerState(const SceAvPlayerInitData& init_data, const ThreadPriorities& priorities); AvPlayerState(const SceAvPlayerInitData& init_data);
~AvPlayerState(); ~AvPlayerState();
s32 AddSource(std::string_view filename, SceAvPlayerSourceType source_type); s32 AddSource(std::string_view filename, SceAvPlayerSourceType source_type);
@ -51,34 +54,32 @@ private:
void EmitEvent(SceAvPlayerEvents event_id, void* event_data = nullptr); void EmitEvent(SceAvPlayerEvents event_id, void* event_data = nullptr);
bool SetState(AvState state); bool SetState(AvState state);
static void* PS4_SYSV_ABI AvControllerThread(void* p_user_data); void AvControllerThread(std::stop_token stop);
void AddSourceEvent(); void AddSourceEvent();
void WarningEvent(s32 id); void WarningEvent(s32 id);
int StartControllerThread(); void StartControllerThread();
int ProcessEvent(); void ProcessEvent();
int UpdateBufferingState(); void UpdateBufferingState();
bool IsStateTransitionValid(AvState state); bool IsStateTransitionValid(AvState state);
std::unique_ptr<AvPlayerSource> m_up_source; std::unique_ptr<AvPlayerSource> m_up_source;
SceAvPlayerInitData m_init_data{}; SceAvPlayerInitData m_init_data{};
SceAvPlayerEventReplacement m_event_replacement{}; SceAvPlayerEventReplacement m_event_replacement{};
ThreadPriorities m_thread_priorities{};
bool m_auto_start{}; bool m_auto_start{};
u8 m_default_language[4]{}; u8 m_default_language[4]{};
std::atomic_bool m_quit;
std::atomic<AvState> m_current_state; std::atomic<AvState> m_current_state;
std::atomic<AvState> m_previous_state; std::atomic<AvState> m_previous_state;
u32 m_thread_priority; u32 m_thread_priority;
u32 m_thread_affinity; u32 m_thread_affinity;
std::atomic_uint32_t m_some_event_result{}; std::atomic_uint32_t m_some_event_result{};
PthreadMutex m_state_machine_mutex{}; std::mutex m_state_machine_mutex{};
PthreadMutex m_event_handler_mutex{}; std::mutex m_event_handler_mutex{};
ScePthread m_controller_thread{}; std::jthread m_controller_thread{};
AvPlayerQueue<AvPlayerEvent> m_event_queue{}; AvPlayerQueue<AvPlayerEvent> m_event_queue{};
}; };

View File

@ -158,24 +158,19 @@ void init_pthreads();
void pthreadInitSelfMainThread(); void pthreadInitSelfMainThread();
int PS4_SYSV_ABI scePthreadAttrInit(ScePthreadAttr* attr); int PS4_SYSV_ABI scePthreadAttrInit(ScePthreadAttr* attr);
int PS4_SYSV_ABI scePthreadAttrDestroy(ScePthreadAttr* attr);
int PS4_SYSV_ABI scePthreadAttrSetdetachstate(ScePthreadAttr* attr, int detachstate); int PS4_SYSV_ABI scePthreadAttrSetdetachstate(ScePthreadAttr* attr, int detachstate);
int PS4_SYSV_ABI scePthreadAttrSetinheritsched(ScePthreadAttr* attr, int inheritSched); int PS4_SYSV_ABI scePthreadAttrSetinheritsched(ScePthreadAttr* attr, int inheritSched);
int PS4_SYSV_ABI scePthreadAttrSetschedparam(ScePthreadAttr* attr, int PS4_SYSV_ABI scePthreadAttrSetschedparam(ScePthreadAttr* attr,
const SceKernelSchedParam* param); const SceKernelSchedParam* param);
int PS4_SYSV_ABI scePthreadAttrSetschedpolicy(ScePthreadAttr* attr, int policy); int PS4_SYSV_ABI scePthreadAttrSetschedpolicy(ScePthreadAttr* attr, int policy);
ScePthread PS4_SYSV_ABI scePthreadSelf();
int PS4_SYSV_ABI scePthreadAttrSetaffinity(ScePthreadAttr* pattr, int PS4_SYSV_ABI scePthreadAttrSetaffinity(ScePthreadAttr* pattr,
const /*SceKernelCpumask*/ u64 mask); const /*SceKernelCpumask*/ u64 mask);
int PS4_SYSV_ABI scePthreadAttrSetstacksize(ScePthreadAttr* attr, size_t stack_size);
ScePthread PS4_SYSV_ABI scePthreadSelf();
int PS4_SYSV_ABI scePthreadSetaffinity(ScePthread thread, const /*SceKernelCpumask*/ u64 mask); int PS4_SYSV_ABI scePthreadSetaffinity(ScePthread thread, const /*SceKernelCpumask*/ u64 mask);
int PS4_SYSV_ABI scePthreadGetaffinity(ScePthread thread, /*SceKernelCpumask*/ u64* mask); int PS4_SYSV_ABI scePthreadGetaffinity(ScePthread thread, /*SceKernelCpumask*/ u64* mask);
int PS4_SYSV_ABI scePthreadCreate(ScePthread* thread, const ScePthreadAttr* attr, int PS4_SYSV_ABI scePthreadCreate(ScePthread* thread, const ScePthreadAttr* attr,
PthreadEntryFunc start_routine, void* arg, const char* name); PthreadEntryFunc start_routine, void* arg, const char* name);
[[noreturn]] void PS4_SYSV_ABI scePthreadExit(void* value_ptr);
int PS4_SYSV_ABI scePthreadJoin(ScePthread thread, void** res);
int PS4_SYSV_ABI scePthreadGetprio(ScePthread thread, int* prio);
int PS4_SYSV_ABI scePthreadSetprio(ScePthread thread, int prio); int PS4_SYSV_ABI scePthreadSetprio(ScePthread thread, int prio);
/*** /***
@ -183,14 +178,11 @@ int PS4_SYSV_ABI scePthreadSetprio(ScePthread thread, int prio);
*/ */
int PS4_SYSV_ABI scePthreadMutexInit(ScePthreadMutex* mutex, const ScePthreadMutexattr* attr, int PS4_SYSV_ABI scePthreadMutexInit(ScePthreadMutex* mutex, const ScePthreadMutexattr* attr,
const char* name); const char* name);
int PS4_SYSV_ABI scePthreadMutexDestroy(ScePthreadMutex* mutex);
int PS4_SYSV_ABI scePthreadMutexLock(ScePthreadMutex* mutex);
int PS4_SYSV_ABI scePthreadMutexUnlock(ScePthreadMutex* mutex);
int PS4_SYSV_ABI scePthreadMutexattrDestroy(ScePthreadMutexattr* attr);
int PS4_SYSV_ABI scePthreadMutexattrInit(ScePthreadMutexattr* attr); int PS4_SYSV_ABI scePthreadMutexattrInit(ScePthreadMutexattr* attr);
int PS4_SYSV_ABI scePthreadMutexattrSettype(ScePthreadMutexattr* attr, int type); int PS4_SYSV_ABI scePthreadMutexattrSettype(ScePthreadMutexattr* attr, int type);
int PS4_SYSV_ABI scePthreadMutexattrSetprotocol(ScePthreadMutexattr* attr, int protocol); int PS4_SYSV_ABI scePthreadMutexattrSetprotocol(ScePthreadMutexattr* attr, int protocol);
int PS4_SYSV_ABI scePthreadMutexLock(ScePthreadMutex* mutex);
int PS4_SYSV_ABI scePthreadMutexUnlock(ScePthreadMutex* mutex);
/**** /****
* Cond calls * Cond calls
*/ */

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@ -50,7 +50,6 @@ u64 PS4_SYSV_ABI sceKernelGetProcessTime();
u64 PS4_SYSV_ABI sceKernelGetProcessTimeCounter(); u64 PS4_SYSV_ABI sceKernelGetProcessTimeCounter();
u64 PS4_SYSV_ABI sceKernelGetProcessTimeCounterFrequency(); u64 PS4_SYSV_ABI sceKernelGetProcessTimeCounterFrequency();
u64 PS4_SYSV_ABI sceKernelReadTsc(); u64 PS4_SYSV_ABI sceKernelReadTsc();
int PS4_SYSV_ABI sceKernelUsleep(u32 microseconds);
void timeSymbolsRegister(Core::Loader::SymbolsResolver* sym); void timeSymbolsRegister(Core::Loader::SymbolsResolver* sym);

View File

@ -792,10 +792,11 @@ int PS4_SYSV_ABI sceSaveDataTransferringMount() {
} }
s32 PS4_SYSV_ABI sceSaveDataUmount(const OrbisSaveDataMountPoint* mountPoint) { s32 PS4_SYSV_ABI sceSaveDataUmount(const OrbisSaveDataMountPoint* mountPoint) {
LOG_INFO(Lib_SaveData, "mountPoint = {}", std::string(mountPoint->data)); if (mountPoint->data == nullptr) {
if (std::string(mountPoint->data).empty()) { LOG_WARNING(Lib_SaveData, "mountPoint = nullptr");
return ORBIS_SAVE_DATA_ERROR_NOT_MOUNTED; return ORBIS_SAVE_DATA_ERROR_NOT_MOUNTED;
} }
LOG_INFO(Lib_SaveData, "mountPoint = {}", mountPoint->data);
const auto& mount_dir = Common::FS::GetUserPath(Common::FS::PathType::SaveDataDir) / const auto& mount_dir = Common::FS::GetUserPath(Common::FS::PathType::SaveDataDir) /
std::to_string(1) / game_serial / mountPoint->data; std::to_string(1) / game_serial / mountPoint->data;
auto* mnt = Common::Singleton<Core::FileSys::MntPoints>::Instance(); auto* mnt = Common::Singleton<Core::FileSys::MntPoints>::Instance();