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https://github.com/PabloMK7/citra
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tests/audio_core: add sanity test cases for LLE vs HLE
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6 changed files with 266 additions and 1 deletions
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@ -123,7 +123,6 @@ struct BinaryMessage {
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EncodeAACResponse encode_aac_response;
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};
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};
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static_assert(sizeof(BinaryMessage) == 32, "Unexpected struct size for BinaryMessage");
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enum_le<DecoderSampleRate> GetSampleRateEnum(u32 sample_rate);
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@ -468,6 +468,14 @@ void DspLle::SetServiceToInterrupt(std::weak_ptr<Service::DSP::DSP_DSP> dsp) {
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impl->teakra.SetSemaphoreHandler([ProcessPipeEvent]() { ProcessPipeEvent(false); });
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}
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void DspLle::SetSemaphoreHandler(std::function<void()> handler) {
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impl->teakra.SetSemaphoreHandler(handler);
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}
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void DspLle::SetRecvDataHandler(u8 index, std::function<void()> handler) {
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impl->teakra.SetRecvDataHandler(index, handler);
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}
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void DspLle::LoadComponent(const std::vector<u8>& buffer) {
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impl->LoadComponent(buffer);
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}
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@ -28,6 +28,9 @@ public:
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void SetServiceToInterrupt(std::weak_ptr<Service::DSP::DSP_DSP> dsp) override;
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void SetSemaphoreHandler(std::function<void()> handler);
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void SetRecvDataHandler(u8 index, std::function<void()> handler);
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void LoadComponent(const std::vector<u8>& buffer) override;
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void UnloadComponent() override;
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@ -11,6 +11,8 @@ add_executable(tests
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core/memory/memory.cpp
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core/memory/vm_manager.cpp
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precompiled_headers.h
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audio_core/hle/hle.cpp
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audio_core/lle/lle.cpp
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audio_core/audio_fixures.h
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audio_core/decoder_tests.cpp
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video_core/shader/shader_jit_x64_compiler.cpp
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143
src/tests/audio_core/hle/hle.cpp
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143
src/tests/audio_core/hle/hle.cpp
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@ -0,0 +1,143 @@
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// Copyright 2023 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <catch2/catch_test_macros.hpp>
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#include "audio_core/hle/decoder.h"
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#include "audio_core/hle/hle.h"
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#include "audio_core/lle/lle.h"
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#include "common/common_paths.h"
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#include "core/core_timing.h"
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#include "core/memory.h"
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TEST_CASE("DSP LLE vs HLE", "[audio_core][hle]") {
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Memory::MemorySystem hle_memory;
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Core::Timing hle_core_timing(1, 100);
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Memory::MemorySystem lle_memory;
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Core::Timing lle_core_timing(1, 100);
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AudioCore::DspHle hle(hle_memory, hle_core_timing);
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AudioCore::DspLle lle(lle_memory, lle_core_timing, true);
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// Initialiase LLE
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{
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FileUtil::SetUserPath();
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// see tests/audio_core/lle/lle.cpp for details on dspaudio.cdc
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std::string firm_filepath =
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FileUtil::GetUserPath(FileUtil::UserPath::SDMCDir) + "3ds" DIR_SEP "dspaudio.cdc";
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if (!FileUtil::Exists(firm_filepath)) {
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SKIP("Test requires dspaudio.cdc");
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}
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FileUtil::IOFile firm_file(firm_filepath, "rb");
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std::vector<u8> firm_file_buf(firm_file.GetSize());
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firm_file.ReadArray(firm_file_buf.data(), firm_file_buf.size());
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lle.LoadComponent(firm_file_buf);
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lle.SetSemaphoreHandler([&lle]() {
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u16 slot = lle.RecvData(2);
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u16 side = slot % 2;
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u16 pipe = slot / 2;
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fmt::print("SetSemaphoreHandler slot={}\n", slot);
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if (pipe > 15)
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return;
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if (side != 0)
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return;
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if (pipe == 0) {
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// pipe 0 is for debug. 3DS automatically drains this pipe and discards the
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// data
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lle.PipeRead(static_cast<AudioCore::DspPipe>(pipe),
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lle.GetPipeReadableSize(static_cast<AudioCore::DspPipe>(pipe)));
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}
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});
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lle.SetRecvDataHandler(0, []() { fmt::print("SetRecvDataHandler 0\n"); });
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lle.SetRecvDataHandler(1, []() { fmt::print("SetRecvDataHandler 1\n"); });
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lle.SetRecvDataHandler(2, []() { fmt::print("SetRecvDataHandler 2\n"); });
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}
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SECTION("Initialise Audio Pipe") {
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std::vector<u8> buffer(4, 0);
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buffer[0] = 0;
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// LLE
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{
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lle.PipeWrite(AudioCore::DspPipe::Audio, buffer);
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lle.SetSemaphore(0x4000);
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// todo: wait for interrupt
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do {
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lle_core_timing.GetTimer(0)->AddTicks(lle_core_timing.GetTimer(0)->GetDowncount());
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lle_core_timing.GetTimer(0)->Advance();
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lle_core_timing.GetTimer(0)->SetNextSlice();
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} while (lle.GetPipeReadableSize(AudioCore::DspPipe::Audio) == 0);
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REQUIRE(lle.GetPipeReadableSize(AudioCore::DspPipe::Audio) >= 32);
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}
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std::vector<u8> lle_read_buffer;
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lle_read_buffer = lle.PipeRead(AudioCore::DspPipe::Audio, 2);
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u16 lle_size;
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memcpy(&lle_size, lle_read_buffer.data(), sizeof(lle_size));
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lle_read_buffer = lle.PipeRead(AudioCore::DspPipe::Audio, lle_size * 2);
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// HLE
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{
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hle.PipeWrite(AudioCore::DspPipe::Audio, buffer);
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REQUIRE(hle.GetPipeReadableSize(AudioCore::DspPipe::Audio) >= 32);
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}
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std::vector<u8> hle_read_buffer(32);
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hle_read_buffer = hle.PipeRead(AudioCore::DspPipe::Audio, 2);
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u16 hle_size;
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memcpy(&hle_size, hle_read_buffer.data(), sizeof(hle_size));
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hle_read_buffer = hle.PipeRead(AudioCore::DspPipe::Audio, hle_size * 2);
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REQUIRE(hle_size == lle_size);
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REQUIRE(hle_read_buffer == lle_read_buffer);
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}
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SECTION("Initialise Binary Pipe") {
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std::vector<u8> buffer(32, 0);
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AudioCore::HLE::BinaryMessage& request =
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*reinterpret_cast<AudioCore::HLE::BinaryMessage*>(buffer.data());
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request.header.codec = AudioCore::HLE::DecoderCodec::DecodeAAC;
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request.header.cmd = AudioCore::HLE::DecoderCommand::Init;
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// Values used by Pokemon X
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request.header.result = static_cast<AudioCore::HLE::ResultStatus>(3);
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request.decode_aac_init.unknown1 = 1;
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request.decode_aac_init.unknown2 = 0xFFFF'FFFF;
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request.decode_aac_init.unknown3 = 1;
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request.decode_aac_init.unknown4 = 0;
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request.decode_aac_init.unknown5 = 1;
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request.decode_aac_init.unknown6 = 0x20;
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// LLE
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lle.PipeWrite(AudioCore::DspPipe::Binary, buffer);
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lle.SetSemaphore(0x4000);
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// todo: wait for interrupt
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do {
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lle_core_timing.GetTimer(0)->AddTicks(lle_core_timing.GetTimer(0)->GetDowncount());
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lle_core_timing.GetTimer(0)->Advance();
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lle_core_timing.GetTimer(0)->SetNextSlice();
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} while (lle.GetPipeReadableSize(AudioCore::DspPipe::Binary) == 0);
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REQUIRE(lle.GetPipeReadableSize(AudioCore::DspPipe::Binary) >= 32);
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std::vector<u8> lle_read_buffer = lle.PipeRead(AudioCore::DspPipe::Binary, 32);
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AudioCore::HLE::BinaryMessage& resp =
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*reinterpret_cast<AudioCore::HLE::BinaryMessage*>(lle_read_buffer.data());
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CHECK(resp.header.result == AudioCore::HLE::ResultStatus::Success);
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// HLE
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{
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hle.PipeWrite(AudioCore::DspPipe::Binary, buffer);
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REQUIRE(hle.GetPipeReadableSize(AudioCore::DspPipe::Binary) >= 32);
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}
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std::vector<u8> hle_read_buffer = hle.PipeRead(AudioCore::DspPipe::Binary, 32);
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REQUIRE(hle_read_buffer == lle_read_buffer);
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}
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}
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110
src/tests/audio_core/lle/lle.cpp
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110
src/tests/audio_core/lle/lle.cpp
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// Copyright 2023 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <catch2/catch_test_macros.hpp>
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#include "audio_core/hle/decoder.h"
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#include "audio_core/lle/lle.h"
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#include "common/common_paths.h"
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#include "core/core_timing.h"
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#include "core/memory.h"
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TEST_CASE("DSP LLE Sanity", "[audio_core][lle]") {
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Memory::MemorySystem memory;
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Core::Timing core_timing(1, 100);
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AudioCore::DspLle lle(memory, core_timing, true);
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{
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FileUtil::SetUserPath();
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// dspaudio.cdc can be dumped from Pokemon X & Y, It can be found in the romfs at
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// "rom:/sound/dspaudio.cdc".
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// One could also extract the firmware from the 3DS sound app using a modified version of
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// https://github.com/zoogie/DSP1.
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std::string firm_filepath =
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FileUtil::GetUserPath(FileUtil::UserPath::SDMCDir) + "3ds" DIR_SEP "dspaudio.cdc";
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if (!FileUtil::Exists(firm_filepath)) {
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SKIP("Test requires dspaudio.cdc");
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}
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FileUtil::IOFile firm_file(firm_filepath, "rb");
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std::vector<u8> firm_file_buf(firm_file.GetSize());
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firm_file.ReadArray(firm_file_buf.data(), firm_file_buf.size());
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lle.LoadComponent(firm_file_buf);
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}
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lle.SetSemaphoreHandler([&lle]() {
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u16 slot = lle.RecvData(2);
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u16 side = slot % 2;
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u16 pipe = slot / 2;
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fmt::print("SetSemaphoreHandler slot={}\n", slot);
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if (pipe > 15)
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return;
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if (side != 0)
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return;
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if (pipe == 0) {
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// pipe 0 is for debug. 3DS automatically drains this pipe and discards the
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// data
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lle.PipeRead(static_cast<AudioCore::DspPipe>(pipe),
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lle.GetPipeReadableSize(static_cast<AudioCore::DspPipe>(pipe)));
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}
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});
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lle.SetRecvDataHandler(0, []() { fmt::print("SetRecvDataHandler 0\n"); });
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lle.SetRecvDataHandler(1, []() { fmt::print("SetRecvDataHandler 1\n"); });
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lle.SetRecvDataHandler(2, []() { fmt::print("SetRecvDataHandler 2\n"); });
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SECTION("Initialise Audio Pipe") {
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std::vector<u8> buffer(4, 0);
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buffer[0] = 0;
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lle.PipeWrite(AudioCore::DspPipe::Audio, buffer);
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lle.SetSemaphore(0x4000);
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// todo: wait for interrupt
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do {
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core_timing.GetTimer(0)->AddTicks(core_timing.GetTimer(0)->GetDowncount());
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core_timing.GetTimer(0)->Advance();
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core_timing.GetTimer(0)->SetNextSlice();
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} while (lle.GetPipeReadableSize(AudioCore::DspPipe::Audio) == 0);
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REQUIRE(lle.GetPipeReadableSize(AudioCore::DspPipe::Audio) >= 32);
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buffer = lle.PipeRead(AudioCore::DspPipe::Audio, 2);
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u16 size;
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memcpy(&size, buffer.data(), sizeof(size));
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// see AudioCore::DspHle::Impl::AudioPipeWriteStructAddresses()
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REQUIRE(size * 2 == 30);
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}
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SECTION("Initialise EncodeAAC - Binary Pipe") {
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std::vector<u8> buffer(32, 0);
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AudioCore::HLE::BinaryMessage& request =
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*reinterpret_cast<AudioCore::HLE::BinaryMessage*>(buffer.data());
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request.header.codec = AudioCore::HLE::DecoderCodec::EncodeAAC;
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request.header.cmd = AudioCore::HLE::DecoderCommand::Init;
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// Values used by the 3DS sound app.
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request.encode_aac_init.unknown1 = 1;
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request.encode_aac_init.sample_rate = static_cast<AudioCore::HLE::DecoderSampleRate>(5);
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request.encode_aac_init.unknown3 = 2;
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request.encode_aac_init.unknown4 = 0;
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request.encode_aac_init.unknown5 = rand();
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request.encode_aac_init.unknown6 = rand();
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lle.PipeWrite(AudioCore::DspPipe::Binary, buffer);
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lle.SetSemaphore(0x4000);
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// todo: wait for interrupt
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do {
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core_timing.GetTimer(0)->AddTicks(core_timing.GetTimer(0)->GetDowncount());
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core_timing.GetTimer(0)->Advance();
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core_timing.GetTimer(0)->SetNextSlice();
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} while (lle.GetPipeReadableSize(AudioCore::DspPipe::Binary) == 0);
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REQUIRE(lle.GetPipeReadableSize(AudioCore::DspPipe::Binary) >= 32);
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buffer = lle.PipeRead(AudioCore::DspPipe::Binary, 32);
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AudioCore::HLE::BinaryMessage& resp =
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*reinterpret_cast<AudioCore::HLE::BinaryMessage*>(buffer.data());
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REQUIRE(resp.header.result == AudioCore::HLE::ResultStatus::Success);
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REQUIRE(resp.data == request.data);
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}
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}
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