// Copyright 2018 Citra Emulator Project // Licensed under GPLv2 or any later version // Refer to the license.txt file included. #include "audio_core/lle/lle.h" #include "common/assert.h" #include "common/swap.h" #include "teakra/teakra.h" namespace AudioCore { struct PipeStatus { u16_le waddress; u16_le bsize; u16_le read_bptr; u16_le write_bptr; u8 slot_index; u8 flags; }; static_assert(sizeof(PipeStatus) == 10); enum class PipeDirection : u8 { DSPtoCPU = 0, CPUtoDSP = 1, }; static u8 PipeIndexToSlotIndex(u8 pipe_index, PipeDirection direction) { return (pipe_index << 1) + (u8)direction; } struct DspLle::Impl final { Teakra::Teakra teakra; u16 pipe_base_waddr = 0; static constexpr unsigned TeakraSlice = 20000; void RunTeakraSlice() { teakra.Run(TeakraSlice); } u8* GetDspDataPointer(u32 baddr) { auto& memory = teakra.GetDspMemory(); return &memory[0x40000 + baddr]; } PipeStatus GetPipeStatus(u8 pipe_index, PipeDirection direction) { u8 slot_index = PipeIndexToSlotIndex(pipe_index, direction); PipeStatus pipe_status; std::memcpy(&pipe_status, GetDspDataPointer(pipe_base_waddr * 2 + slot_index * sizeof(PipeStatus)), sizeof(PipeStatus)); ASSERT(pipe_status.slot_index == slot_index); return pipe_status; } void UpdatePipeStatus(const PipeStatus& pipe_status) { u8 slot_index = pipe_status.slot_index; u8* status_address = GetDspDataPointer(pipe_base_waddr * 2 + slot_index * sizeof(PipeStatus)); if (slot_index % 2 == 0) { std::memcpy(status_address + 4, &pipe_status.read_bptr, sizeof(u16)); } else { std::memcpy(status_address + 6, &pipe_status.write_bptr, sizeof(u16)); } } void WritePipe(u8 pipe_index, const std::vector& data) { PipeStatus pipe_status = GetPipeStatus(pipe_index, PipeDirection::CPUtoDSP); bool need_update = false; const u8* buffer_ptr = data.data(); u16 bsize = (u16)data.size(); while (bsize != 0) { u16 x = pipe_status.read_bptr ^ pipe_status.write_bptr; ASSERT_MSG(x != 0x8000, "Pipe is Full"); u16 write_bend; if (x > 0x8000) write_bend = pipe_status.read_bptr & 0x7FFF; else write_bend = pipe_status.bsize; u16 write_bbegin = pipe_status.write_bptr & 0x7FFF; ASSERT_MSG(write_bend > write_bbegin, "Pipe is in inconsistent state: end {:04X} <= begin {:04X}, size {:04X}", write_bend, write_bbegin, pipe_status.bsize); u16 write_bsize = std::min(bsize, write_bend - write_bbegin); std::memcpy(GetDspDataPointer(pipe_status.waddress * 2 + write_bbegin), buffer_ptr, write_bsize); buffer_ptr += write_bsize; pipe_status.write_bptr += write_bsize; bsize -= write_bsize; ASSERT_MSG((pipe_status.write_bptr & 0x7FFF) <= pipe_status.bsize, "Pipe is in inconsistent state: write > size"); if ((pipe_status.write_bptr & 0x7FFF) == pipe_status.bsize) { pipe_status.write_bptr &= 0x8000; pipe_status.write_bptr ^= 0x8000; } need_update = true; } if (need_update) { UpdatePipeStatus(pipe_status); while (!teakra.SendDataIsEmpty(2)) RunTeakraSlice(); teakra.SendData(2, pipe_status.slot_index); } } std::vector ReadPipe(u8 pipe_index, u16 bsize) { PipeStatus pipe_status = GetPipeStatus(pipe_index, PipeDirection::DSPtoCPU); bool need_update = false; std::vector data(bsize); u8* buffer_ptr = data.data(); while (bsize != 0) { u16 x = pipe_status.read_bptr ^ pipe_status.write_bptr; ASSERT_MSG(x != 0, "Pipe is empty"); u16 read_bend; if (x >= 0x8000) { read_bend = pipe_status.bsize; } else { read_bend = pipe_status.write_bptr & 0x7FFF; } u16 read_bbegin = pipe_status.read_bptr & 0x7FFF; ASSERT(read_bend > read_bbegin); u16 read_bsize = std::min(bsize, read_bend - read_bbegin); std::memcpy(buffer_ptr, GetDspDataPointer(pipe_status.waddress * 2 + read_bbegin), read_bsize); buffer_ptr += read_bsize; pipe_status.read_bptr += read_bsize; bsize -= read_bsize; ASSERT_MSG((pipe_status.read_bptr & 0x7FFF) <= pipe_status.bsize, "Pipe is in inconsistent state: read > size"); if ((pipe_status.read_bptr & 0x7FFF) == pipe_status.bsize) { pipe_status.read_bptr &= 0x8000; pipe_status.read_bptr ^= 0x8000; } need_update = true; } if (need_update) { UpdatePipeStatus(pipe_status); while (!teakra.SendDataIsEmpty(2)) RunTeakraSlice(); teakra.SendData(2, pipe_status.slot_index); } return data; } u16 GetPipeReadableSize(u8 pipe_index) { PipeStatus pipe_status = GetPipeStatus(pipe_index, PipeDirection::DSPtoCPU); u16 size = pipe_status.write_bptr - pipe_status.read_bptr; if ((pipe_status.read_bptr ^ pipe_status.write_bptr) >= 0x8000) { size += pipe_status.bsize; } return size & 0x7FFF; } }; u16 DspLle::RecvData(u32 register_number) { while (!impl->teakra.RecvDataIsReady(register_number)) { impl->RunTeakraSlice(); } return impl->teakra.RecvData(static_cast(register_number)); } bool DspLle::RecvDataIsReady(u32 register_number) const { return impl->teakra.RecvDataIsReady(register_number); } void DspLle::SetSemaphore(u16 semaphore_value) { impl->teakra.SetSemaphore(semaphore_value); } std::vector DspLle::PipeRead(DspPipe pipe_number, u32 length) { return impl->ReadPipe(static_cast(pipe_number), static_cast(length)); } std::size_t DspLle::GetPipeReadableSize(DspPipe pipe_number) const { return impl->GetPipeReadableSize(static_cast(pipe_number)); } void DspLle::PipeWrite(DspPipe pipe_number, const std::vector& buffer) { impl->WritePipe(static_cast(pipe_number), buffer); } DspLle::DspLle() : impl(std::make_unique()) {} DspLle::~DspLle() = default; } // namespace AudioCore