citra/src/audio_core/lle/lle.cpp

// 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<u8>& 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<u16>(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<u8> ReadPipe(u8 pipe_index, u16 bsize) {
        PipeStatus pipe_status = GetPipeStatus(pipe_index, PipeDirection::DSPtoCPU);
        bool need_update = false;
        std::vector<u8> 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<u16>(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<u8>(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<u8> DspLle::PipeRead(DspPipe pipe_number, u32 length) {
    return impl->ReadPipe(static_cast<u8>(pipe_number), static_cast<u16>(length));
}

std::size_t DspLle::GetPipeReadableSize(DspPipe pipe_number) const {
    return impl->GetPipeReadableSize(static_cast<u8>(pipe_number));
}

void DspLle::PipeWrite(DspPipe pipe_number, const std::vector<u8>& buffer) {
    impl->WritePipe(static_cast<u8>(pipe_number), buffer);
}

DspLle::DspLle() : impl(std::make_unique<Impl>()) {}
DspLle::~DspLle() = default;

} // namespace AudioCore
audio_core: add teakra and lle interface 2018-12-06 12:14:54 +00:00			`// 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"`
audio_core/lle: implement PipeWrite 2018-12-06 12:42:07 +00:00			`#include "common/assert.h"`
			`#include "common/swap.h"`
audio_core: add teakra and lle interface 2018-12-06 12:14:54 +00:00			`#include "teakra/teakra.h"`

			`namespace AudioCore {`

audio_core/lle: implement PipeWrite 2018-12-06 12:42:07 +00:00			`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;`
			`}`

audio_core: add teakra and lle interface 2018-12-06 12:14:54 +00:00			`struct DspLle::Impl final {`
			`Teakra::Teakra teakra;`
audio_core/lle: implement PipeWrite 2018-12-06 12:42:07 +00:00			`u16 pipe_base_waddr = 0;`
audio_core/lle: implement RecvData 2018-12-06 12:22:31 +00:00
			`static constexpr unsigned TeakraSlice = 20000;`
			`void RunTeakraSlice() {`
			`teakra.Run(TeakraSlice);`
			`}`
audio_core/lle: implement PipeWrite 2018-12-06 12:42:07 +00:00
			`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<u8>& 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<u16>(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);`
			`}`
			`}`
audio_core/lle: implement PipeRead/GetPipeReadableSize 2018-12-06 12:49:07 +00:00
			`std::vector<u8> ReadPipe(u8 pipe_index, u16 bsize) {`
			`PipeStatus pipe_status = GetPipeStatus(pipe_index, PipeDirection::DSPtoCPU);`
			`bool need_update = false;`
			`std::vector<u8> 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<u16>(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;`
			`}`
audio_core: add teakra and lle interface 2018-12-06 12:14:54 +00:00			`};`

audio_core/lle: implement RecvData 2018-12-06 12:22:31 +00:00			`u16 DspLle::RecvData(u32 register_number) {`
			`while (!impl->teakra.RecvDataIsReady(register_number)) {`
			`impl->RunTeakraSlice();`
			`}`
			`return impl->teakra.RecvData(static_cast<u8>(register_number));`
			`}`

audio_core/lle: implement RecvDataIsReady 2018-12-06 12:30:10 +00:00			`bool DspLle::RecvDataIsReady(u32 register_number) const {`
			`return impl->teakra.RecvDataIsReady(register_number);`
			`}`

audio_core/hle,lle: implement SetSemaphore 2018-12-06 12:35:07 +00:00			`void DspLle::SetSemaphore(u16 semaphore_value) {`
			`impl->teakra.SetSemaphore(semaphore_value);`
			`}`

audio_core/lle: implement PipeRead/GetPipeReadableSize 2018-12-06 12:49:07 +00:00			`std::vector<u8> DspLle::PipeRead(DspPipe pipe_number, u32 length) {`
			`return impl->ReadPipe(static_cast<u8>(pipe_number), static_cast<u16>(length));`
			`}`

			`std::size_t DspLle::GetPipeReadableSize(DspPipe pipe_number) const {`
			`return impl->GetPipeReadableSize(static_cast<u8>(pipe_number));`
			`}`

audio_core/lle: implement PipeWrite 2018-12-06 12:42:07 +00:00			`void DspLle::PipeWrite(DspPipe pipe_number, const std::vector<u8>& buffer) {`
			`impl->WritePipe(static_cast<u8>(pipe_number), buffer);`
			`}`

audio_core: add teakra and lle interface 2018-12-06 12:14:54 +00:00			`DspLle::DspLle() : impl(std::make_unique<Impl>()) {}`
			`DspLle::~DspLle() = default;`

			`} // namespace AudioCore`