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https://github.com/skyline-emu/skyline.git
synced 2024-12-29 15:45:29 +03:00
Add a way to get a readonly span of Buffer contents
Avoids the need redundantly copy data when it is being directly processed on the CPU (e.g. quad coversion)
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4c71ef5c31
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@ -220,32 +220,29 @@ namespace skyline::gpu {
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cycle = pCycle;
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}
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void Buffer::SynchronizeGuestImmediate(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback) {
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// If this buffer was attached to the current cycle, flush all pending host GPU work and wait to ensure that we read valid data
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if (cycle.owner_before(pCycle))
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flushHostCallback();
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SynchronizeGuest();
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}
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void Buffer::Read(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback, span<u8> data, vk::DeviceSize offset) {
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if (dirtyState == DirtyState::CpuDirty || dirtyState == DirtyState::Clean) {
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std::memcpy(data.data(), mirror.data() + offset, data.size());
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} else if (dirtyState == DirtyState::GpuDirty) {
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// If this buffer was attached to the current cycle, flush all pending host GPU work and wait to ensure that we read valid data
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if (cycle.owner_before(pCycle))
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flushHostCallback();
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if (dirtyState == DirtyState::GpuDirty)
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SynchronizeGuestImmediate(pCycle, flushHostCallback);
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SynchronizeGuest();
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std::memcpy(data.data(), backing.data() + offset, data.size());
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}
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std::memcpy(data.data(), mirror.data() + offset, data.size());
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}
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void Buffer::Write(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback, const std::function<void()> &gpuCopyCallback, span<u8> data, vk::DeviceSize offset) {
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InvalidateMegaBuffer(); // Since we're writing to the backing buffer the megabuffer contents will require refresh
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if (dirtyState == DirtyState::CpuDirty) {
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SynchronizeHostWithCycle(pCycle); // Perform a CPU -> GPU sync to ensure correct ordering of writes
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} else if (dirtyState == DirtyState::GpuDirty) {
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// If this buffer was attached to the current cycle, flush all pending host GPU work and wait to ensure that writes are correctly ordered
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if (cycle.owner_before(pCycle))
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flushHostCallback();
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SynchronizeGuest();
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}
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// Perform a syncs in both directions to ensure correct ordering of writes
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if (dirtyState == DirtyState::CpuDirty)
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SynchronizeHostWithCycle(pCycle);
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else if (dirtyState == DirtyState::GpuDirty)
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SynchronizeGuestImmediate(pCycle, flushHostCallback);
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if (dirtyState != DirtyState::Clean)
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Logger::Error("Attempting to write to a dirty buffer"); // This should never happen since we do syncs in both directions above
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@ -261,6 +258,41 @@ namespace skyline::gpu {
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}
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}
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BufferView Buffer::GetView(vk::DeviceSize offset, vk::DeviceSize size, vk::Format format) {
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for (auto &view : views)
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if (view.offset == offset && view.size == size && view.format == format)
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return BufferView{shared_from_this(), &view};
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views.emplace_back(offset, size, format);
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return BufferView{shared_from_this(), &views.back()};
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}
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vk::DeviceSize Buffer::AcquireMegaBuffer() {
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SynchronizeGuest(false, true); // First try and enable megabuffering by doing an immediate sync
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if (!megaBufferingEnabled)
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return 0; // Bail out if megabuffering is disabled for this buffer
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SynchronizeHost(); // Since pushes to the megabuffer use the GPU backing contents ensure they're up-to-date by performing a CPU -> GPU sync
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if (megaBufferOffset)
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return megaBufferOffset; // If the current buffer contents haven't been changed since the last acquire, we can just return the existing offset
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megaBufferOffset = gpu.buffer.megaBuffer.Push(backing, true); // Buffers are required to be page aligned in the megabuffer
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return megaBufferOffset;
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}
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void Buffer::InvalidateMegaBuffer() {
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megaBufferOffset = 0;
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}
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span<u8> Buffer::GetReadOnlyBackingSpan(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback) {
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if (dirtyState == DirtyState::GpuDirty)
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SynchronizeGuestImmediate(pCycle, flushHostCallback);
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return mirror;
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}
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Buffer::BufferViewStorage::BufferViewStorage(vk::DeviceSize offset, vk::DeviceSize size, vk::Format format) : offset(offset), size(size), format(format) {}
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Buffer::BufferDelegate::BufferDelegate(std::shared_ptr<Buffer> pBuffer, Buffer::BufferViewStorage *view) : buffer(std::move(pBuffer)), view(view) {
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@ -307,34 +339,6 @@ namespace skyline::gpu {
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}
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}
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BufferView Buffer::GetView(vk::DeviceSize offset, vk::DeviceSize size, vk::Format format) {
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for (auto &view : views)
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if (view.offset == offset && view.size == size && view.format == format)
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return BufferView{shared_from_this(), &view};
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views.emplace_back(offset, size, format);
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return BufferView{shared_from_this(), &views.back()};
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}
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vk::DeviceSize Buffer::AcquireMegaBuffer() {
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SynchronizeGuest(false, true); // First try and enable megabuffering by doing an immediate sync
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if (!megaBufferingEnabled)
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return 0; // Bail out if megabuffering is disabled for this buffer
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SynchronizeHost(); // Since pushes to the megabuffer use the GPU backing contents ensure they're up-to-date by performing a CPU -> GPU sync
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if (megaBufferOffset)
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return megaBufferOffset; // If the current buffer contents haven't been changed since the last acquire, we can just return the existing offset
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megaBufferOffset = gpu.buffer.megaBuffer.Push(backing, true); // Buffers are required to be page aligned in the megabuffer
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return megaBufferOffset;
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}
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void Buffer::InvalidateMegaBuffer() {
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megaBufferOffset = 0;
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}
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BufferView::BufferView(std::shared_ptr<Buffer> buffer, Buffer::BufferViewStorage *view) : bufferDelegate(std::make_shared<Buffer::BufferDelegate>(std::move(buffer), view)) {}
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void BufferView::AttachCycle(const std::shared_ptr<FenceCycle> &cycle) {
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@ -375,4 +379,9 @@ namespace skyline::gpu {
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else
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return 0;
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}
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span<u8> BufferView::GetReadOnlyBackingSpan(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback) {
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auto backing{bufferDelegate->buffer->GetReadOnlyBackingSpan(pCycle, flushHostCallback)};
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return backing.subspan(bufferDelegate->view->offset, bufferDelegate->view->size);
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}
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}
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@ -198,6 +198,14 @@ namespace skyline::gpu {
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*/
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void SynchronizeGuestWithCycle(const std::shared_ptr<FenceCycle> &cycle);
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/**
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* @brief Synchronizes the guest buffer with the host buffer immediately, flushing GPU work if necessary
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* @note The buffer **must** be locked prior to calling this
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* @param pCycle The FenceCycle associated with the current workload, utilised for waiting and flushing semantics
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* @param flushHostCallback Callback to flush and execute all pending GPU work to allow for synchronisation of GPU dirty buffers
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*/
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void SynchronizeGuestImmediate(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback);
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/**
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* @brief Reads data at the specified offset in the buffer
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* @param pCycle The FenceCycle associated with the current workload, utilised for waiting and flushing semantics
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@ -234,6 +242,15 @@ namespace skyline::gpu {
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* @note This **must** be called after any modifications of the backing buffer data
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*/
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void InvalidateMegaBuffer();
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/**
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* @param pCycle The FenceCycle associated with the current workload, utilised for waiting and flushing semantics
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* @param flushHostCallback Callback to flush and execute all pending GPU work to allow for synchronisation of GPU dirty buffers
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* @return A span of the backing buffer contents
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* @note The returned span **must** not be written to
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* @note The buffer **must** be kept locked until the span is no longer in use
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*/
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span<u8> GetReadOnlyBackingSpan(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback);
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};
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/**
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@ -317,5 +334,13 @@ namespace skyline::gpu {
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* @note See Buffer::AcquireMegaBuffer
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*/
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vk::DeviceSize AcquireMegaBuffer() const;
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/**
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* @return A span of the backing buffer contents
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* @note The returned span **must** not be written to
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* @note The view **must** be kept locked until the span is no longer in use
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* @note See Buffer::GetReadOnlyBackingSpan
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*/
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span<u8> GetReadOnlyBackingSpan(const std::shared_ptr<FenceCycle> &pCycle, const std::function<void()> &flushHostCallback);
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};
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}
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