318 lines
14 KiB
C++
318 lines
14 KiB
C++
// SPDX-FileCopyrightText: Copyright 2018 yuzu Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "common/algorithm.h"
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "common/microprofile.h"
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#include "common/settings.h"
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#include "core/core.h"
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#include "video_core/engines/maxwell_3d.h"
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#include "video_core/engines/maxwell_dma.h"
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#include "video_core/memory_manager.h"
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#include "video_core/renderer_base.h"
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#include "video_core/textures/decoders.h"
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MICROPROFILE_DECLARE(GPU_DMAEngine);
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MICROPROFILE_DEFINE(GPU_DMAEngine, "GPU", "DMA Engine", MP_RGB(224, 224, 128));
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namespace Tegra::Engines {
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using namespace Texture;
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MaxwellDMA::MaxwellDMA(Core::System& system_, MemoryManager& memory_manager_)
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: system{system_}, memory_manager{memory_manager_} {}
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MaxwellDMA::~MaxwellDMA() = default;
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void MaxwellDMA::BindRasterizer(VideoCore::RasterizerInterface* rasterizer_) {
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rasterizer = rasterizer_;
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}
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void MaxwellDMA::CallMethod(u32 method, u32 method_argument, bool is_last_call) {
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ASSERT_MSG(method < NUM_REGS, "Invalid MaxwellDMA register");
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regs.reg_array[method] = method_argument;
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if (method == offsetof(Regs, launch_dma) / sizeof(u32)) {
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Launch();
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}
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}
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void MaxwellDMA::CallMultiMethod(u32 method, const u32* base_start, u32 amount,
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u32 methods_pending) {
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for (size_t i = 0; i < amount; ++i) {
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CallMethod(method, base_start[i], methods_pending - static_cast<u32>(i) <= 1);
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}
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}
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void MaxwellDMA::Launch() {
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MICROPROFILE_SCOPE(GPU_DMAEngine);
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LOG_TRACE(Render_OpenGL, "DMA copy 0x{:x} -> 0x{:x}", static_cast<GPUVAddr>(regs.offset_in),
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static_cast<GPUVAddr>(regs.offset_out));
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// TODO(Subv): Perform more research and implement all features of this engine.
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const LaunchDMA& launch = regs.launch_dma;
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ASSERT(launch.interrupt_type == LaunchDMA::InterruptType::NONE);
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ASSERT(launch.data_transfer_type == LaunchDMA::DataTransferType::NON_PIPELINED);
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if (launch.multi_line_enable) {
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const bool is_src_pitch = launch.src_memory_layout == LaunchDMA::MemoryLayout::PITCH;
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const bool is_dst_pitch = launch.dst_memory_layout == LaunchDMA::MemoryLayout::PITCH;
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if (!is_src_pitch && !is_dst_pitch) {
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// If both the source and the destination are in block layout, assert.
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UNIMPLEMENTED_MSG("Tiled->Tiled DMA transfers are not yet implemented");
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return;
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}
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if (is_src_pitch && is_dst_pitch) {
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for (u32 line = 0; line < regs.line_count; ++line) {
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const GPUVAddr source_line =
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regs.offset_in + static_cast<size_t>(line) * regs.pitch_in;
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const GPUVAddr dest_line =
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regs.offset_out + static_cast<size_t>(line) * regs.pitch_out;
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memory_manager.CopyBlock(dest_line, source_line, regs.line_length_in);
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}
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} else {
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if (!is_src_pitch && is_dst_pitch) {
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CopyBlockLinearToPitch();
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} else {
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CopyPitchToBlockLinear();
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}
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}
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} else {
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// TODO: allow multisized components.
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auto& accelerate = rasterizer->AccessAccelerateDMA();
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const bool is_const_a_dst = regs.remap_const.dst_x == RemapConst::Swizzle::CONST_A;
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if (regs.launch_dma.remap_enable != 0 && is_const_a_dst) {
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ASSERT(regs.remap_const.component_size_minus_one == 3);
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accelerate.BufferClear(regs.offset_out, regs.line_length_in, regs.remap_consta_value);
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std::vector<u32> tmp_buffer(regs.line_length_in, regs.remap_consta_value);
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memory_manager.WriteBlockUnsafe(regs.offset_out,
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reinterpret_cast<u8*>(tmp_buffer.data()),
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regs.line_length_in * sizeof(u32));
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} else {
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auto convert_linear_2_blocklinear_addr = [](u64 address) {
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return (address & ~0x1f0ULL) | ((address & 0x40) >> 2) | ((address & 0x10) << 1) |
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((address & 0x180) >> 1) | ((address & 0x20) << 3);
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};
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auto src_kind = memory_manager.GetPageKind(regs.offset_in);
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auto dst_kind = memory_manager.GetPageKind(regs.offset_out);
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const bool is_src_pitch = IsPitchKind(static_cast<PTEKind>(src_kind));
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const bool is_dst_pitch = IsPitchKind(static_cast<PTEKind>(dst_kind));
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if (!is_src_pitch && is_dst_pitch) {
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std::vector<u8> tmp_buffer(regs.line_length_in);
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std::vector<u8> dst_buffer(regs.line_length_in);
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memory_manager.ReadBlockUnsafe(regs.offset_in, tmp_buffer.data(),
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regs.line_length_in);
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for (u32 offset = 0; offset < regs.line_length_in; ++offset) {
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dst_buffer[offset] =
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tmp_buffer[convert_linear_2_blocklinear_addr(regs.offset_in + offset) -
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regs.offset_in];
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}
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memory_manager.WriteBlock(regs.offset_out, dst_buffer.data(), regs.line_length_in);
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} else if (is_src_pitch && !is_dst_pitch) {
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std::vector<u8> tmp_buffer(regs.line_length_in);
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std::vector<u8> dst_buffer(regs.line_length_in);
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memory_manager.ReadBlockUnsafe(regs.offset_in, tmp_buffer.data(),
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regs.line_length_in);
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for (u32 offset = 0; offset < regs.line_length_in; ++offset) {
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dst_buffer[convert_linear_2_blocklinear_addr(regs.offset_out + offset) -
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regs.offset_out] = tmp_buffer[offset];
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}
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memory_manager.WriteBlock(regs.offset_out, dst_buffer.data(), regs.line_length_in);
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} else {
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if (!accelerate.BufferCopy(regs.offset_in, regs.offset_out, regs.line_length_in)) {
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std::vector<u8> tmp_buffer(regs.line_length_in);
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memory_manager.ReadBlockUnsafe(regs.offset_in, tmp_buffer.data(),
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regs.line_length_in);
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memory_manager.WriteBlock(regs.offset_out, tmp_buffer.data(),
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regs.line_length_in);
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}
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}
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}
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}
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ReleaseSemaphore();
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}
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void MaxwellDMA::CopyBlockLinearToPitch() {
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UNIMPLEMENTED_IF(regs.src_params.block_size.width != 0);
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UNIMPLEMENTED_IF(regs.src_params.layer != 0);
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const bool is_remapping = regs.launch_dma.remap_enable != 0;
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// Optimized path for micro copies.
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const size_t dst_size = static_cast<size_t>(regs.pitch_out) * regs.line_count;
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if (!is_remapping && dst_size < GOB_SIZE && regs.pitch_out <= GOB_SIZE_X &&
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regs.src_params.height > GOB_SIZE_Y) {
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FastCopyBlockLinearToPitch();
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return;
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}
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// Deswizzle the input and copy it over.
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const Parameters& src_params = regs.src_params;
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const u32 num_remap_components = regs.remap_const.num_dst_components_minus_one + 1;
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const u32 remap_components_size = regs.remap_const.component_size_minus_one + 1;
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const u32 base_bpp = !is_remapping ? 1U : num_remap_components * remap_components_size;
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u32 width = src_params.width;
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u32 x_elements = regs.line_length_in;
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u32 x_offset = src_params.origin.x;
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u32 bpp_shift = 0U;
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if (!is_remapping) {
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bpp_shift = Common::FoldRight(
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4U, [](u32 x, u32 y) { return std::min(x, static_cast<u32>(std::countr_zero(y))); },
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width, x_elements, x_offset, static_cast<u32>(regs.offset_in));
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width >>= bpp_shift;
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x_elements >>= bpp_shift;
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x_offset >>= bpp_shift;
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}
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const u32 bytes_per_pixel = base_bpp << bpp_shift;
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const u32 height = src_params.height;
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const u32 depth = src_params.depth;
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const u32 block_height = src_params.block_size.height;
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const u32 block_depth = src_params.block_size.depth;
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const size_t src_size =
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CalculateSize(true, bytes_per_pixel, width, height, depth, block_height, block_depth);
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if (read_buffer.size() < src_size) {
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read_buffer.resize(src_size);
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}
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if (write_buffer.size() < dst_size) {
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write_buffer.resize(dst_size);
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}
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memory_manager.ReadBlock(regs.offset_in, read_buffer.data(), src_size);
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memory_manager.ReadBlock(regs.offset_out, write_buffer.data(), dst_size);
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UnswizzleSubrect(write_buffer, read_buffer, bytes_per_pixel, width, height, depth, x_offset,
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src_params.origin.y, x_elements, regs.line_count, block_height, block_depth,
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regs.pitch_out);
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memory_manager.WriteBlock(regs.offset_out, write_buffer.data(), dst_size);
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}
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void MaxwellDMA::CopyPitchToBlockLinear() {
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UNIMPLEMENTED_IF_MSG(regs.dst_params.block_size.width != 0, "Block width is not one");
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UNIMPLEMENTED_IF(regs.dst_params.layer != 0);
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const bool is_remapping = regs.launch_dma.remap_enable != 0;
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const u32 num_remap_components = regs.remap_const.num_dst_components_minus_one + 1;
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const u32 remap_components_size = regs.remap_const.component_size_minus_one + 1;
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const auto& dst_params = regs.dst_params;
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const u32 base_bpp = !is_remapping ? 1U : num_remap_components * remap_components_size;
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u32 width = dst_params.width;
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u32 x_elements = regs.line_length_in;
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u32 x_offset = dst_params.origin.x;
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u32 bpp_shift = 0U;
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if (!is_remapping) {
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bpp_shift = Common::FoldRight(
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4U, [](u32 x, u32 y) { return std::min(x, static_cast<u32>(std::countr_zero(y))); },
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width, x_elements, x_offset, static_cast<u32>(regs.offset_out));
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width >>= bpp_shift;
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x_elements >>= bpp_shift;
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x_offset >>= bpp_shift;
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}
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const u32 bytes_per_pixel = base_bpp << bpp_shift;
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const u32 height = dst_params.height;
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const u32 depth = dst_params.depth;
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const u32 block_height = dst_params.block_size.height;
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const u32 block_depth = dst_params.block_size.depth;
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const size_t dst_size =
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CalculateSize(true, bytes_per_pixel, width, height, depth, block_height, block_depth);
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const size_t src_size = static_cast<size_t>(regs.pitch_in) * regs.line_count;
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if (read_buffer.size() < src_size) {
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read_buffer.resize(src_size);
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}
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if (write_buffer.size() < dst_size) {
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write_buffer.resize(dst_size);
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}
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memory_manager.ReadBlock(regs.offset_in, read_buffer.data(), src_size);
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if (Settings::IsGPULevelExtreme()) {
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memory_manager.ReadBlock(regs.offset_out, write_buffer.data(), dst_size);
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} else {
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memory_manager.ReadBlockUnsafe(regs.offset_out, write_buffer.data(), dst_size);
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}
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// If the input is linear and the output is tiled, swizzle the input and copy it over.
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SwizzleSubrect(write_buffer, read_buffer, bytes_per_pixel, width, height, depth, x_offset,
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dst_params.origin.y, x_elements, regs.line_count, block_height, block_depth,
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regs.pitch_in);
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memory_manager.WriteBlock(regs.offset_out, write_buffer.data(), dst_size);
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}
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void MaxwellDMA::FastCopyBlockLinearToPitch() {
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const u32 bytes_per_pixel = 1U;
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const size_t src_size = GOB_SIZE;
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const size_t dst_size = static_cast<size_t>(regs.pitch_out) * regs.line_count;
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u32 pos_x = regs.src_params.origin.x;
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u32 pos_y = regs.src_params.origin.y;
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const u64 offset = GetGOBOffset(regs.src_params.width, regs.src_params.height, pos_x, pos_y,
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regs.src_params.block_size.height, bytes_per_pixel);
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const u32 x_in_gob = 64 / bytes_per_pixel;
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pos_x = pos_x % x_in_gob;
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pos_y = pos_y % 8;
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if (read_buffer.size() < src_size) {
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read_buffer.resize(src_size);
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}
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if (write_buffer.size() < dst_size) {
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write_buffer.resize(dst_size);
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}
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if (Settings::IsGPULevelExtreme()) {
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memory_manager.ReadBlock(regs.offset_in + offset, read_buffer.data(), src_size);
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memory_manager.ReadBlock(regs.offset_out, write_buffer.data(), dst_size);
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} else {
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memory_manager.ReadBlockUnsafe(regs.offset_in + offset, read_buffer.data(), src_size);
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memory_manager.ReadBlockUnsafe(regs.offset_out, write_buffer.data(), dst_size);
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}
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UnswizzleSubrect(write_buffer, read_buffer, bytes_per_pixel, regs.src_params.width,
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regs.src_params.height, 1, pos_x, pos_y, regs.line_length_in, regs.line_count,
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regs.src_params.block_size.height, regs.src_params.block_size.depth,
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regs.pitch_out);
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memory_manager.WriteBlock(regs.offset_out, write_buffer.data(), dst_size);
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}
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void MaxwellDMA::ReleaseSemaphore() {
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const auto type = regs.launch_dma.semaphore_type;
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const GPUVAddr address = regs.semaphore.address;
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const u32 payload = regs.semaphore.payload;
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switch (type) {
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case LaunchDMA::SemaphoreType::NONE:
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break;
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case LaunchDMA::SemaphoreType::RELEASE_ONE_WORD_SEMAPHORE: {
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std::function<void()> operation(
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[this, address, payload] { memory_manager.Write<u32>(address, payload); });
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rasterizer->SignalFence(std::move(operation));
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break;
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}
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case LaunchDMA::SemaphoreType::RELEASE_FOUR_WORD_SEMAPHORE: {
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std::function<void()> operation([this, address, payload] {
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memory_manager.Write<u64>(address + sizeof(u64), system.GPU().GetTicks());
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memory_manager.Write<u64>(address, payload);
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});
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rasterizer->SignalFence(std::move(operation));
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break;
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}
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default:
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ASSERT_MSG(false, "Unknown semaphore type: {}", static_cast<u32>(type.Value()));
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}
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}
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} // namespace Tegra::Engines
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