MemoryManager: initial multi paging system implementation.
This commit is contained in:
Fernando Sahmkow
@@ -19,6 +19,9 @@ MultiLevelPageTable<BaseAddr>::MultiLevelPageTable(std::size_t address_space_bit
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std::size_t page_bits_)
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: address_space_bits{address_space_bits_},
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first_level_bits{first_level_bits_}, page_bits{page_bits_} {
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if (page_bits == 0) {
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return;
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}
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first_level_shift = address_space_bits - first_level_bits;
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first_level_chunk_size = (1ULL << (first_level_shift - page_bits)) * sizeof(BaseAddr);
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alloc_size = (1ULL << (address_space_bits - page_bits)) * sizeof(BaseAddr);
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@@ -133,7 +133,8 @@ NvResult nvhost_as_gpu::AllocAsEx(const std::vector<u8>& input, std::vector<u8>&
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const u64 end_big_pages{(vm.va_range_end - vm.va_range_split) >> vm.big_page_size_bits};
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vm.big_page_allocator = std::make_unique<VM::Allocator>(start_big_pages, end_big_pages);
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gmmu = std::make_shared<Tegra::MemoryManager>(system, 40, VM::PAGE_SIZE_BITS);
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gmmu = std::make_shared<Tegra::MemoryManager>(system, 40, vm.big_page_size_bits,
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VM::PAGE_SIZE_BITS);
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system.GPU().InitAddressSpace(*gmmu);
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vm.initialised = true;
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@@ -189,6 +190,7 @@ NvResult nvhost_as_gpu::AllocateSpace(const std::vector<u8>& input, std::vector<
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.size = size,
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.page_size = params.page_size,
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.sparse = (params.flags & MappingFlags::Sparse) != MappingFlags::None,
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.big_pages = params.page_size != VM::YUZU_PAGESIZE,
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};
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std::memcpy(output.data(), ¶ms, output.size());
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@@ -209,7 +211,7 @@ void nvhost_as_gpu::FreeMappingLocked(u64 offset) {
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// Sparse mappings shouldn't be fully unmapped, just returned to their sparse state
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// Only FreeSpace can unmap them fully
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if (mapping->sparse_alloc)
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gmmu->MapSparse(offset, mapping->size);
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gmmu->MapSparse(offset, mapping->size, mapping->big_page);
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else
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gmmu->Unmap(offset, mapping->size);
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@@ -294,8 +296,9 @@ NvResult nvhost_as_gpu::Remap(const std::vector<u8>& input, std::vector<u8>& out
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return NvResult::BadValue;
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}
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const bool use_big_pages = alloc->second.big_pages;
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if (!entry.handle) {
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gmmu->MapSparse(virtual_address, size);
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gmmu->MapSparse(virtual_address, size, use_big_pages);
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} else {
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auto handle{nvmap.GetHandle(entry.handle)};
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if (!handle) {
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@@ -306,7 +309,7 @@ NvResult nvhost_as_gpu::Remap(const std::vector<u8>& input, std::vector<u8>& out
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handle->address +
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(static_cast<u64>(entry.handle_offset_big_pages) << vm.big_page_size_bits))};
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gmmu->Map(virtual_address, cpu_address, size);
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gmmu->Map(virtual_address, cpu_address, size, use_big_pages);
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}
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}
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@@ -345,7 +348,7 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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u64 gpu_address{static_cast<u64>(params.offset + params.buffer_offset)};
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VAddr cpu_address{mapping->ptr + params.buffer_offset};
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gmmu->Map(gpu_address, cpu_address, params.mapping_size);
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gmmu->Map(gpu_address, cpu_address, params.mapping_size, mapping->big_page);
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return NvResult::Success;
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} catch ([[maybe_unused]] const std::out_of_range& e) {
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@@ -363,6 +366,17 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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VAddr cpu_address{static_cast<VAddr>(handle->address + params.buffer_offset)};
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u64 size{params.mapping_size ? params.mapping_size : handle->orig_size};
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bool big_page{[&]() {
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if (Common::IsAligned(handle->align, vm.big_page_size))
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return true;
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else if (Common::IsAligned(handle->align, VM::YUZU_PAGESIZE))
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return false;
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else {
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UNREACHABLE();
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return false;
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}
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}()};
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if ((params.flags & MappingFlags::Fixed) != MappingFlags::None) {
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auto alloc{allocation_map.upper_bound(params.offset)};
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@@ -372,23 +386,14 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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return NvResult::BadValue;
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}
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gmmu->Map(params.offset, cpu_address, size);
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const bool use_big_pages = alloc->second.big_pages && big_page;
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gmmu->Map(params.offset, cpu_address, size, use_big_pages);
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auto mapping{std::make_shared<Mapping>(cpu_address, params.offset, size, true, false,
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alloc->second.sparse)};
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auto mapping{std::make_shared<Mapping>(cpu_address, params.offset, size, true,
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use_big_pages, alloc->second.sparse)};
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alloc->second.mappings.push_back(mapping);
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mapping_map[params.offset] = mapping;
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} else {
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bool big_page{[&]() {
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if (Common::IsAligned(handle->align, vm.big_page_size))
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return true;
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else if (Common::IsAligned(handle->align, VM::YUZU_PAGESIZE))
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return false;
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else {
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UNREACHABLE();
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return false;
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}
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}()};
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auto& allocator{big_page ? *vm.big_page_allocator : *vm.small_page_allocator};
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u32 page_size{big_page ? vm.big_page_size : VM::YUZU_PAGESIZE};
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@@ -402,7 +407,7 @@ NvResult nvhost_as_gpu::MapBufferEx(const std::vector<u8>& input, std::vector<u8
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return NvResult::InsufficientMemory;
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}
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gmmu->Map(params.offset, cpu_address, size);
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gmmu->Map(params.offset, cpu_address, Common::AlignUp(size, page_size), big_page);
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auto mapping{
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std::make_shared<Mapping>(cpu_address, params.offset, size, false, big_page, false)};
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@@ -439,7 +444,7 @@ NvResult nvhost_as_gpu::UnmapBuffer(const std::vector<u8>& input, std::vector<u8
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// Sparse mappings shouldn't be fully unmapped, just returned to their sparse state
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// Only FreeSpace can unmap them fully
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if (mapping->sparse_alloc) {
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gmmu->MapSparse(params.offset, mapping->size);
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gmmu->MapSparse(params.offset, mapping->size, mapping->big_page);
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} else {
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gmmu->Unmap(params.offset, mapping->size);
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}
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@@ -177,6 +177,7 @@ private:
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std::list<std::shared_ptr<Mapping>> mappings;
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u32 page_size;
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bool sparse;
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bool big_pages;
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};
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std::map<u64, std::shared_ptr<Mapping>>
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@@ -9,6 +9,8 @@
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "core/core.h"
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#include "core/hle/kernel/k_page_table.h"
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#include "core/hle/kernel/k_process.h"
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#include "core/hle/service/nvdrv/core/container.h"
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#include "core/hle/service/nvdrv/core/nvmap.h"
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#include "core/hle/service/nvdrv/devices/nvmap.h"
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@@ -136,6 +138,10 @@ NvResult nvmap::IocAlloc(const std::vector<u8>& input, std::vector<u8>& output)
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LOG_CRITICAL(Service_NVDRV, "Object failed to allocate, handle={:08X}", params.handle);
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return result;
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}
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ASSERT(system.CurrentProcess()
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->PageTable()
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.LockForDeviceAddressSpace(handle_description->address, handle_description->size)
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.IsSuccess());
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std::memcpy(output.data(), ¶ms, sizeof(params));
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return result;
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}
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@@ -256,6 +262,10 @@ NvResult nvmap::IocFree(const std::vector<u8>& input, std::vector<u8>& output) {
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}
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if (auto freeInfo{file.FreeHandle(params.handle, false)}) {
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ASSERT(system.CurrentProcess()
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->PageTable()
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.UnlockForDeviceAddressSpace(freeInfo->address, freeInfo->size)
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.IsSuccess());
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params.address = freeInfo->address;
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params.size = static_cast<u32>(freeInfo->size);
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params.flags.raw = 0;
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@@ -7,6 +7,7 @@
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "core/core.h"
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#include "core/device_memory.h"
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#include "core/hle/kernel/k_page_table.h"
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#include "core/hle/kernel/k_process.h"
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#include "core/memory.h"
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@@ -14,40 +15,69 @@
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#include "video_core/rasterizer_interface.h"
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#include "video_core/renderer_base.h"
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#pragma optimize("", off)
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namespace Tegra {
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std::atomic<size_t> MemoryManager::unique_identifier_generator{};
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MemoryManager::MemoryManager(Core::System& system_, u64 address_space_bits_, u64 page_bits_)
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: system{system_}, address_space_bits{address_space_bits_}, page_bits{page_bits_}, entries{},
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page_table{address_space_bits, address_space_bits + page_bits - 38, page_bits},
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MemoryManager::MemoryManager(Core::System& system_, u64 address_space_bits_, u64 big_page_bits_,
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u64 page_bits_)
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: system{system_}, memory{system.Memory()}, device_memory{system.DeviceMemory()},
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address_space_bits{address_space_bits_}, page_bits{page_bits_}, big_page_bits{big_page_bits_},
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entries{}, big_entries{}, page_table{address_space_bits, address_space_bits + page_bits - 38,
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page_bits != big_page_bits ? page_bits : 0},
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unique_identifier{unique_identifier_generator.fetch_add(1, std::memory_order_acq_rel)} {
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address_space_size = 1ULL << address_space_bits;
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allocate_start = address_space_bits > 32 ? 1ULL << 32 : 0;
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page_size = 1ULL << page_bits;
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page_mask = page_size - 1ULL;
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const u64 page_table_bits = address_space_bits - cpu_page_bits;
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big_page_size = 1ULL << big_page_bits;
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big_page_mask = big_page_size - 1ULL;
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const u64 page_table_bits = address_space_bits - page_bits;
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const u64 big_page_table_bits = address_space_bits - big_page_bits;
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const u64 page_table_size = 1ULL << page_table_bits;
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const u64 big_page_table_size = 1ULL << big_page_table_bits;
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page_table_mask = page_table_size - 1;
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big_page_table_mask = big_page_table_size - 1;
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big_entries.resize(big_page_table_size / 32, 0);
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big_page_table_cpu.resize(big_page_table_size);
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big_page_table_physical.resize(big_page_table_size);
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entries.resize(page_table_size / 32, 0);
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}
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MemoryManager::~MemoryManager() = default;
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template <bool is_big_page>
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MemoryManager::EntryType MemoryManager::GetEntry(size_t position) const {
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position = position >> page_bits;
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const u64 entry_mask = entries[position / 32];
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const size_t sub_index = position % 32;
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return static_cast<EntryType>((entry_mask >> (2 * sub_index)) & 0x03ULL);
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if constexpr (is_big_page) {
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position = position >> big_page_bits;
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const u64 entry_mask = big_entries[position / 32];
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const size_t sub_index = position % 32;
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return static_cast<EntryType>((entry_mask >> (2 * sub_index)) & 0x03ULL);
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} else {
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position = position >> page_bits;
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const u64 entry_mask = entries[position / 32];
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const size_t sub_index = position % 32;
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return static_cast<EntryType>((entry_mask >> (2 * sub_index)) & 0x03ULL);
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}
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}
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template <bool is_big_page>
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void MemoryManager::SetEntry(size_t position, MemoryManager::EntryType entry) {
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position = position >> page_bits;
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const u64 entry_mask = entries[position / 32];
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const size_t sub_index = position % 32;
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entries[position / 32] =
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(~(3ULL << sub_index * 2) & entry_mask) | (static_cast<u64>(entry) << sub_index * 2);
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if constexpr (is_big_page) {
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position = position >> big_page_bits;
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const u64 entry_mask = big_entries[position / 32];
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const size_t sub_index = position % 32;
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big_entries[position / 32] =
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(~(3ULL << sub_index * 2) & entry_mask) | (static_cast<u64>(entry) << sub_index * 2);
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} else {
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position = position >> page_bits;
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const u64 entry_mask = entries[position / 32];
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const size_t sub_index = position % 32;
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entries[position / 32] =
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(~(3ULL << sub_index * 2) & entry_mask) | (static_cast<u64>(entry) << sub_index * 2);
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}
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}
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template <MemoryManager::EntryType entry_type>
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@@ -59,48 +89,66 @@ GPUVAddr MemoryManager::PageTableOp(GPUVAddr gpu_addr, [[maybe_unused]] VAddr cp
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}
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for (u64 offset{}; offset < size; offset += page_size) {
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const GPUVAddr current_gpu_addr = gpu_addr + offset;
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[[maybe_unused]] const auto current_entry_type = GetEntry(current_gpu_addr);
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SetEntry(current_gpu_addr, entry_type);
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[[maybe_unused]] const auto current_entry_type = GetEntry<false>(current_gpu_addr);
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SetEntry<false>(current_gpu_addr, entry_type);
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if (current_entry_type != entry_type) {
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rasterizer->ModifyGPUMemory(unique_identifier, gpu_addr, page_size);
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}
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if constexpr (entry_type == EntryType::Mapped) {
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const VAddr current_cpu_addr = cpu_addr + offset;
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const auto index = PageEntryIndex(current_gpu_addr);
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const u32 sub_value = static_cast<u32>(current_cpu_addr >> 12ULL);
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if (current_entry_type == entry_type && sub_value != page_table[index]) {
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rasterizer->InvalidateRegion(static_cast<VAddr>(page_table[index]) << 12ULL,
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page_size);
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}
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page_table[index] = static_cast<u32>(current_cpu_addr >> 12ULL);
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const auto index = PageEntryIndex<false>(current_gpu_addr);
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const u32 sub_value = static_cast<u32>(current_cpu_addr >> cpu_page_bits);
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page_table[index] = sub_value;
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}
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remaining_size -= page_size;
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}
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return gpu_addr;
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}
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template <MemoryManager::EntryType entry_type>
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GPUVAddr MemoryManager::BigPageTableOp(GPUVAddr gpu_addr, [[maybe_unused]] VAddr cpu_addr,
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size_t size) {
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u64 remaining_size{size};
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for (u64 offset{}; offset < size; offset += big_page_size) {
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const GPUVAddr current_gpu_addr = gpu_addr + offset;
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[[maybe_unused]] const auto current_entry_type = GetEntry<true>(current_gpu_addr);
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SetEntry<true>(current_gpu_addr, entry_type);
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if (current_entry_type != entry_type) {
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rasterizer->ModifyGPUMemory(unique_identifier, gpu_addr, big_page_size);
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}
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if constexpr (entry_type == EntryType::Mapped) {
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const VAddr current_cpu_addr = cpu_addr + offset;
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const auto index = PageEntryIndex<true>(current_gpu_addr);
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const u32 sub_value = static_cast<u32>(current_cpu_addr >> cpu_page_bits);
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big_page_table_cpu[index] = sub_value;
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const PAddr phys_address =
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device_memory.GetPhysicalAddr(memory.GetPointer(current_cpu_addr));
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big_page_table_physical[index] = static_cast<u32>(phys_address);
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}
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remaining_size -= big_page_size;
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}
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return gpu_addr;
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}
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void MemoryManager::BindRasterizer(VideoCore::RasterizerInterface* rasterizer_) {
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rasterizer = rasterizer_;
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}
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GPUVAddr MemoryManager::Map(GPUVAddr gpu_addr, VAddr cpu_addr, std::size_t size) {
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GPUVAddr MemoryManager::Map(GPUVAddr gpu_addr, VAddr cpu_addr, std::size_t size,
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bool is_big_pages) {
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if (is_big_pages) [[likely]] {
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return BigPageTableOp<EntryType::Mapped>(gpu_addr, cpu_addr, size);
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}
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return PageTableOp<EntryType::Mapped>(gpu_addr, cpu_addr, size);
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}
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GPUVAddr MemoryManager::MapSparse(GPUVAddr gpu_addr, std::size_t size) {
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GPUVAddr MemoryManager::MapSparse(GPUVAddr gpu_addr, std::size_t size, bool is_big_pages) {
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if (is_big_pages) [[likely]] {
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return BigPageTableOp<EntryType::Reserved>(gpu_addr, 0, size);
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}
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return PageTableOp<EntryType::Reserved>(gpu_addr, 0, size);
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}
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GPUVAddr MemoryManager::MapAllocate(VAddr cpu_addr, std::size_t size, std::size_t align) {
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return Map(*FindFreeRange(size, align), cpu_addr, size);
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}
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GPUVAddr MemoryManager::MapAllocate32(VAddr cpu_addr, std::size_t size) {
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const std::optional<GPUVAddr> gpu_addr = FindFreeRange(size, 1, true);
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ASSERT(gpu_addr);
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return Map(*gpu_addr, cpu_addr, size);
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}
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void MemoryManager::Unmap(GPUVAddr gpu_addr, std::size_t size) {
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if (size == 0) {
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return;
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@@ -115,61 +163,24 @@ void MemoryManager::Unmap(GPUVAddr gpu_addr, std::size_t size) {
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rasterizer->UnmapMemory(*cpu_addr, map_size);
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}
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BigPageTableOp<EntryType::Free>(gpu_addr, 0, size);
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PageTableOp<EntryType::Free>(gpu_addr, 0, size);
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}
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std::optional<GPUVAddr> MemoryManager::AllocateFixed(GPUVAddr gpu_addr, std::size_t size) {
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for (u64 offset{}; offset < size; offset += page_size) {
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if (GetEntry(gpu_addr + offset) != EntryType::Free) {
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std::optional<VAddr> MemoryManager::GpuToCpuAddress(GPUVAddr gpu_addr) const {
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if (GetEntry<true>(gpu_addr) != EntryType::Mapped) [[unlikely]] {
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if (GetEntry<false>(gpu_addr) != EntryType::Mapped) {
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return std::nullopt;
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}
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const VAddr cpu_addr_base = static_cast<VAddr>(page_table[PageEntryIndex<false>(gpu_addr)])
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<< cpu_page_bits;
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return cpu_addr_base + (gpu_addr & page_mask);
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}
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return PageTableOp<EntryType::Reserved>(gpu_addr, 0, size);
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}
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||||
|
||||
GPUVAddr MemoryManager::Allocate(std::size_t size, std::size_t align) {
|
||||
return *AllocateFixed(*FindFreeRange(size, align), size);
|
||||
}
|
||||
|
||||
std::optional<GPUVAddr> MemoryManager::FindFreeRange(std::size_t size, std::size_t align,
|
||||
bool start_32bit_address) const {
|
||||
if (!align) {
|
||||
align = page_size;
|
||||
} else {
|
||||
align = Common::AlignUp(align, page_size);
|
||||
}
|
||||
|
||||
u64 available_size{};
|
||||
GPUVAddr gpu_addr{start_32bit_address ? 0 : allocate_start};
|
||||
while (gpu_addr + available_size < address_space_size) {
|
||||
if (GetEntry(gpu_addr + available_size) == EntryType::Free) {
|
||||
available_size += page_size;
|
||||
|
||||
if (available_size >= size) {
|
||||
return gpu_addr;
|
||||
}
|
||||
} else {
|
||||
gpu_addr += available_size + page_size;
|
||||
available_size = 0;
|
||||
|
||||
const auto remainder{gpu_addr % align};
|
||||
if (remainder) {
|
||||
gpu_addr = (gpu_addr - remainder) + align;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
return std::nullopt;
|
||||
}
|
||||
|
||||
std::optional<VAddr> MemoryManager::GpuToCpuAddress(GPUVAddr gpu_addr) const {
|
||||
if (GetEntry(gpu_addr) != EntryType::Mapped) {
|
||||
return std::nullopt;
|
||||
}
|
||||
|
||||
const VAddr cpu_addr_base = static_cast<VAddr>(page_table[PageEntryIndex(gpu_addr)]) << 12ULL;
|
||||
return cpu_addr_base + (gpu_addr & page_mask);
|
||||
const VAddr cpu_addr_base =
|
||||
static_cast<VAddr>(big_page_table_cpu[PageEntryIndex<true>(gpu_addr)]) << cpu_page_bits;
|
||||
return cpu_addr_base + (gpu_addr & big_page_mask);
|
||||
}
|
||||
|
||||
std::optional<VAddr> MemoryManager::GpuToCpuAddress(GPUVAddr addr, std::size_t size) const {
|
||||
@@ -225,7 +236,7 @@ u8* MemoryManager::GetPointer(GPUVAddr gpu_addr) {
|
||||
return {};
|
||||
}
|
||||
|
||||
return system.Memory().GetPointer(*address);
|
||||
return memory.GetPointer(*address);
|
||||
}
|
||||
|
||||
const u8* MemoryManager::GetPointer(GPUVAddr gpu_addr) const {
|
||||
@@ -234,98 +245,161 @@ const u8* MemoryManager::GetPointer(GPUVAddr gpu_addr) const {
|
||||
return {};
|
||||
}
|
||||
|
||||
return system.Memory().GetPointer(*address);
|
||||
return memory.GetPointer(*address);
|
||||
}
|
||||
|
||||
void MemoryManager::ReadBlockImpl(GPUVAddr gpu_src_addr, void* dest_buffer, std::size_t size,
|
||||
bool is_safe) const {
|
||||
#pragma inline_recursion(on)
|
||||
|
||||
template <bool is_big_pages, typename FuncMapped, typename FuncReserved, typename FuncUnmapped>
|
||||
inline void MemoryManager::MemoryOperation(GPUVAddr gpu_src_addr, std::size_t size,
|
||||
FuncMapped&& func_mapped, FuncReserved&& func_reserved,
|
||||
FuncUnmapped&& func_unmapped) const {
|
||||
u64 used_page_size;
|
||||
u64 used_page_mask;
|
||||
u64 used_page_bits;
|
||||
if constexpr (is_big_pages) {
|
||||
used_page_size = big_page_size;
|
||||
used_page_mask = big_page_mask;
|
||||
used_page_bits = big_page_bits;
|
||||
} else {
|
||||
used_page_size = page_size;
|
||||
used_page_mask = page_mask;
|
||||
used_page_bits = page_bits;
|
||||
}
|
||||
std::size_t remaining_size{size};
|
||||
std::size_t page_index{gpu_src_addr >> page_bits};
|
||||
std::size_t page_offset{gpu_src_addr & page_mask};
|
||||
std::size_t page_index{gpu_src_addr >> used_page_bits};
|
||||
std::size_t page_offset{gpu_src_addr & used_page_mask};
|
||||
GPUVAddr current_address = gpu_src_addr;
|
||||
|
||||
while (remaining_size > 0) {
|
||||
const std::size_t copy_amount{
|
||||
std::min(static_cast<std::size_t>(page_size) - page_offset, remaining_size)};
|
||||
const auto page_addr{GpuToCpuAddress(page_index << page_bits)};
|
||||
if (page_addr) {
|
||||
const auto src_addr{*page_addr + page_offset};
|
||||
if (is_safe) {
|
||||
// Flush must happen on the rasterizer interface, such that memory is always
|
||||
// synchronous when it is read (even when in asynchronous GPU mode).
|
||||
// Fixes Dead Cells title menu.
|
||||
rasterizer->FlushRegion(src_addr, copy_amount);
|
||||
}
|
||||
system.Memory().ReadBlockUnsafe(src_addr, dest_buffer, copy_amount);
|
||||
} else {
|
||||
std::memset(dest_buffer, 0, copy_amount);
|
||||
std::min(static_cast<std::size_t>(used_page_size) - page_offset, remaining_size)};
|
||||
auto entry = GetEntry<is_big_pages>(current_address);
|
||||
if (entry == EntryType::Mapped) [[likely]] {
|
||||
func_mapped(page_index, page_offset, copy_amount);
|
||||
} else if (entry == EntryType::Reserved) {
|
||||
func_reserved(page_index, page_offset, copy_amount);
|
||||
} else [[unlikely]] {
|
||||
func_unmapped(page_index, page_offset, copy_amount);
|
||||
}
|
||||
|
||||
page_index++;
|
||||
page_offset = 0;
|
||||
dest_buffer = static_cast<u8*>(dest_buffer) + copy_amount;
|
||||
remaining_size -= copy_amount;
|
||||
current_address += copy_amount;
|
||||
}
|
||||
}
|
||||
|
||||
template <bool is_safe>
|
||||
void MemoryManager::ReadBlockImpl(GPUVAddr gpu_src_addr, void* dest_buffer,
|
||||
std::size_t size) const {
|
||||
auto set_to_zero = [&]([[maybe_unused]] std::size_t page_index,
|
||||
[[maybe_unused]] std::size_t offset, std::size_t copy_amount) {
|
||||
std::memset(dest_buffer, 0, copy_amount);
|
||||
dest_buffer = static_cast<u8*>(dest_buffer) + copy_amount;
|
||||
};
|
||||
auto mapped_normal = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(page_table[page_index]) << cpu_page_bits) + offset;
|
||||
if constexpr (is_safe) {
|
||||
rasterizer->FlushRegion(cpu_addr_base, copy_amount);
|
||||
}
|
||||
memory.ReadBlockUnsafe(cpu_addr_base, dest_buffer, copy_amount);
|
||||
dest_buffer = static_cast<u8*>(dest_buffer) + copy_amount;
|
||||
};
|
||||
auto mapped_big = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(big_page_table_cpu[page_index]) << cpu_page_bits) + offset;
|
||||
if constexpr (is_safe) {
|
||||
rasterizer->FlushRegion(cpu_addr_base, copy_amount);
|
||||
}
|
||||
memory.ReadBlockUnsafe(cpu_addr_base, dest_buffer, copy_amount);
|
||||
// u8* physical = device_memory.GetPointer(big_page_table_physical[page_index] + offset);
|
||||
// std::memcpy(dest_buffer, physical, copy_amount);
|
||||
dest_buffer = static_cast<u8*>(dest_buffer) + copy_amount;
|
||||
};
|
||||
auto read_short_pages = [&](std::size_t page_index, std::size_t offset,
|
||||
std::size_t copy_amount) {
|
||||
GPUVAddr base = (page_index << big_page_bits) + offset;
|
||||
MemoryOperation<false>(base, copy_amount, mapped_normal, set_to_zero, set_to_zero);
|
||||
};
|
||||
MemoryOperation<true>(gpu_src_addr, size, mapped_big, set_to_zero, read_short_pages);
|
||||
}
|
||||
|
||||
void MemoryManager::ReadBlock(GPUVAddr gpu_src_addr, void* dest_buffer, std::size_t size) const {
|
||||
ReadBlockImpl(gpu_src_addr, dest_buffer, size, true);
|
||||
ReadBlockImpl<true>(gpu_src_addr, dest_buffer, size);
|
||||
}
|
||||
|
||||
void MemoryManager::ReadBlockUnsafe(GPUVAddr gpu_src_addr, void* dest_buffer,
|
||||
const std::size_t size) const {
|
||||
ReadBlockImpl(gpu_src_addr, dest_buffer, size, false);
|
||||
ReadBlockImpl<false>(gpu_src_addr, dest_buffer, size);
|
||||
}
|
||||
|
||||
void MemoryManager::WriteBlockImpl(GPUVAddr gpu_dest_addr, const void* src_buffer, std::size_t size,
|
||||
bool is_safe) {
|
||||
std::size_t remaining_size{size};
|
||||
std::size_t page_index{gpu_dest_addr >> page_bits};
|
||||
std::size_t page_offset{gpu_dest_addr & page_mask};
|
||||
|
||||
while (remaining_size > 0) {
|
||||
const std::size_t copy_amount{
|
||||
std::min(static_cast<std::size_t>(page_size) - page_offset, remaining_size)};
|
||||
const auto page_addr{GpuToCpuAddress(page_index << page_bits)};
|
||||
if (page_addr) {
|
||||
const auto dest_addr{*page_addr + page_offset};
|
||||
|
||||
if (is_safe) {
|
||||
// Invalidate must happen on the rasterizer interface, such that memory is always
|
||||
// synchronous when it is written (even when in asynchronous GPU mode).
|
||||
rasterizer->InvalidateRegion(dest_addr, copy_amount);
|
||||
}
|
||||
system.Memory().WriteBlockUnsafe(dest_addr, src_buffer, copy_amount);
|
||||
}
|
||||
|
||||
page_index++;
|
||||
page_offset = 0;
|
||||
template <bool is_safe>
|
||||
void MemoryManager::WriteBlockImpl(GPUVAddr gpu_dest_addr, const void* src_buffer,
|
||||
std::size_t size) {
|
||||
auto just_advance = [&]([[maybe_unused]] std::size_t page_index,
|
||||
[[maybe_unused]] std::size_t offset, std::size_t copy_amount) {
|
||||
src_buffer = static_cast<const u8*>(src_buffer) + copy_amount;
|
||||
remaining_size -= copy_amount;
|
||||
}
|
||||
};
|
||||
auto mapped_normal = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(page_table[page_index]) << cpu_page_bits) + offset;
|
||||
if constexpr (is_safe) {
|
||||
rasterizer->InvalidateRegion(cpu_addr_base, copy_amount);
|
||||
}
|
||||
memory.WriteBlockUnsafe(cpu_addr_base, src_buffer, copy_amount);
|
||||
src_buffer = static_cast<const u8*>(src_buffer) + copy_amount;
|
||||
};
|
||||
auto mapped_big = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(big_page_table_cpu[page_index]) << cpu_page_bits) + offset;
|
||||
if constexpr (is_safe) {
|
||||
rasterizer->InvalidateRegion(cpu_addr_base, copy_amount);
|
||||
}
|
||||
memory.WriteBlockUnsafe(cpu_addr_base, src_buffer, copy_amount);
|
||||
/*u8* physical =
|
||||
device_memory.GetPointer(big_page_table_physical[page_index] << cpu_page_bits) + offset;
|
||||
std::memcpy(physical, src_buffer, copy_amount);*/
|
||||
src_buffer = static_cast<const u8*>(src_buffer) + copy_amount;
|
||||
};
|
||||
auto write_short_pages = [&](std::size_t page_index, std::size_t offset,
|
||||
std::size_t copy_amount) {
|
||||
GPUVAddr base = (page_index << big_page_bits) + offset;
|
||||
MemoryOperation<false>(base, copy_amount, mapped_normal, just_advance, just_advance);
|
||||
};
|
||||
MemoryOperation<true>(gpu_dest_addr, size, mapped_big, just_advance, write_short_pages);
|
||||
}
|
||||
|
||||
void MemoryManager::WriteBlock(GPUVAddr gpu_dest_addr, const void* src_buffer, std::size_t size) {
|
||||
WriteBlockImpl(gpu_dest_addr, src_buffer, size, true);
|
||||
WriteBlockImpl<true>(gpu_dest_addr, src_buffer, size);
|
||||
}
|
||||
|
||||
void MemoryManager::WriteBlockUnsafe(GPUVAddr gpu_dest_addr, const void* src_buffer,
|
||||
std::size_t size) {
|
||||
WriteBlockImpl(gpu_dest_addr, src_buffer, size, false);
|
||||
WriteBlockImpl<false>(gpu_dest_addr, src_buffer, size);
|
||||
}
|
||||
|
||||
void MemoryManager::FlushRegion(GPUVAddr gpu_addr, size_t size) const {
|
||||
size_t remaining_size{size};
|
||||
size_t page_index{gpu_addr >> page_bits};
|
||||
size_t page_offset{gpu_addr & page_mask};
|
||||
while (remaining_size > 0) {
|
||||
const size_t num_bytes{std::min(page_size - page_offset, remaining_size)};
|
||||
if (const auto page_addr{GpuToCpuAddress(page_index << page_bits)}; page_addr) {
|
||||
rasterizer->FlushRegion(*page_addr + page_offset, num_bytes);
|
||||
}
|
||||
++page_index;
|
||||
page_offset = 0;
|
||||
remaining_size -= num_bytes;
|
||||
}
|
||||
auto do_nothing = [&]([[maybe_unused]] std::size_t page_index,
|
||||
[[maybe_unused]] std::size_t offset,
|
||||
[[maybe_unused]] std::size_t copy_amount) {};
|
||||
|
||||
auto mapped_normal = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(page_table[page_index]) << cpu_page_bits) + offset;
|
||||
rasterizer->FlushRegion(cpu_addr_base, copy_amount);
|
||||
};
|
||||
auto mapped_big = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(big_page_table_cpu[page_index]) << cpu_page_bits) + offset;
|
||||
rasterizer->FlushRegion(cpu_addr_base, copy_amount);
|
||||
};
|
||||
auto flush_short_pages = [&](std::size_t page_index, std::size_t offset,
|
||||
std::size_t copy_amount) {
|
||||
GPUVAddr base = (page_index << big_page_bits) + offset;
|
||||
MemoryOperation<false>(base, copy_amount, mapped_normal, do_nothing, do_nothing);
|
||||
};
|
||||
MemoryOperation<true>(gpu_addr, size, mapped_big, do_nothing, flush_short_pages);
|
||||
}
|
||||
|
||||
void MemoryManager::CopyBlock(GPUVAddr gpu_dest_addr, GPUVAddr gpu_src_addr, std::size_t size) {
|
||||
@@ -348,7 +422,7 @@ bool MemoryManager::IsGranularRange(GPUVAddr gpu_addr, std::size_t size) const {
|
||||
}
|
||||
|
||||
bool MemoryManager::IsContinousRange(GPUVAddr gpu_addr, std::size_t size) const {
|
||||
size_t page_index{gpu_addr >> page_bits};
|
||||
size_t page_index{gpu_addr >> big_page_bits};
|
||||
const size_t page_last{(gpu_addr + size + page_size - 1) >> page_bits};
|
||||
std::optional<VAddr> old_page_addr{};
|
||||
while (page_index != page_last) {
|
||||
@@ -371,7 +445,7 @@ bool MemoryManager::IsFullyMappedRange(GPUVAddr gpu_addr, std::size_t size) cons
|
||||
size_t page_index{gpu_addr >> page_bits};
|
||||
const size_t page_last{(gpu_addr + size + page_size - 1) >> page_bits};
|
||||
while (page_index < page_last) {
|
||||
if (GetEntry(page_index << page_bits) == EntryType::Free) {
|
||||
if (GetEntry<false>(page_index << page_bits) == EntryType::Free) {
|
||||
return false;
|
||||
}
|
||||
++page_index;
|
||||
@@ -379,47 +453,63 @@ bool MemoryManager::IsFullyMappedRange(GPUVAddr gpu_addr, std::size_t size) cons
|
||||
return true;
|
||||
}
|
||||
|
||||
#pragma inline_recursion(on)
|
||||
|
||||
std::vector<std::pair<GPUVAddr, std::size_t>> MemoryManager::GetSubmappedRange(
|
||||
GPUVAddr gpu_addr, std::size_t size) const {
|
||||
std::vector<std::pair<GPUVAddr, std::size_t>> result{};
|
||||
size_t page_index{gpu_addr >> page_bits};
|
||||
size_t remaining_size{size};
|
||||
size_t page_offset{gpu_addr & page_mask};
|
||||
std::optional<std::pair<GPUVAddr, std::size_t>> last_segment{};
|
||||
std::optional<VAddr> old_page_addr{};
|
||||
const auto extend_size = [this, &last_segment, &page_index, &page_offset](std::size_t bytes) {
|
||||
if (!last_segment) {
|
||||
const GPUVAddr new_base_addr = (page_index << page_bits) + page_offset;
|
||||
last_segment = {new_base_addr, bytes};
|
||||
} else {
|
||||
last_segment->second += bytes;
|
||||
}
|
||||
};
|
||||
const auto split = [&last_segment, &result] {
|
||||
const auto split = [&last_segment, &result]([[maybe_unused]] std::size_t page_index,
|
||||
[[maybe_unused]] std::size_t offset,
|
||||
[[maybe_unused]] std::size_t copy_amount) {
|
||||
if (last_segment) {
|
||||
result.push_back(*last_segment);
|
||||
last_segment = std::nullopt;
|
||||
}
|
||||
};
|
||||
while (remaining_size > 0) {
|
||||
const size_t num_bytes{std::min(page_size - page_offset, remaining_size)};
|
||||
const auto page_addr{GpuToCpuAddress(page_index << page_bits)};
|
||||
if (!page_addr || *page_addr == 0) {
|
||||
split();
|
||||
} else if (old_page_addr) {
|
||||
if (*old_page_addr + page_size != *page_addr) {
|
||||
split();
|
||||
const auto extend_size_big = [this, &split, &old_page_addr,
|
||||
&last_segment](std::size_t page_index, std::size_t offset,
|
||||
std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(big_page_table_cpu[page_index]) << cpu_page_bits) + offset;
|
||||
if (old_page_addr) {
|
||||
if (*old_page_addr != cpu_addr_base) {
|
||||
split(0, 0, 0);
|
||||
}
|
||||
extend_size(num_bytes);
|
||||
} else {
|
||||
extend_size(num_bytes);
|
||||
}
|
||||
++page_index;
|
||||
page_offset = 0;
|
||||
remaining_size -= num_bytes;
|
||||
old_page_addr = page_addr;
|
||||
}
|
||||
split();
|
||||
old_page_addr = {cpu_addr_base + copy_amount};
|
||||
if (!last_segment) {
|
||||
const GPUVAddr new_base_addr = (page_index << big_page_bits) + offset;
|
||||
last_segment = {new_base_addr, copy_amount};
|
||||
} else {
|
||||
last_segment->second += copy_amount;
|
||||
}
|
||||
};
|
||||
const auto extend_size_short = [this, &split, &old_page_addr,
|
||||
&last_segment](std::size_t page_index, std::size_t offset,
|
||||
std::size_t copy_amount) {
|
||||
const VAddr cpu_addr_base =
|
||||
(static_cast<VAddr>(page_table[page_index]) << cpu_page_bits) + offset;
|
||||
if (old_page_addr) {
|
||||
if (*old_page_addr != cpu_addr_base) {
|
||||
split(0, 0, 0);
|
||||
}
|
||||
}
|
||||
old_page_addr = {cpu_addr_base + copy_amount};
|
||||
if (!last_segment) {
|
||||
const GPUVAddr new_base_addr = (page_index << page_bits) + offset;
|
||||
last_segment = {new_base_addr, copy_amount};
|
||||
} else {
|
||||
last_segment->second += copy_amount;
|
||||
}
|
||||
};
|
||||
auto do_short_pages = [&](std::size_t page_index, std::size_t offset, std::size_t copy_amount) {
|
||||
GPUVAddr base = (page_index << big_page_bits) + offset;
|
||||
MemoryOperation<false>(base, copy_amount, extend_size_short, split, split);
|
||||
};
|
||||
MemoryOperation<true>(gpu_addr, size, extend_size_big, split, do_short_pages);
|
||||
split(0, 0, 0);
|
||||
return result;
|
||||
}
|
||||
|
||||
|
||||
@@ -10,21 +10,26 @@
|
||||
|
||||
#include "common/common_types.h"
|
||||
#include "common/multi_level_page_table.h"
|
||||
#include "common/virtual_buffer.h"
|
||||
|
||||
namespace VideoCore {
|
||||
class RasterizerInterface;
|
||||
}
|
||||
|
||||
namespace Core {
|
||||
class DeviceMemory;
|
||||
namespace Memory {
|
||||
class Memory;
|
||||
} // namespace Memory
|
||||
class System;
|
||||
}
|
||||
} // namespace Core
|
||||
|
||||
namespace Tegra {
|
||||
|
||||
class MemoryManager final {
|
||||
public:
|
||||
explicit MemoryManager(Core::System& system_, u64 address_space_bits_ = 40,
|
||||
u64 page_bits_ = 16);
|
||||
u64 big_page_bits_ = 16, u64 page_bits_ = 12);
|
||||
~MemoryManager();
|
||||
|
||||
size_t GetID() const {
|
||||
@@ -93,12 +98,8 @@ public:
|
||||
std::vector<std::pair<GPUVAddr, std::size_t>> GetSubmappedRange(GPUVAddr gpu_addr,
|
||||
std::size_t size) const;
|
||||
|
||||
GPUVAddr Map(GPUVAddr gpu_addr, VAddr cpu_addr, std::size_t size);
|
||||
GPUVAddr MapSparse(GPUVAddr gpu_addr, std::size_t size);
|
||||
[[nodiscard]] GPUVAddr MapAllocate(VAddr cpu_addr, std::size_t size, std::size_t align);
|
||||
[[nodiscard]] GPUVAddr MapAllocate32(VAddr cpu_addr, std::size_t size);
|
||||
[[nodiscard]] std::optional<GPUVAddr> AllocateFixed(GPUVAddr gpu_addr, std::size_t size);
|
||||
[[nodiscard]] GPUVAddr Allocate(std::size_t size, std::size_t align);
|
||||
GPUVAddr Map(GPUVAddr gpu_addr, VAddr cpu_addr, std::size_t size, bool is_big_pages = true);
|
||||
GPUVAddr MapSparse(GPUVAddr gpu_addr, std::size_t size, bool is_big_pages = true);
|
||||
void Unmap(GPUVAddr gpu_addr, std::size_t size);
|
||||
|
||||
void FlushRegion(GPUVAddr gpu_addr, size_t size) const;
|
||||
@@ -107,26 +108,42 @@ private:
|
||||
[[nodiscard]] std::optional<GPUVAddr> FindFreeRange(std::size_t size, std::size_t align,
|
||||
bool start_32bit_address = false) const;
|
||||
|
||||
void ReadBlockImpl(GPUVAddr gpu_src_addr, void* dest_buffer, std::size_t size,
|
||||
bool is_safe) const;
|
||||
void WriteBlockImpl(GPUVAddr gpu_dest_addr, const void* src_buffer, std::size_t size,
|
||||
bool is_safe);
|
||||
template <bool is_big_pages, typename FuncMapped, typename FuncReserved, typename FuncUnmapped>
|
||||
inline void MemoryOperation(GPUVAddr gpu_src_addr, std::size_t size, FuncMapped&& func_mapped,
|
||||
FuncReserved&& func_reserved, FuncUnmapped&& func_unmapped) const;
|
||||
|
||||
template <bool is_safe>
|
||||
void ReadBlockImpl(GPUVAddr gpu_src_addr, void* dest_buffer, std::size_t size) const;
|
||||
|
||||
template <bool is_safe>
|
||||
void WriteBlockImpl(GPUVAddr gpu_dest_addr, const void* src_buffer, std::size_t size);
|
||||
|
||||
template <bool is_big_page>
|
||||
[[nodiscard]] inline std::size_t PageEntryIndex(GPUVAddr gpu_addr) const {
|
||||
return (gpu_addr >> page_bits) & page_table_mask;
|
||||
if constexpr (is_big_page) {
|
||||
return (gpu_addr >> big_page_bits) & big_page_table_mask;
|
||||
} else {
|
||||
return (gpu_addr >> page_bits) & page_table_mask;
|
||||
}
|
||||
}
|
||||
|
||||
Core::System& system;
|
||||
Core::Memory::Memory& memory;
|
||||
Core::DeviceMemory& device_memory;
|
||||
|
||||
const u64 address_space_bits;
|
||||
const u64 page_bits;
|
||||
u64 address_space_size;
|
||||
u64 allocate_start;
|
||||
u64 page_size;
|
||||
u64 page_mask;
|
||||
u64 page_table_mask;
|
||||
static constexpr u64 cpu_page_bits{12};
|
||||
|
||||
const u64 big_page_bits;
|
||||
u64 big_page_size;
|
||||
u64 big_page_mask;
|
||||
u64 big_page_table_mask;
|
||||
|
||||
VideoCore::RasterizerInterface* rasterizer = nullptr;
|
||||
|
||||
enum class EntryType : u64 {
|
||||
@@ -136,15 +153,23 @@ private:
|
||||
};
|
||||
|
||||
std::vector<u64> entries;
|
||||
std::vector<u64> big_entries;
|
||||
|
||||
template <EntryType entry_type>
|
||||
GPUVAddr PageTableOp(GPUVAddr gpu_addr, [[maybe_unused]] VAddr cpu_addr, size_t size);
|
||||
|
||||
EntryType GetEntry(size_t position) const;
|
||||
template <EntryType entry_type>
|
||||
GPUVAddr BigPageTableOp(GPUVAddr gpu_addr, [[maybe_unused]] VAddr cpu_addr, size_t size);
|
||||
|
||||
void SetEntry(size_t position, EntryType entry);
|
||||
template <bool is_big_page>
|
||||
inline EntryType GetEntry(size_t position) const;
|
||||
|
||||
template <bool is_big_page>
|
||||
inline void SetEntry(size_t position, EntryType entry);
|
||||
|
||||
Common::MultiLevelPageTable<u32> page_table;
|
||||
Common::VirtualBuffer<u32> big_page_table_cpu;
|
||||
Common::VirtualBuffer<u32> big_page_table_physical;
|
||||
|
||||
const size_t unique_identifier;
|
||||
|
||||
|
||||
Reference in New Issue
Block a user