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BufferCache: Fixes and address feedback

This commit is contained in:
Fernando Sahmkow 2023-04-28 23:54:54 +02:00
parent f8d31d1ae1
commit d6f565e5da
6 changed files with 243 additions and 322 deletions

View File

@ -427,7 +427,7 @@ TEST_CASE("MemoryTracker: Single page in large region", "[video_core]") {
memory_track->MarkRegionAsCpuModified(c + WORD * 12 + PAGE * 8, PAGE); memory_track->MarkRegionAsCpuModified(c + WORD * 12 + PAGE * 8, PAGE);
REQUIRE(memory_track->IsRegionCpuModified(c, WORD * 16)); REQUIRE(memory_track->IsRegionCpuModified(c, WORD * 16));
REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 10, WORD * 2)); REQUIRE(!memory_track->IsRegionCpuModified(c + WORD * 10, WORD * 2));
REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 11, WORD * 2)); REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 11, WORD * 2));
REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 12, WORD * 2)); REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 12, WORD * 2));
REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 12 + PAGE * 4, PAGE * 8)); REQUIRE(memory_track->IsRegionCpuModified(c + WORD * 12 + PAGE * 4, PAGE * 8));
@ -535,6 +535,8 @@ TEST_CASE("MemoryTracker: Cached write downloads") {
memory_track->MarkRegionAsGpuModified(c + PAGE, PAGE); memory_track->MarkRegionAsGpuModified(c + PAGE, PAGE);
int num = 0; int num = 0;
memory_track->ForEachDownloadRangeAndClear(c, WORD, [&](u64 offset, u64 size) { ++num; }); memory_track->ForEachDownloadRangeAndClear(c, WORD, [&](u64 offset, u64 size) { ++num; });
REQUIRE(num == 1);
num = 0;
memory_track->ForEachUploadRange(c, WORD, [&](u64 offset, u64 size) { ++num; }); memory_track->ForEachUploadRange(c, WORD, [&](u64 offset, u64 size) { ++num; });
REQUIRE(num == 0); REQUIRE(num == 0);
REQUIRE(!memory_track->IsRegionCpuModified(c + PAGE, PAGE)); REQUIRE(!memory_track->IsRegionCpuModified(c + PAGE, PAGE));

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@ -38,10 +38,8 @@ public:
static constexpr u64 BASE_PAGE_BITS = 16; static constexpr u64 BASE_PAGE_BITS = 16;
static constexpr u64 BASE_PAGE_SIZE = 1ULL << BASE_PAGE_BITS; static constexpr u64 BASE_PAGE_SIZE = 1ULL << BASE_PAGE_BITS;
explicit BufferBase(RasterizerInterface& rasterizer_, VAddr cpu_addr_, u64 size_bytes) explicit BufferBase(RasterizerInterface& rasterizer_, VAddr cpu_addr_, u64 size_bytes_)
: cpu_addr{Common::AlignDown(cpu_addr_, BASE_PAGE_SIZE)}, : cpu_addr{cpu_addr_}, size_bytes{size_bytes_} {}
word_manager(cpu_addr, rasterizer_,
Common::AlignUp(size_bytes + (cpu_addr_ - cpu_addr), BASE_PAGE_SIZE)) {}
explicit BufferBase(NullBufferParams) {} explicit BufferBase(NullBufferParams) {}
@ -51,88 +49,6 @@ public:
BufferBase& operator=(BufferBase&&) = default; BufferBase& operator=(BufferBase&&) = default;
BufferBase(BufferBase&&) = default; BufferBase(BufferBase&&) = default;
/// Returns the inclusive CPU modified range in a begin end pair
[[nodiscard]] std::pair<u64, u64> ModifiedCpuRegion(VAddr query_cpu_addr,
u64 query_size) const noexcept {
const u64 offset = query_cpu_addr - cpu_addr;
return word_manager.template ModifiedRegion<Type::CPU>(offset, query_size);
}
/// Returns the inclusive GPU modified range in a begin end pair
[[nodiscard]] std::pair<u64, u64> ModifiedGpuRegion(VAddr query_cpu_addr,
u64 query_size) const noexcept {
const u64 offset = query_cpu_addr - cpu_addr;
return word_manager.template ModifiedRegion<Type::GPU>(offset, query_size);
}
/// Returns true if a region has been modified from the CPU
[[nodiscard]] bool IsRegionCpuModified(VAddr query_cpu_addr, u64 query_size) const noexcept {
const u64 offset = query_cpu_addr - cpu_addr;
return word_manager.template IsRegionModified<Type::CPU>(offset, query_size);
}
/// Returns true if a region has been modified from the GPU
[[nodiscard]] bool IsRegionGpuModified(VAddr query_cpu_addr, u64 query_size) const noexcept {
const u64 offset = query_cpu_addr - cpu_addr;
return word_manager.template IsRegionModified<Type::GPU>(offset, query_size);
}
/// Mark region as CPU modified, notifying the rasterizer about this change
void MarkRegionAsCpuModified(VAddr dirty_cpu_addr, u64 size) {
word_manager.template ChangeRegionState<Type::CPU, true>(dirty_cpu_addr, size);
}
/// Unmark region as CPU modified, notifying the rasterizer about this change
void UnmarkRegionAsCpuModified(VAddr dirty_cpu_addr, u64 size) {
word_manager.template ChangeRegionState<Type::CPU, false>(dirty_cpu_addr, size);
}
/// Mark region as modified from the host GPU
void MarkRegionAsGpuModified(VAddr dirty_cpu_addr, u64 size) noexcept {
word_manager.template ChangeRegionState<Type::GPU, true>(dirty_cpu_addr, size);
}
/// Unmark region as modified from the host GPU
void UnmarkRegionAsGpuModified(VAddr dirty_cpu_addr, u64 size) noexcept {
word_manager.template ChangeRegionState<Type::GPU, false>(dirty_cpu_addr, size);
}
/// Mark region as modified from the CPU
/// but don't mark it as modified until FlusHCachedWrites is called.
void CachedCpuWrite(VAddr dirty_cpu_addr, u64 size) {
flags |= BufferFlagBits::CachedWrites;
word_manager.template ChangeRegionState<Type::CachedCPU, true>(dirty_cpu_addr, size);
}
/// Flushes cached CPU writes, and notify the rasterizer about the deltas
void FlushCachedWrites() noexcept {
flags &= ~BufferFlagBits::CachedWrites;
word_manager.FlushCachedWrites();
}
/// Call 'func' for each CPU modified range and unmark those pages as CPU modified
template <typename Func>
void ForEachUploadRange(VAddr query_cpu_range, u64 size, Func&& func) {
word_manager.template ForEachModifiedRange<Type::CPU>(query_cpu_range, size, true, func);
}
/// Call 'func' for each GPU modified range and unmark those pages as GPU modified
template <typename Func>
void ForEachDownloadRange(VAddr query_cpu_range, u64 size, bool clear, Func&& func) {
word_manager.template ForEachModifiedRange<Type::GPU>(query_cpu_range, size, clear, func);
}
template <typename Func>
void ForEachDownloadRangeAndClear(VAddr query_cpu_range, u64 size, Func&& func) {
word_manager.template ForEachModifiedRange<Type::GPU>(query_cpu_range, size, true, func);
}
/// Call 'func' for each GPU modified range and unmark those pages as GPU modified
template <typename Func>
void ForEachDownloadRange(Func&& func) {
word_manager.template ForEachModifiedRange<Type::GPU>(cpu_addr, SizeBytes(), true, func);
}
/// Mark buffer as picked /// Mark buffer as picked
void Pick() noexcept { void Pick() noexcept {
flags |= BufferFlagBits::Picked; flags |= BufferFlagBits::Picked;
@ -179,11 +95,6 @@ public:
return static_cast<u32>(other_cpu_addr - cpu_addr); return static_cast<u32>(other_cpu_addr - cpu_addr);
} }
/// Returns the size in bytes of the buffer
[[nodiscard]] u64 SizeBytes() const noexcept {
return word_manager.SizeBytes();
}
size_t getLRUID() const noexcept { size_t getLRUID() const noexcept {
return lru_id; return lru_id;
} }
@ -192,12 +103,16 @@ public:
lru_id = lru_id_; lru_id = lru_id_;
} }
size_t SizeBytes() const {
return size_bytes;
}
private: private:
VAddr cpu_addr = 0; VAddr cpu_addr = 0;
WordManager<RasterizerInterface> word_manager;
BufferFlagBits flags{}; BufferFlagBits flags{};
int stream_score = 0; int stream_score = 0;
size_t lru_id = SIZE_MAX; size_t lru_id = SIZE_MAX;
size_t size_bytes = 0;
}; };
} // namespace VideoCommon } // namespace VideoCommon

View File

@ -21,6 +21,7 @@ BufferCache<P>::BufferCache(VideoCore::RasterizerInterface& rasterizer_,
// Ensure the first slot is used for the null buffer // Ensure the first slot is used for the null buffer
void(slot_buffers.insert(runtime, NullBufferParams{})); void(slot_buffers.insert(runtime, NullBufferParams{}));
common_ranges.clear(); common_ranges.clear();
inline_buffer_id = NULL_BUFFER_ID;
active_async_buffers = !Settings::IsGPULevelHigh(); active_async_buffers = !Settings::IsGPULevelHigh();
@ -442,9 +443,6 @@ template <class P>
void BufferCache<P>::FlushCachedWrites() { void BufferCache<P>::FlushCachedWrites() {
cached_write_buffer_ids.clear(); cached_write_buffer_ids.clear();
memory_tracker.FlushCachedWrites(); memory_tracker.FlushCachedWrites();
for (auto& interval : cached_ranges) {
ClearDownload(interval);
}
cached_ranges.clear(); cached_ranges.clear();
} }
@ -659,8 +657,8 @@ bool BufferCache<P>::IsRegionGpuModified(VAddr addr, size_t size) {
template <class P> template <class P>
bool BufferCache<P>::IsRegionRegistered(VAddr addr, size_t size) { bool BufferCache<P>::IsRegionRegistered(VAddr addr, size_t size) {
const VAddr end_addr = addr + size; const VAddr end_addr = addr + size;
const u64 page_end = Common::DivCeil(end_addr, PAGE_SIZE); const u64 page_end = Common::DivCeil(end_addr, CACHING_PAGESIZE);
for (u64 page = addr >> PAGE_BITS; page < page_end;) { for (u64 page = addr >> CACHING_PAGEBITS; page < page_end;) {
const BufferId buffer_id = page_table[page]; const BufferId buffer_id = page_table[page];
if (!buffer_id) { if (!buffer_id) {
++page; ++page;
@ -672,7 +670,7 @@ bool BufferCache<P>::IsRegionRegistered(VAddr addr, size_t size) {
if (buf_start_addr < end_addr && addr < buf_end_addr) { if (buf_start_addr < end_addr && addr < buf_end_addr) {
return true; return true;
} }
page = Common::DivCeil(end_addr, PAGE_SIZE); page = Common::DivCeil(end_addr, CACHING_PAGESIZE);
} }
return false; return false;
} }
@ -689,7 +687,7 @@ void BufferCache<P>::BindHostIndexBuffer() {
const u32 offset = buffer.Offset(index_buffer.cpu_addr); const u32 offset = buffer.Offset(index_buffer.cpu_addr);
const u32 size = index_buffer.size; const u32 size = index_buffer.size;
const auto& draw_state = maxwell3d->draw_manager->GetDrawState(); const auto& draw_state = maxwell3d->draw_manager->GetDrawState();
if (!draw_state.inline_index_draw_indexes.empty()) { if (!draw_state.inline_index_draw_indexes.empty()) [[unlikely]] {
if constexpr (USE_MEMORY_MAPS) { if constexpr (USE_MEMORY_MAPS) {
auto upload_staging = runtime.UploadStagingBuffer(size); auto upload_staging = runtime.UploadStagingBuffer(size);
std::array<BufferCopy, 1> copies{ std::array<BufferCopy, 1> copies{
@ -1001,12 +999,20 @@ void BufferCache<P>::UpdateIndexBuffer() {
return; return;
} }
flags[Dirty::IndexBuffer] = false; flags[Dirty::IndexBuffer] = false;
if (!draw_state.inline_index_draw_indexes.empty()) { if (!draw_state.inline_index_draw_indexes.empty()) [[unlikely]] {
auto inline_index_size = static_cast<u32>(draw_state.inline_index_draw_indexes.size()); auto inline_index_size = static_cast<u32>(draw_state.inline_index_draw_indexes.size());
u32 buffer_size = Common::AlignUp(inline_index_size, CACHING_PAGESIZE);
if (inline_buffer_id == NULL_BUFFER_ID) [[unlikely]] {
inline_buffer_id = CreateBuffer(0, buffer_size);
}
if (slot_buffers[inline_buffer_id].SizeBytes() < buffer_size) [[unlikely]] {
slot_buffers.erase(inline_buffer_id);
inline_buffer_id = CreateBuffer(0, buffer_size);
}
index_buffer = Binding{ index_buffer = Binding{
.cpu_addr = 0, .cpu_addr = 0,
.size = inline_index_size, .size = inline_index_size,
.buffer_id = FindBuffer(0, inline_index_size), .buffer_id = inline_buffer_id,
}; };
return; return;
} }
@ -1224,7 +1230,7 @@ BufferId BufferCache<P>::FindBuffer(VAddr cpu_addr, u32 size) {
if (cpu_addr == 0) { if (cpu_addr == 0) {
return NULL_BUFFER_ID; return NULL_BUFFER_ID;
} }
const u64 page = cpu_addr >> PAGE_BITS; const u64 page = cpu_addr >> CACHING_PAGEBITS;
const BufferId buffer_id = page_table[page]; const BufferId buffer_id = page_table[page];
if (!buffer_id) { if (!buffer_id) {
return CreateBuffer(cpu_addr, size); return CreateBuffer(cpu_addr, size);
@ -1253,8 +1259,9 @@ typename BufferCache<P>::OverlapResult BufferCache<P>::ResolveOverlaps(VAddr cpu
.has_stream_leap = has_stream_leap, .has_stream_leap = has_stream_leap,
}; };
} }
for (; cpu_addr >> PAGE_BITS < Common::DivCeil(end, PAGE_SIZE); cpu_addr += PAGE_SIZE) { for (; cpu_addr >> CACHING_PAGEBITS < Common::DivCeil(end, CACHING_PAGESIZE);
const BufferId overlap_id = page_table[cpu_addr >> PAGE_BITS]; cpu_addr += CACHING_PAGESIZE) {
const BufferId overlap_id = page_table[cpu_addr >> CACHING_PAGEBITS];
if (!overlap_id) { if (!overlap_id) {
continue; continue;
} }
@ -1280,11 +1287,11 @@ typename BufferCache<P>::OverlapResult BufferCache<P>::ResolveOverlaps(VAddr cpu
// as a stream buffer. Increase the size to skip constantly recreating buffers. // as a stream buffer. Increase the size to skip constantly recreating buffers.
has_stream_leap = true; has_stream_leap = true;
if (expands_right) { if (expands_right) {
begin -= PAGE_SIZE * 256; begin -= CACHING_PAGESIZE * 256;
cpu_addr = begin; cpu_addr = begin;
} }
if (expands_left) { if (expands_left) {
end += PAGE_SIZE * 256; end += CACHING_PAGESIZE * 256;
} }
} }
} }
@ -1317,6 +1324,9 @@ void BufferCache<P>::JoinOverlap(BufferId new_buffer_id, BufferId overlap_id,
template <class P> template <class P>
BufferId BufferCache<P>::CreateBuffer(VAddr cpu_addr, u32 wanted_size) { BufferId BufferCache<P>::CreateBuffer(VAddr cpu_addr, u32 wanted_size) {
VAddr cpu_addr_end = Common::AlignUp(cpu_addr + wanted_size, CACHING_PAGESIZE);
cpu_addr = Common::AlignDown(cpu_addr, CACHING_PAGESIZE);
wanted_size = static_cast<u32>(cpu_addr_end - cpu_addr);
const OverlapResult overlap = ResolveOverlaps(cpu_addr, wanted_size); const OverlapResult overlap = ResolveOverlaps(cpu_addr, wanted_size);
const u32 size = static_cast<u32>(overlap.end - overlap.begin); const u32 size = static_cast<u32>(overlap.end - overlap.begin);
const BufferId new_buffer_id = slot_buffers.insert(runtime, rasterizer, overlap.begin, size); const BufferId new_buffer_id = slot_buffers.insert(runtime, rasterizer, overlap.begin, size);
@ -1354,8 +1364,8 @@ void BufferCache<P>::ChangeRegister(BufferId buffer_id) {
} }
const VAddr cpu_addr_begin = buffer.CpuAddr(); const VAddr cpu_addr_begin = buffer.CpuAddr();
const VAddr cpu_addr_end = cpu_addr_begin + size; const VAddr cpu_addr_end = cpu_addr_begin + size;
const u64 page_begin = cpu_addr_begin / PAGE_SIZE; const u64 page_begin = cpu_addr_begin / CACHING_PAGESIZE;
const u64 page_end = Common::DivCeil(cpu_addr_end, PAGE_SIZE); const u64 page_end = Common::DivCeil(cpu_addr_end, CACHING_PAGESIZE);
for (u64 page = page_begin; page != page_end; ++page) { for (u64 page = page_begin; page != page_end; ++page) {
if constexpr (insert) { if constexpr (insert) {
page_table[page] = buffer_id; page_table[page] = buffer_id;

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@ -90,10 +90,8 @@ template <typename P>
class BufferCache : public VideoCommon::ChannelSetupCaches<VideoCommon::ChannelInfo> { class BufferCache : public VideoCommon::ChannelSetupCaches<VideoCommon::ChannelInfo> {
// Page size for caching purposes. // Page size for caching purposes.
// This is unrelated to the CPU page size and it can be changed as it seems optimal. // This is unrelated to the CPU page size and it can be changed as it seems optimal.
static constexpr u32 PAGE_BITS = 16; static constexpr u32 CACHING_PAGEBITS = 16;
static constexpr u64 PAGE_SIZE = u64{1} << PAGE_BITS; static constexpr u64 CACHING_PAGESIZE = u64{1} << CACHING_PAGEBITS;
static constexpr u32 CPU_PAGE_BITS = 12;
static constexpr u64 CPU_PAGE_SIZE = u64{1} << CPU_PAGE_BITS;
static constexpr bool IS_OPENGL = P::IS_OPENGL; static constexpr bool IS_OPENGL = P::IS_OPENGL;
static constexpr bool HAS_PERSISTENT_UNIFORM_BUFFER_BINDINGS = static constexpr bool HAS_PERSISTENT_UNIFORM_BUFFER_BINDINGS =
@ -112,6 +110,10 @@ class BufferCache : public VideoCommon::ChannelSetupCaches<VideoCommon::ChannelI
static constexpr s64 DEFAULT_CRITICAL_MEMORY = 1_GiB; static constexpr s64 DEFAULT_CRITICAL_MEMORY = 1_GiB;
static constexpr s64 TARGET_THRESHOLD = 4_GiB; static constexpr s64 TARGET_THRESHOLD = 4_GiB;
// Debug Flags.
static constexpr bool DISABLE_DOWNLOADS = true;
using Maxwell = Tegra::Engines::Maxwell3D::Regs; using Maxwell = Tegra::Engines::Maxwell3D::Regs;
using Runtime = typename P::Runtime; using Runtime = typename P::Runtime;
@ -286,8 +288,8 @@ private:
template <typename Func> template <typename Func>
void ForEachBufferInRange(VAddr cpu_addr, u64 size, Func&& func) { void ForEachBufferInRange(VAddr cpu_addr, u64 size, Func&& func) {
const u64 page_end = Common::DivCeil(cpu_addr + size, PAGE_SIZE); const u64 page_end = Common::DivCeil(cpu_addr + size, CACHING_PAGESIZE);
for (u64 page = cpu_addr >> PAGE_BITS; page < page_end;) { for (u64 page = cpu_addr >> CACHING_PAGEBITS; page < page_end;) {
const BufferId buffer_id = page_table[page]; const BufferId buffer_id = page_table[page];
if (!buffer_id) { if (!buffer_id) {
++page; ++page;
@ -297,7 +299,7 @@ private:
func(buffer_id, buffer); func(buffer_id, buffer);
const VAddr end_addr = buffer.CpuAddr() + buffer.SizeBytes(); const VAddr end_addr = buffer.CpuAddr() + buffer.SizeBytes();
page = Common::DivCeil(end_addr, PAGE_SIZE); page = Common::DivCeil(end_addr, CACHING_PAGESIZE);
} }
} }
@ -568,10 +570,11 @@ private:
u64 total_used_memory = 0; u64 total_used_memory = 0;
u64 minimum_memory = 0; u64 minimum_memory = 0;
u64 critical_memory = 0; u64 critical_memory = 0;
BufferId inline_buffer_id;
bool active_async_buffers = false; bool active_async_buffers = false;
std::array<BufferId, ((1ULL << 39) >> PAGE_BITS)> page_table; std::array<BufferId, ((1ULL << 39) >> CACHING_PAGEBITS)> page_table;
}; };
} // namespace VideoCommon } // namespace VideoCommon

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@ -132,8 +132,8 @@ public:
void ForEachUploadRange(VAddr query_cpu_range, u64 query_size, Func&& func) { void ForEachUploadRange(VAddr query_cpu_range, u64 query_size, Func&& func) {
IteratePages<true>(query_cpu_range, query_size, IteratePages<true>(query_cpu_range, query_size,
[&func](Manager* manager, u64 offset, size_t size) { [&func](Manager* manager, u64 offset, size_t size) {
manager->template ForEachModifiedRange<Type::CPU>( manager->template ForEachModifiedRange<Type::CPU, true>(
manager->GetCpuAddr() + offset, size, true, func); manager->GetCpuAddr() + offset, size, func);
}); });
} }
@ -142,8 +142,13 @@ public:
void ForEachDownloadRange(VAddr query_cpu_range, u64 query_size, bool clear, Func&& func) { void ForEachDownloadRange(VAddr query_cpu_range, u64 query_size, bool clear, Func&& func) {
IteratePages<false>(query_cpu_range, query_size, IteratePages<false>(query_cpu_range, query_size,
[&func, clear](Manager* manager, u64 offset, size_t size) { [&func, clear](Manager* manager, u64 offset, size_t size) {
manager->template ForEachModifiedRange<Type::GPU>( if (clear) {
manager->GetCpuAddr() + offset, size, clear, func); manager->template ForEachModifiedRange<Type::GPU, true>(
manager->GetCpuAddr() + offset, size, func);
} else {
manager->template ForEachModifiedRange<Type::GPU, false>(
manager->GetCpuAddr() + offset, size, func);
}
}); });
} }
@ -151,8 +156,8 @@ public:
void ForEachDownloadRangeAndClear(VAddr query_cpu_range, u64 query_size, Func&& func) { void ForEachDownloadRangeAndClear(VAddr query_cpu_range, u64 query_size, Func&& func) {
IteratePages<false>(query_cpu_range, query_size, IteratePages<false>(query_cpu_range, query_size,
[&func](Manager* manager, u64 offset, size_t size) { [&func](Manager* manager, u64 offset, size_t size) {
manager->template ForEachModifiedRange<Type::GPU>( manager->template ForEachModifiedRange<Type::GPU, true>(
manager->GetCpuAddr() + offset, size, true, func); manager->GetCpuAddr() + offset, size, func);
}); });
} }

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@ -6,6 +6,7 @@
#include <algorithm> #include <algorithm>
#include <bit> #include <bit>
#include <limits> #include <limits>
#include <span>
#include <utility> #include <utility>
#include "common/alignment.h" #include "common/alignment.h"
@ -20,9 +21,16 @@ constexpr u64 PAGES_PER_WORD = 64;
constexpr u64 BYTES_PER_PAGE = Core::Memory::YUZU_PAGESIZE; constexpr u64 BYTES_PER_PAGE = Core::Memory::YUZU_PAGESIZE;
constexpr u64 BYTES_PER_WORD = PAGES_PER_WORD * BYTES_PER_PAGE; constexpr u64 BYTES_PER_WORD = PAGES_PER_WORD * BYTES_PER_PAGE;
enum class Type {
CPU,
GPU,
CachedCPU,
Untracked,
};
/// Vector tracking modified pages tightly packed with small vector optimization /// Vector tracking modified pages tightly packed with small vector optimization
template <size_t stack_words = 1> template <size_t stack_words = 1>
union WordsArray { struct WordsArray {
/// Returns the pointer to the words state /// Returns the pointer to the words state
[[nodiscard]] const u64* Pointer(bool is_short) const noexcept { [[nodiscard]] const u64* Pointer(bool is_short) const noexcept {
return is_short ? stack.data() : heap; return is_short ? stack.data() : heap;
@ -41,13 +49,13 @@ template <size_t stack_words = 1>
struct Words { struct Words {
explicit Words() = default; explicit Words() = default;
explicit Words(u64 size_bytes_) : size_bytes{size_bytes_} { explicit Words(u64 size_bytes_) : size_bytes{size_bytes_} {
num_words = Common::DivCeil(size_bytes, BYTES_PER_WORD);
if (IsShort()) { if (IsShort()) {
cpu.stack.fill(~u64{0}); cpu.stack.fill(~u64{0});
gpu.stack.fill(0); gpu.stack.fill(0);
cached_cpu.stack.fill(0); cached_cpu.stack.fill(0);
untracked.stack.fill(~u64{0}); untracked.stack.fill(~u64{0});
} else { } else {
const size_t num_words = NumWords();
// Share allocation between CPU and GPU pages and set their default values // Share allocation between CPU and GPU pages and set their default values
u64* const alloc = new u64[num_words * 4]; u64* const alloc = new u64[num_words * 4];
cpu.heap = alloc; cpu.heap = alloc;
@ -75,6 +83,7 @@ struct Words {
Words& operator=(Words&& rhs) noexcept { Words& operator=(Words&& rhs) noexcept {
Release(); Release();
size_bytes = rhs.size_bytes; size_bytes = rhs.size_bytes;
num_words = rhs.num_words;
cpu = rhs.cpu; cpu = rhs.cpu;
gpu = rhs.gpu; gpu = rhs.gpu;
cached_cpu = rhs.cached_cpu; cached_cpu = rhs.cached_cpu;
@ -84,7 +93,7 @@ struct Words {
} }
Words(Words&& rhs) noexcept Words(Words&& rhs) noexcept
: size_bytes{rhs.size_bytes}, cpu{rhs.cpu}, gpu{rhs.gpu}, : size_bytes{rhs.size_bytes}, num_words{rhs.num_words}, cpu{rhs.cpu}, gpu{rhs.gpu},
cached_cpu{rhs.cached_cpu}, untracked{rhs.untracked} { cached_cpu{rhs.cached_cpu}, untracked{rhs.untracked} {
rhs.cpu.heap = nullptr; rhs.cpu.heap = nullptr;
} }
@ -94,12 +103,12 @@ struct Words {
/// Returns true when the buffer fits in the small vector optimization /// Returns true when the buffer fits in the small vector optimization
[[nodiscard]] bool IsShort() const noexcept { [[nodiscard]] bool IsShort() const noexcept {
return size_bytes <= stack_words * BYTES_PER_WORD; return num_words <= stack_words;
} }
/// Returns the number of words of the buffer /// Returns the number of words of the buffer
[[nodiscard]] size_t NumWords() const noexcept { [[nodiscard]] size_t NumWords() const noexcept {
return Common::DivCeil(size_bytes, BYTES_PER_WORD); return num_words;
} }
/// Release buffer resources /// Release buffer resources
@ -110,20 +119,40 @@ struct Words {
} }
} }
template <Type type>
std::span<u64> Span() noexcept {
if constexpr (type == Type::CPU) {
return std::span<u64>(cpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::GPU) {
return std::span<u64>(gpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::CachedCPU) {
return std::span<u64>(cached_cpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::Untracked) {
return std::span<u64>(untracked.Pointer(IsShort()), num_words);
}
}
template <Type type>
std::span<const u64> Span() const noexcept {
if constexpr (type == Type::CPU) {
return std::span<const u64>(cpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::GPU) {
return std::span<const u64>(gpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::CachedCPU) {
return std::span<const u64>(cached_cpu.Pointer(IsShort()), num_words);
} else if constexpr (type == Type::Untracked) {
return std::span<const u64>(untracked.Pointer(IsShort()), num_words);
}
}
u64 size_bytes = 0; u64 size_bytes = 0;
size_t num_words = 0;
WordsArray<stack_words> cpu; WordsArray<stack_words> cpu;
WordsArray<stack_words> gpu; WordsArray<stack_words> gpu;
WordsArray<stack_words> cached_cpu; WordsArray<stack_words> cached_cpu;
WordsArray<stack_words> untracked; WordsArray<stack_words> untracked;
}; };
enum class Type {
CPU,
GPU,
CachedCPU,
Untracked,
};
template <class RasterizerInterface, size_t stack_words = 1> template <class RasterizerInterface, size_t stack_words = 1>
class WordManager { class WordManager {
public: public:
@ -140,6 +169,69 @@ public:
return cpu_addr; return cpu_addr;
} }
static u64 ExtractBits(u64 word, size_t page_start, size_t page_end) {
constexpr size_t number_bits = sizeof(u64) * 8;
const size_t limit_page_end = number_bits - std::min(page_end, number_bits);
u64 bits = (word >> page_start) << page_start;
bits = (bits << limit_page_end) >> limit_page_end;
return bits;
}
static std::pair<size_t, size_t> GetWordPage(VAddr address) {
const size_t converted_address = static_cast<size_t>(address);
const size_t word_number = converted_address / BYTES_PER_WORD;
const size_t amount_pages = converted_address % BYTES_PER_WORD;
return std::make_pair(word_number, amount_pages / BYTES_PER_PAGE);
}
template <typename Func>
void IterateWords(size_t offset, size_t size, Func&& func) const {
using FuncReturn = std::invoke_result_t<Func, std::size_t, u64>;
static constexpr bool BOOL_BREAK = std::is_same_v<FuncReturn, bool>;
const size_t start = static_cast<size_t>(std::max<s64>(static_cast<s64>(offset), 0LL));
const size_t end = static_cast<size_t>(std::max<s64>(static_cast<s64>(offset + size), 0LL));
if (start >= SizeBytes() || end <= start) {
return;
}
auto [start_word, start_page] = GetWordPage(start);
auto [end_word, end_page] = GetWordPage(end + BYTES_PER_PAGE - 1ULL);
const size_t num_words = NumWords();
start_word = std::min(start_word, num_words);
end_word = std::min(end_word, num_words);
const size_t diff = end_word - start_word;
end_word += (end_page + PAGES_PER_WORD - 1ULL) / PAGES_PER_WORD;
end_word = std::min(end_word, num_words);
end_page += diff * PAGES_PER_WORD;
constexpr u64 base_mask{~0ULL};
for (size_t word_index = start_word; word_index < end_word; word_index++) {
const u64 mask = ExtractBits(base_mask, start_page, end_page);
start_page = 0;
end_page -= PAGES_PER_WORD;
if constexpr (BOOL_BREAK) {
if (func(word_index, mask)) {
return;
}
} else {
func(word_index, mask);
}
}
}
template <typename Func>
void IteratePages(u64 mask, Func&& func) const {
size_t offset = 0;
while (mask != 0) {
const size_t empty_bits = std::countr_zero(mask);
offset += empty_bits;
mask = mask >> empty_bits;
const size_t continuous_bits = std::countr_one(mask);
func(offset, continuous_bits);
mask = continuous_bits < PAGES_PER_WORD ? (mask >> continuous_bits) : 0;
offset += continuous_bits;
}
}
/** /**
* Change the state of a range of pages * Change the state of a range of pages
* *
@ -147,47 +239,33 @@ public:
* @param size Size in bytes to mark or unmark as modified * @param size Size in bytes to mark or unmark as modified
*/ */
template <Type type, bool enable> template <Type type, bool enable>
void ChangeRegionState(u64 dirty_addr, s64 size) noexcept(type == Type::GPU) { void ChangeRegionState(u64 dirty_addr, u64 size) noexcept(type == Type::GPU) {
const s64 difference = dirty_addr - cpu_addr; std::span<u64> state_words = words.template Span<type>();
const u64 offset = std::max<s64>(difference, 0); [[maybe_unused]] std::span<u64> untracked_words = words.template Span<Type::Untracked>();
size += std::min<s64>(difference, 0); [[maybe_unused]] std::span<u64> cached_words = words.template Span<Type::CachedCPU>();
if (offset >= SizeBytes() || size < 0) { IterateWords(dirty_addr - cpu_addr, size, [&](size_t index, u64 mask) {
return;
}
u64* const untracked_words = Array<Type::Untracked>();
u64* const state_words = Array<type>();
const u64 offset_end = std::min(offset + size, SizeBytes());
const u64 begin_page_index = offset / BYTES_PER_PAGE;
const u64 begin_word_index = begin_page_index / PAGES_PER_WORD;
const u64 end_page_index = Common::DivCeil(offset_end, BYTES_PER_PAGE);
const u64 end_word_index = Common::DivCeil(end_page_index, PAGES_PER_WORD);
u64 page_index = begin_page_index % PAGES_PER_WORD;
u64 word_index = begin_word_index;
while (word_index < end_word_index) {
const u64 next_word_first_page = (word_index + 1) * PAGES_PER_WORD;
const u64 left_offset =
std::min(next_word_first_page - end_page_index, PAGES_PER_WORD) % PAGES_PER_WORD;
const u64 right_offset = page_index;
u64 bits = ~u64{0};
bits = (bits >> right_offset) << right_offset;
bits = (bits << left_offset) >> left_offset;
if constexpr (type == Type::CPU || type == Type::CachedCPU) { if constexpr (type == Type::CPU || type == Type::CachedCPU) {
NotifyRasterizer<!enable>(word_index, untracked_words[word_index], bits); NotifyRasterizer<!enable>(index, untracked_words[index], mask);
} }
if constexpr (enable) { if constexpr (enable) {
state_words[word_index] |= bits; state_words[index] |= mask;
if constexpr (type == Type::CPU || type == Type::CachedCPU) { if constexpr (type == Type::CPU || type == Type::CachedCPU) {
untracked_words[word_index] |= bits; untracked_words[index] |= mask;
}
if constexpr (type == Type::CPU) {
cached_words[index] &= ~mask;
} }
} else { } else {
state_words[word_index] &= ~bits; if constexpr (type == Type::CPU) {
const u64 word = state_words[index] & mask;
cached_words[index] &= ~word;
}
state_words[index] &= ~mask;
if constexpr (type == Type::CPU || type == Type::CachedCPU) { if constexpr (type == Type::CPU || type == Type::CachedCPU) {
untracked_words[word_index] &= ~bits; untracked_words[index] &= ~mask;
} }
} }
page_index = 0; });
++word_index;
}
} }
/** /**
@ -198,117 +276,57 @@ public:
* @param size Size in bytes of the CPU range to loop over * @param size Size in bytes of the CPU range to loop over
* @param func Function to call for each turned off region * @param func Function to call for each turned off region
*/ */
template <Type type, typename Func> template <Type type, bool clear, typename Func>
void ForEachModifiedRange(VAddr query_cpu_range, s64 size, bool clear, Func&& func) { void ForEachModifiedRange(VAddr query_cpu_range, s64 size, Func&& func) {
static_assert(type != Type::Untracked); static_assert(type != Type::Untracked);
const s64 difference = query_cpu_range - cpu_addr; std::span<u64> state_words = words.template Span<type>();
const u64 query_begin = std::max<s64>(difference, 0); [[maybe_unused]] std::span<u64> untracked_words = words.template Span<Type::Untracked>();
size += std::min<s64>(difference, 0); [[maybe_unused]] std::span<u64> cached_words = words.template Span<Type::CachedCPU>();
if (query_begin >= SizeBytes() || size < 0) { const size_t offset = query_cpu_range - cpu_addr;
return; bool pending = false;
size_t pending_offset{};
size_t pending_pointer{};
const auto release = [&]() {
func(cpu_addr + pending_offset * BYTES_PER_PAGE,
(pending_pointer - pending_offset) * BYTES_PER_PAGE);
};
IterateWords(offset, size, [&](size_t index, u64 mask) {
const u64 word = state_words[index] & mask;
if constexpr (clear) {
if constexpr (type == Type::CPU || type == Type::CachedCPU) {
NotifyRasterizer<true>(index, untracked_words[index], mask);
} }
[[maybe_unused]] u64* const untracked_words = Array<Type::Untracked>(); state_words[index] &= ~mask;
[[maybe_unused]] u64* const cpu_words = Array<Type::CPU>(); if constexpr (type == Type::CPU || type == Type::CachedCPU) {
u64* const state_words = Array<type>(); untracked_words[index] &= ~mask;
const u64 query_end = query_begin + std::min(static_cast<u64>(size), SizeBytes());
u64* const words_begin = state_words + query_begin / BYTES_PER_WORD;
u64* const words_end = state_words + Common::DivCeil(query_end, BYTES_PER_WORD);
u64 first_page = (query_begin / BYTES_PER_PAGE) % PAGES_PER_WORD;
const auto modified = [](u64 word) { return word != 0; };
const auto first_modified_word = std::find_if(words_begin, words_end, modified);
if (first_modified_word == words_end) {
// Exit early when the buffer is not modified
return;
} }
if (first_modified_word != words_begin) {
first_page = 0;
}
std::reverse_iterator<u64*> first_word_reverse(first_modified_word);
std::reverse_iterator<u64*> last_word_iterator(words_end);
auto last_word_result = std::find_if(last_word_iterator, first_word_reverse, modified);
u64* const last_modified_word = &(*last_word_result) + 1;
const u64 word_index_begin = std::distance(state_words, first_modified_word);
const u64 word_index_end = std::distance(state_words, last_modified_word);
const unsigned local_page_begin = std::countr_zero(*first_modified_word);
const unsigned local_page_end =
static_cast<unsigned>(PAGES_PER_WORD) - std::countl_zero(last_modified_word[-1]);
const u64 word_page_begin = word_index_begin * PAGES_PER_WORD;
const u64 word_page_end = (word_index_end - 1) * PAGES_PER_WORD;
const u64 query_page_begin = query_begin / BYTES_PER_PAGE;
const u64 query_page_end = Common::DivCeil(query_end, BYTES_PER_PAGE);
const u64 page_index_begin = std::max(word_page_begin + local_page_begin, query_page_begin);
const u64 page_index_end = std::min(word_page_end + local_page_end, query_page_end);
const u64 first_word_page_begin = page_index_begin % PAGES_PER_WORD;
const u64 last_word_page_end = (page_index_end - 1) % PAGES_PER_WORD + 1;
u64 page_begin = std::max(first_word_page_begin, first_page);
u64 current_base = 0;
u64 current_size = 0;
bool on_going = false;
for (u64 word_index = word_index_begin; word_index < word_index_end; ++word_index) {
const bool is_last_word = word_index + 1 == word_index_end;
const u64 page_end = is_last_word ? last_word_page_end : PAGES_PER_WORD;
const u64 right_offset = page_begin;
const u64 left_offset = PAGES_PER_WORD - page_end;
u64 bits = ~u64{0};
bits = (bits >> right_offset) << right_offset;
bits = (bits << left_offset) >> left_offset;
const u64 current_word = state_words[word_index] & bits;
if (clear) {
state_words[word_index] &= ~bits;
}
if constexpr (type == Type::CachedCPU) {
NotifyRasterizer<false>(word_index, untracked_words[word_index], current_word);
untracked_words[word_index] |= current_word;
cpu_words[word_index] |= current_word;
}
if constexpr (type == Type::CPU) { if constexpr (type == Type::CPU) {
const u64 current_bits = untracked_words[word_index] & bits; cached_words[index] &= ~word;
untracked_words[word_index] &= ~bits;
NotifyRasterizer<true>(word_index, current_bits, ~u64{0});
}
const u64 word = current_word & ~(type == Type::GPU ? untracked_words[word_index] : 0);
u64 page = page_begin;
page_begin = 0;
while (page < page_end) {
const int empty_bits = std::countr_zero(word >> page);
if (on_going && empty_bits != 0) {
InvokeModifiedRange(func, current_size, current_base);
current_size = 0;
on_going = false;
}
if (empty_bits == PAGES_PER_WORD) {
break;
}
page += empty_bits;
const int continuous_bits = std::countr_one(word >> page);
if (!on_going && continuous_bits != 0) {
current_base = word_index * PAGES_PER_WORD + page;
on_going = true;
}
current_size += continuous_bits;
page += continuous_bits;
} }
} }
if (on_going && current_size > 0) { const size_t base_offset = index * PAGES_PER_WORD;
InvokeModifiedRange(func, current_size, current_base); IteratePages(word, [&](size_t pages_offset, size_t pages_size) {
const auto reset = [&]() {
pending_offset = base_offset + pages_offset;
pending_pointer = base_offset + pages_offset + pages_size;
};
if (!pending) {
reset();
pending = true;
return;
} }
if (pending_pointer == base_offset + pages_offset) {
pending_pointer += pages_size;
return;
}
release();
reset();
});
});
if (pending) {
release();
} }
template <typename Func>
void InvokeModifiedRange(Func&& func, u64 current_size, u64 current_base) {
const u64 current_size_bytes = current_size * BYTES_PER_PAGE;
const u64 offset_begin = current_base * BYTES_PER_PAGE;
const u64 offset_end = std::min(offset_begin + current_size_bytes, SizeBytes());
func(cpu_addr + offset_begin, offset_end - offset_begin);
} }
/** /**
@ -321,27 +339,17 @@ public:
[[nodiscard]] bool IsRegionModified(u64 offset, u64 size) const noexcept { [[nodiscard]] bool IsRegionModified(u64 offset, u64 size) const noexcept {
static_assert(type != Type::Untracked); static_assert(type != Type::Untracked);
const u64* const untracked_words = Array<Type::Untracked>(); const std::span<const u64> state_words = words.template Span<type>();
const u64* const state_words = Array<type>(); bool result = false;
const u64 num_query_words = size / BYTES_PER_WORD + 1; IterateWords(offset, size, [&](size_t index, u64 mask) {
const u64 word_begin = offset / BYTES_PER_WORD; const u64 word = state_words[index] & mask;
const u64 word_end = std::min(word_begin + num_query_words, NumWords()); if (word != 0) {
const u64 page_limit = Common::DivCeil(offset + size, BYTES_PER_PAGE); result = true;
u64 page_index = (offset / BYTES_PER_PAGE) % PAGES_PER_WORD;
for (u64 word_index = word_begin; word_index < word_end; ++word_index, page_index = 0) {
const u64 off_word = type == Type::GPU ? untracked_words[word_index] : 0;
const u64 word = state_words[word_index] & ~off_word;
if (word == 0) {
continue;
}
const u64 page_end = std::min((word_index + 1) * PAGES_PER_WORD, page_limit);
const u64 local_page_end = page_end % PAGES_PER_WORD;
const u64 page_end_shift = (PAGES_PER_WORD - local_page_end) % PAGES_PER_WORD;
if (((word >> page_index) << page_index) << page_end_shift != 0) {
return true; return true;
} }
}
return false; return false;
});
return result;
} }
/** /**
@ -353,34 +361,20 @@ public:
template <Type type> template <Type type>
[[nodiscard]] std::pair<u64, u64> ModifiedRegion(u64 offset, u64 size) const noexcept { [[nodiscard]] std::pair<u64, u64> ModifiedRegion(u64 offset, u64 size) const noexcept {
static_assert(type != Type::Untracked); static_assert(type != Type::Untracked);
const u64* const state_words = Array<type>(); const std::span<const u64> state_words = words.template Span<type>();
const u64 num_query_words = size / BYTES_PER_WORD + 1;
const u64 word_begin = offset / BYTES_PER_WORD;
const u64 word_end = std::min(word_begin + num_query_words, NumWords());
const u64 page_base = offset / BYTES_PER_PAGE;
u64 page_begin = page_base & (PAGES_PER_WORD - 1);
u64 page_end =
Common::DivCeil(offset + size, BYTES_PER_PAGE) - (page_base & ~(PAGES_PER_WORD - 1));
u64 begin = std::numeric_limits<u64>::max(); u64 begin = std::numeric_limits<u64>::max();
u64 end = 0; u64 end = 0;
for (u64 word_index = word_begin; word_index < word_end; ++word_index) { IterateWords(offset, size, [&](size_t index, u64 mask) {
const u64 base_mask = (1ULL << page_begin) - 1ULL; const u64 word = state_words[index] & mask;
const u64 end_mask = page_end >= PAGES_PER_WORD ? 0ULL : ~((1ULL << page_end) - 1ULL);
const u64 off_word = end_mask | base_mask;
const u64 word = state_words[word_index] & ~off_word;
if (word == 0) { if (word == 0) {
page_begin = 0; return;
page_end -= PAGES_PER_WORD;
continue;
} }
const u64 local_page_begin = std::countr_zero(word); const u64 local_page_begin = std::countr_zero(word);
const u64 local_page_end = PAGES_PER_WORD - std::countl_zero(word); const u64 local_page_end = PAGES_PER_WORD - std::countl_zero(word);
const u64 page_index = word_index * PAGES_PER_WORD; const u64 page_index = index * PAGES_PER_WORD;
begin = std::min(begin, page_index + local_page_begin); begin = std::min(begin, page_index + local_page_begin);
end = page_index + local_page_end; end = page_index + local_page_end;
page_begin = 0; });
page_end -= PAGES_PER_WORD;
}
static constexpr std::pair<u64, u64> EMPTY{0, 0}; static constexpr std::pair<u64, u64> EMPTY{0, 0};
return begin < end ? std::make_pair(begin * BYTES_PER_PAGE, end * BYTES_PER_PAGE) : EMPTY; return begin < end ? std::make_pair(begin * BYTES_PER_PAGE, end * BYTES_PER_PAGE) : EMPTY;
} }
@ -454,18 +448,10 @@ private:
void NotifyRasterizer(u64 word_index, u64 current_bits, u64 new_bits) const { void NotifyRasterizer(u64 word_index, u64 current_bits, u64 new_bits) const {
u64 changed_bits = (add_to_rasterizer ? current_bits : ~current_bits) & new_bits; u64 changed_bits = (add_to_rasterizer ? current_bits : ~current_bits) & new_bits;
VAddr addr = cpu_addr + word_index * BYTES_PER_WORD; VAddr addr = cpu_addr + word_index * BYTES_PER_WORD;
while (changed_bits != 0) { IteratePages(changed_bits, [&](size_t offset, size_t size) {
const int empty_bits = std::countr_zero(changed_bits); rasterizer->UpdatePagesCachedCount(addr + offset * BYTES_PER_PAGE,
addr += empty_bits * BYTES_PER_PAGE; size * BYTES_PER_PAGE, add_to_rasterizer ? 1 : -1);
changed_bits >>= empty_bits; });
const u32 continuous_bits = std::countr_one(changed_bits);
const u64 size = continuous_bits * BYTES_PER_PAGE;
const VAddr begin_addr = addr;
addr += size;
changed_bits = continuous_bits < PAGES_PER_WORD ? (changed_bits >> continuous_bits) : 0;
rasterizer->UpdatePagesCachedCount(begin_addr, size, add_to_rasterizer ? 1 : -1);
}
} }
VAddr cpu_addr = 0; VAddr cpu_addr = 0;