General: Fix compilation for GCC

This commit is contained in:
Liam White 2022-04-13 21:02:55 +02:00 committed by Fernando Sahmkow
parent fd7afda1e8
commit afab6c143c
16 changed files with 56 additions and 42 deletions

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@ -22,7 +22,8 @@ struct EmptyStruct {};
*/ */
template <typename VaType, VaType UnmappedVa, typename PaType, PaType UnmappedPa, template <typename VaType, VaType UnmappedVa, typename PaType, PaType UnmappedPa,
bool PaContigSplit, size_t AddressSpaceBits, typename ExtraBlockInfo = EmptyStruct> bool PaContigSplit, size_t AddressSpaceBits, typename ExtraBlockInfo = EmptyStruct>
requires AddressSpaceValid<VaType, AddressSpaceBits> class FlatAddressSpaceMap { requires AddressSpaceValid<VaType, AddressSpaceBits>
class FlatAddressSpaceMap {
private: private:
std::function<void(VaType, VaType)> std::function<void(VaType, VaType)>
unmapCallback{}; //!< Callback called when the mappings in an region have changed unmapCallback{}; //!< Callback called when the mappings in an region have changed
@ -40,8 +41,8 @@ protected:
Block() = default; Block() = default;
Block(VaType virt, PaType phys, ExtraBlockInfo extraInfo) Block(VaType virt_, PaType phys_, ExtraBlockInfo extraInfo_)
: virt(virt), phys(phys), extraInfo(extraInfo) {} : virt(virt_), phys(phys_), extraInfo(extraInfo_) {}
constexpr bool Valid() { constexpr bool Valid() {
return virt != UnmappedVa; return virt != UnmappedVa;
@ -102,7 +103,8 @@ public:
* initial, fast linear pass and a subsequent slower pass that iterates until it finds a free block * initial, fast linear pass and a subsequent slower pass that iterates until it finds a free block
*/ */
template <typename VaType, VaType UnmappedVa, size_t AddressSpaceBits> template <typename VaType, VaType UnmappedVa, size_t AddressSpaceBits>
requires AddressSpaceValid<VaType, AddressSpaceBits> class FlatAllocator requires AddressSpaceValid<VaType, AddressSpaceBits>
class FlatAllocator
: public FlatAddressSpaceMap<VaType, UnmappedVa, bool, false, false, AddressSpaceBits> { : public FlatAddressSpaceMap<VaType, UnmappedVa, bool, false, false, AddressSpaceBits> {
private: private:
using Base = FlatAddressSpaceMap<VaType, UnmappedVa, bool, false, false, AddressSpaceBits>; using Base = FlatAddressSpaceMap<VaType, UnmappedVa, bool, false, false, AddressSpaceBits>;

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@ -27,7 +27,7 @@ template <class ForwardIt, class T, class Compare = std::less<>>
template <typename T, typename Func, typename... Args> template <typename T, typename Func, typename... Args>
T FoldRight(T initial_value, Func&& func, Args&&... args) { T FoldRight(T initial_value, Func&& func, Args&&... args) {
T value{initial_value}; T value{initial_value};
const auto high_func = [&value, &func]<typename T>(T x) { value = func(value, x); }; const auto high_func = [&value, &func]<typename U>(U x) { value = func(value, x); };
(std::invoke(high_func, std::forward<Args>(args)), ...); (std::invoke(high_func, std::forward<Args>(args)), ...);
return value; return value;
} }

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@ -127,14 +127,11 @@ public:
} }
} }
BitField(T val) { // This constructor and assignment operator might be considered ambiguous:
Assign(val); // Would they initialize the storage or just the bitfield?
} // Hence, delete them. Use the Assign method to set bitfield values!
BitField(T val) = delete;
BitField& operator=(T val) { BitField& operator=(T val) = delete;
Assign(val);
return *this;
}
constexpr BitField() noexcept = default; constexpr BitField() noexcept = default;

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@ -1,8 +1,6 @@
#include "common/multi_level_page_table.inc" #include "common/multi_level_page_table.inc"
namespace Common { namespace Common {
template class Common::MultiLevelPageTable<GPUVAddr>; template class Common::MultiLevelPageTable<u64>;
template class Common::MultiLevelPageTable<VAddr>;
template class Common::MultiLevelPageTable<PAddr>;
template class Common::MultiLevelPageTable<u32>; template class Common::MultiLevelPageTable<u32>;
} // namespace Common } // namespace Common

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@ -30,7 +30,7 @@ MultiLevelPageTable<BaseAddr>::MultiLevelPageTable(std::size_t address_space_bit
#ifdef _WIN32 #ifdef _WIN32
void* base{VirtualAlloc(nullptr, alloc_size, MEM_RESERVE, PAGE_READWRITE)}; void* base{VirtualAlloc(nullptr, alloc_size, MEM_RESERVE, PAGE_READWRITE)};
#else #else
void* base{mmap(nullptr, alloc_size, PROT_NONE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0)}; void* base{mmap(nullptr, alloc_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, -1, 0)};
if (base == MAP_FAILED) { if (base == MAP_FAILED) {
base = nullptr; base = nullptr;

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@ -13,7 +13,8 @@
using Core::Memory::YUZU_PAGESIZE; using Core::Memory::YUZU_PAGESIZE;
namespace Service::Nvidia::NvCore { namespace Service::Nvidia::NvCore {
NvMap::Handle::Handle(u64 size, Id id) : size(size), aligned_size(size), orig_size(size), id(id) { NvMap::Handle::Handle(u64 size_, Id id_)
: size(size_), aligned_size(size), orig_size(size), id(id_) {
flags.raw = 0; flags.raw = 0;
} }
@ -21,19 +22,21 @@ NvResult NvMap::Handle::Alloc(Flags pFlags, u32 pAlign, u8 pKind, u64 pAddress)
std::scoped_lock lock(mutex); std::scoped_lock lock(mutex);
// Handles cannot be allocated twice // Handles cannot be allocated twice
if (allocated) if (allocated) {
return NvResult::AccessDenied; return NvResult::AccessDenied;
}
flags = pFlags; flags = pFlags;
kind = pKind; kind = pKind;
align = pAlign < YUZU_PAGESIZE ? YUZU_PAGESIZE : pAlign; align = pAlign < YUZU_PAGESIZE ? YUZU_PAGESIZE : pAlign;
// This flag is only applicable for handles with an address passed // This flag is only applicable for handles with an address passed
if (pAddress) if (pAddress) {
flags.keep_uncached_after_free = 0; flags.keep_uncached_after_free.Assign(0);
else } else {
LOG_CRITICAL(Service_NVDRV, LOG_CRITICAL(Service_NVDRV,
"Mapping nvmap handles without a CPU side address is unimplemented!"); "Mapping nvmap handles without a CPU side address is unimplemented!");
}
size = Common::AlignUp(size, YUZU_PAGESIZE); size = Common::AlignUp(size, YUZU_PAGESIZE);
aligned_size = Common::AlignUp(size, align); aligned_size = Common::AlignUp(size, align);
@ -48,17 +51,19 @@ NvResult NvMap::Handle::Alloc(Flags pFlags, u32 pAlign, u8 pKind, u64 pAddress)
NvResult NvMap::Handle::Duplicate(bool internal_session) { NvResult NvMap::Handle::Duplicate(bool internal_session) {
// Unallocated handles cannot be duplicated as duplication requires memory accounting (in HOS) // Unallocated handles cannot be duplicated as duplication requires memory accounting (in HOS)
if (!allocated) [[unlikely]] if (!allocated) [[unlikely]] {
return NvResult::BadValue; return NvResult::BadValue;
}
std::scoped_lock lock(mutex); std::scoped_lock lock(mutex);
// If we internally use FromId the duplication tracking of handles won't work accurately due to // If we internally use FromId the duplication tracking of handles won't work accurately due to
// us not implementing per-process handle refs. // us not implementing per-process handle refs.
if (internal_session) if (internal_session) {
internal_dupes++; internal_dupes++;
else } else {
dupes++; dupes++;
}
return NvResult::Success; return NvResult::Success;
} }
@ -92,8 +97,9 @@ bool NvMap::TryRemoveHandle(const Handle& handle_description) {
std::scoped_lock lock(handles_lock); std::scoped_lock lock(handles_lock);
auto it{handles.find(handle_description.id)}; auto it{handles.find(handle_description.id)};
if (it != handles.end()) if (it != handles.end()) {
handles.erase(it); handles.erase(it);
}
return true; return true;
} else { } else {
@ -102,8 +108,9 @@ bool NvMap::TryRemoveHandle(const Handle& handle_description) {
} }
NvResult NvMap::CreateHandle(u64 size, std::shared_ptr<NvMap::Handle>& result_out) { NvResult NvMap::CreateHandle(u64 size, std::shared_ptr<NvMap::Handle>& result_out) {
if (!size) [[unlikely]] if (!size) [[unlikely]] {
return NvResult::BadValue; return NvResult::BadValue;
}
u32 id{next_handle_id.fetch_add(HandleIdIncrement, std::memory_order_relaxed)}; u32 id{next_handle_id.fetch_add(HandleIdIncrement, std::memory_order_relaxed)};
auto handle_description{std::make_shared<Handle>(size, id)}; auto handle_description{std::make_shared<Handle>(size, id)};
@ -133,8 +140,9 @@ VAddr NvMap::GetHandleAddress(Handle::Id handle) {
u32 NvMap::PinHandle(NvMap::Handle::Id handle) { u32 NvMap::PinHandle(NvMap::Handle::Id handle) {
auto handle_description{GetHandle(handle)}; auto handle_description{GetHandle(handle)};
if (!handle_description) [[unlikely]] if (!handle_description) [[unlikely]] {
return 0; return 0;
}
std::scoped_lock lock(handle_description->mutex); std::scoped_lock lock(handle_description->mutex);
if (!handle_description->pins) { if (!handle_description->pins) {
@ -183,8 +191,9 @@ u32 NvMap::PinHandle(NvMap::Handle::Id handle) {
void NvMap::UnpinHandle(Handle::Id handle) { void NvMap::UnpinHandle(Handle::Id handle) {
auto handle_description{GetHandle(handle)}; auto handle_description{GetHandle(handle)};
if (!handle_description) if (!handle_description) {
return; return;
}
std::scoped_lock lock(handle_description->mutex); std::scoped_lock lock(handle_description->mutex);
if (--handle_description->pins < 0) { if (--handle_description->pins < 0) {
@ -226,12 +235,13 @@ std::optional<NvMap::FreeInfo> NvMap::FreeHandle(Handle::Id handle, bool interna
// Try to remove the shared ptr to the handle from the map, if nothing else is using the // Try to remove the shared ptr to the handle from the map, if nothing else is using the
// handle then it will now be freed when `handle_description` goes out of scope // handle then it will now be freed when `handle_description` goes out of scope
if (TryRemoveHandle(*handle_description)) if (TryRemoveHandle(*handle_description)) {
LOG_DEBUG(Service_NVDRV, "Removed nvmap handle: {}", handle); LOG_DEBUG(Service_NVDRV, "Removed nvmap handle: {}", handle);
else } else {
LOG_DEBUG(Service_NVDRV, LOG_DEBUG(Service_NVDRV,
"Tried to free nvmap handle: {} but didn't as it still has duplicates", "Tried to free nvmap handle: {} but didn't as it still has duplicates",
handle); handle);
}
freeInfo = { freeInfo = {
.address = handle_description->address, .address = handle_description->address,

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@ -5,6 +5,7 @@
#pragma once #pragma once
#include <atomic>
#include <list> #include <list>
#include <memory> #include <memory>
#include <mutex> #include <mutex>

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@ -188,6 +188,7 @@ NvResult nvhost_as_gpu::AllocateSpace(const std::vector<u8>& input, std::vector<
allocation_map[params.offset] = { allocation_map[params.offset] = {
.size = size, .size = size,
.mappings{},
.page_size = params.page_size, .page_size = params.page_size,
.sparse = (params.flags & MappingFlags::Sparse) != MappingFlags::None, .sparse = (params.flags & MappingFlags::Sparse) != MappingFlags::None,
.big_pages = params.page_size != VM::YUZU_PAGESIZE, .big_pages = params.page_size != VM::YUZU_PAGESIZE,
@ -474,11 +475,13 @@ void nvhost_as_gpu::GetVARegionsImpl(IoctlGetVaRegions& params) {
VaRegion{ VaRegion{
.offset = vm.small_page_allocator->vaStart << VM::PAGE_SIZE_BITS, .offset = vm.small_page_allocator->vaStart << VM::PAGE_SIZE_BITS,
.page_size = VM::YUZU_PAGESIZE, .page_size = VM::YUZU_PAGESIZE,
._pad0_{},
.pages = vm.small_page_allocator->vaLimit - vm.small_page_allocator->vaStart, .pages = vm.small_page_allocator->vaLimit - vm.small_page_allocator->vaStart,
}, },
VaRegion{ VaRegion{
.offset = vm.big_page_allocator->vaStart << vm.big_page_size_bits, .offset = vm.big_page_allocator->vaStart << vm.big_page_size_bits,
.page_size = vm.big_page_size, .page_size = vm.big_page_size,
._pad0_{},
.pages = vm.big_page_allocator->vaLimit - vm.big_page_allocator->vaStart, .pages = vm.big_page_allocator->vaLimit - vm.big_page_allocator->vaStart,
}, },
}; };

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@ -204,12 +204,12 @@ NvResult nvhost_ctrl::IocCtrlEventWait(const std::vector<u8>& input, std::vector
event.wait_handle = event.wait_handle =
host1x_syncpoint_manager.RegisterHostAction(fence_id, target_value, [this, slot]() { host1x_syncpoint_manager.RegisterHostAction(fence_id, target_value, [this, slot]() {
auto& event = events[slot]; auto& event_ = events[slot];
if (event.status.exchange(EventState::Signalling, std::memory_order_acq_rel) == if (event_.status.exchange(EventState::Signalling, std::memory_order_acq_rel) ==
EventState::Waiting) { EventState::Waiting) {
event.kevent->GetWritableEvent().Signal(); event_.kevent->GetWritableEvent().Signal();
} }
event.status.store(EventState::Signalled, std::memory_order_release); event_.status.store(EventState::Signalled, std::memory_order_release);
}); });
return NvResult::Timeout; return NvResult::Timeout;
} }

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@ -12,8 +12,8 @@ namespace Service::Nvidia::Devices {
u32 nvhost_nvdec::next_id{}; u32 nvhost_nvdec::next_id{};
nvhost_nvdec::nvhost_nvdec(Core::System& system_, NvCore::Container& core) nvhost_nvdec::nvhost_nvdec(Core::System& system_, NvCore::Container& core_)
: nvhost_nvdec_common{system_, core, NvCore::ChannelType::NvDec} {} : nvhost_nvdec_common{system_, core_, NvCore::ChannelType::NvDec} {}
nvhost_nvdec::~nvhost_nvdec() = default; nvhost_nvdec::~nvhost_nvdec() = default;
NvResult nvhost_nvdec::Ioctl1(DeviceFD fd, Ioctl command, const std::vector<u8>& input, NvResult nvhost_nvdec::Ioctl1(DeviceFD fd, Ioctl command, const std::vector<u8>& input,

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@ -11,8 +11,8 @@ namespace Service::Nvidia::Devices {
u32 nvhost_vic::next_id{}; u32 nvhost_vic::next_id{};
nvhost_vic::nvhost_vic(Core::System& system_, NvCore::Container& core) nvhost_vic::nvhost_vic(Core::System& system_, NvCore::Container& core_)
: nvhost_nvdec_common{system_, core, NvCore::ChannelType::VIC} {} : nvhost_nvdec_common{system_, core_, NvCore::ChannelType::VIC} {}
nvhost_vic::~nvhost_vic() = default; nvhost_vic::~nvhost_vic() = default;

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@ -269,7 +269,7 @@ NvResult nvmap::IocFree(const std::vector<u8>& input, std::vector<u8>& output) {
params.address = freeInfo->address; params.address = freeInfo->address;
params.size = static_cast<u32>(freeInfo->size); params.size = static_cast<u32>(freeInfo->size);
params.flags.raw = 0; params.flags.raw = 0;
params.flags.map_uncached = freeInfo->was_uncached; params.flags.map_uncached.Assign(freeInfo->was_uncached);
} else { } else {
// This is possible when there's internel dups or other duplicates. // This is possible when there's internel dups or other duplicates.
} }

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@ -6,6 +6,7 @@
#pragma once #pragma once
#include <functional> #include <functional>
#include <list>
#include <memory> #include <memory>
#include <string> #include <string>
#include <unordered_map> #include <unordered_map>

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@ -58,6 +58,7 @@ static_assert(sizeof(DisplayInfo) == 0x60, "DisplayInfo has wrong size");
class NativeWindow final { class NativeWindow final {
public: public:
constexpr explicit NativeWindow(u32 id_) : id{id_} {} constexpr explicit NativeWindow(u32 id_) : id{id_} {}
constexpr explicit NativeWindow(const NativeWindow& other) = default;
private: private:
const u32 magic = 2; const u32 magic = 2;

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@ -269,7 +269,7 @@ std::optional<ConstBufferAddr> TryGetConstBuffer(const IR::Inst* inst, Environme
} }
std::optional lhs{Track(op1, env)}; std::optional lhs{Track(op1, env)};
if (lhs) { if (lhs) {
lhs->shift_left = std::countr_zero(op2.U32()); lhs->shift_left = static_cast<u32>(std::countr_zero(op2.U32()));
} }
return lhs; return lhs;
break; break;

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@ -1323,7 +1323,8 @@ void BufferCache<P>::UpdateVertexBuffer(u32 index) {
return; return;
} }
if (!gpu_memory->IsWithinGPUAddressRange(gpu_addr_end)) { if (!gpu_memory->IsWithinGPUAddressRange(gpu_addr_end)) {
address_size = gpu_memory->MaxContinousRange(gpu_addr_begin, address_size); address_size =
static_cast<u32>(gpu_memory->MaxContinousRange(gpu_addr_begin, address_size));
} }
const u32 size = address_size; // TODO: Analyze stride and number of vertices const u32 size = address_size; // TODO: Analyze stride and number of vertices
vertex_buffers[index] = Binding{ vertex_buffers[index] = Binding{