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kernel: transfer_memory: Properly reserve and reset memory region.
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7a547b9342
commit
ba53543da6
@ -1863,10 +1863,14 @@ static ResultCode CreateTransferMemory(Core::System& system, Handle* handle, VAd
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}
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auto& kernel = system.Kernel();
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auto transfer_mem_handle = TransferMemory::Create(kernel, addr, size, perms);
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auto transfer_mem_handle = TransferMemory::Create(kernel, system.Memory(), addr, size, perms);
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if (const auto reserve_result{transfer_mem_handle->Reserve()}; reserve_result.IsError()) {
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return reserve_result;
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}
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auto& handle_table = kernel.CurrentProcess()->GetHandleTable();
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const auto result = handle_table.Create(std::move(transfer_mem_handle));
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const auto result{handle_table.Create(std::move(transfer_mem_handle))};
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if (result.Failed()) {
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return result.Code();
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}
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@ -8,15 +8,23 @@
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#include "core/hle/kernel/shared_memory.h"
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#include "core/hle/kernel/transfer_memory.h"
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#include "core/hle/result.h"
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#include "core/memory.h"
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namespace Kernel {
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TransferMemory::TransferMemory(KernelCore& kernel) : Object{kernel} {}
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TransferMemory::~TransferMemory() = default;
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TransferMemory::TransferMemory(KernelCore& kernel, Memory::Memory& memory)
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: Object{kernel}, memory{memory} {}
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std::shared_ptr<TransferMemory> TransferMemory::Create(KernelCore& kernel, VAddr base_address,
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u64 size, MemoryPermission permissions) {
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std::shared_ptr<TransferMemory> transfer_memory{std::make_shared<TransferMemory>(kernel)};
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TransferMemory::~TransferMemory() {
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// Release memory region when transfer memory is destroyed
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Reset();
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}
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std::shared_ptr<TransferMemory> TransferMemory::Create(KernelCore& kernel, Memory::Memory& memory,
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VAddr base_address, u64 size,
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MemoryPermission permissions) {
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std::shared_ptr<TransferMemory> transfer_memory{
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std::make_shared<TransferMemory>(kernel, memory)};
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transfer_memory->base_address = base_address;
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transfer_memory->memory_size = size;
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@ -27,7 +35,7 @@ std::shared_ptr<TransferMemory> TransferMemory::Create(KernelCore& kernel, VAddr
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}
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const u8* TransferMemory::GetPointer() const {
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return backing_block.get()->data();
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return memory.GetPointer(base_address);
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}
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u64 TransferMemory::GetSize() const {
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@ -62,6 +70,52 @@ ResultCode TransferMemory::MapMemory(VAddr address, u64 size, MemoryPermission p
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return RESULT_SUCCESS;
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}
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ResultCode TransferMemory::Reserve() {
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auto& vm_manager{owner_process->VMManager()};
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const auto check_range_result{vm_manager.CheckRangeState(
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base_address, memory_size, MemoryState::FlagTransfer | MemoryState::FlagMemoryPoolAllocated,
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MemoryState::FlagTransfer | MemoryState::FlagMemoryPoolAllocated, VMAPermission::All,
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VMAPermission::ReadWrite, MemoryAttribute::Mask, MemoryAttribute::None,
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MemoryAttribute::IpcAndDeviceMapped)};
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if (check_range_result.Failed()) {
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return check_range_result.Code();
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}
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auto [state_, permissions_, attribute] = *check_range_result;
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if (const auto result{vm_manager.ReprotectRange(
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base_address, memory_size, SharedMemory::ConvertPermissions(owner_permissions))};
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result.IsError()) {
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return result;
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}
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return vm_manager.SetMemoryAttribute(base_address, memory_size, MemoryAttribute::Mask,
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attribute | MemoryAttribute::Locked);
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}
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ResultCode TransferMemory::Reset() {
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auto& vm_manager{owner_process->VMManager()};
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if (const auto result{vm_manager.CheckRangeState(
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base_address, memory_size,
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MemoryState::FlagTransfer | MemoryState::FlagMemoryPoolAllocated,
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MemoryState::FlagTransfer | MemoryState::FlagMemoryPoolAllocated, VMAPermission::None,
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VMAPermission::None, MemoryAttribute::Mask, MemoryAttribute::Locked,
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MemoryAttribute::IpcAndDeviceMapped)};
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result.Failed()) {
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return result.Code();
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}
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if (const auto result{
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vm_manager.ReprotectRange(base_address, memory_size, VMAPermission::ReadWrite)};
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result.IsError()) {
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return result;
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}
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return vm_manager.SetMemoryAttribute(base_address, memory_size, MemoryAttribute::Mask,
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MemoryAttribute::None);
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}
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ResultCode TransferMemory::UnmapMemory(VAddr address, u64 size) {
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if (memory_size != size) {
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return ERR_INVALID_SIZE;
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@ -11,6 +11,10 @@
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union ResultCode;
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namespace Memory {
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class Memory;
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}
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namespace Kernel {
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class KernelCore;
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@ -26,12 +30,13 @@ enum class MemoryPermission : u32;
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///
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class TransferMemory final : public Object {
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public:
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explicit TransferMemory(KernelCore& kernel);
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explicit TransferMemory(KernelCore& kernel, Memory::Memory& memory);
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~TransferMemory() override;
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static constexpr HandleType HANDLE_TYPE = HandleType::TransferMemory;
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static std::shared_ptr<TransferMemory> Create(KernelCore& kernel, VAddr base_address, u64 size,
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static std::shared_ptr<TransferMemory> Create(KernelCore& kernel, Memory::Memory& memory,
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VAddr base_address, u64 size,
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MemoryPermission permissions);
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TransferMemory(const TransferMemory&) = delete;
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@ -80,6 +85,14 @@ public:
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///
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ResultCode UnmapMemory(VAddr address, u64 size);
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/// Reserves the region to be used for the transfer memory, called after the transfer memory is
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/// created.
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ResultCode Reserve();
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/// Resets the region previously used for the transfer memory, called after the transfer memory
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/// is closed.
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ResultCode Reset();
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private:
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/// Memory block backing this instance.
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std::shared_ptr<PhysicalMemory> backing_block;
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@ -98,6 +111,8 @@ private:
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/// Whether or not this transfer memory instance has mapped memory.
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bool is_mapped = false;
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Memory::Memory& memory;
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};
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} // namespace Kernel
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@ -544,7 +544,8 @@ MemoryInfo VMManager::QueryMemory(VAddr address) const {
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ResultCode VMManager::SetMemoryAttribute(VAddr address, u64 size, MemoryAttribute mask,
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MemoryAttribute attribute) {
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constexpr auto ignore_mask = MemoryAttribute::Uncached | MemoryAttribute::DeviceMapped;
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constexpr auto ignore_mask =
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MemoryAttribute::Uncached | MemoryAttribute::DeviceMapped | MemoryAttribute::Locked;
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constexpr auto attribute_mask = ~ignore_mask;
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const auto result = CheckRangeState(
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@ -98,6 +98,8 @@ enum class MemoryAttribute : u32 {
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DeviceMapped = 4,
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/// Uncached memory
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Uncached = 8,
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IpcAndDeviceMapped = LockedForIPC | DeviceMapped,
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};
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constexpr MemoryAttribute operator|(MemoryAttribute lhs, MemoryAttribute rhs) {
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@ -654,6 +656,35 @@ public:
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/// is scheduled.
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Common::PageTable page_table{Memory::PAGE_BITS};
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using CheckResults = ResultVal<std::tuple<MemoryState, VMAPermission, MemoryAttribute>>;
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/// Checks if an address range adheres to the specified states provided.
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///
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/// @param address The starting address of the address range.
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/// @param size The size of the address range.
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/// @param state_mask The memory state mask.
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/// @param state The state to compare the individual VMA states against,
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/// which is done in the form of: (vma.state & state_mask) != state.
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/// @param permission_mask The memory permissions mask.
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/// @param permissions The permission to compare the individual VMA permissions against,
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/// which is done in the form of:
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/// (vma.permission & permission_mask) != permission.
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/// @param attribute_mask The memory attribute mask.
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/// @param attribute The memory attributes to compare the individual VMA attributes
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/// against, which is done in the form of:
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/// (vma.attributes & attribute_mask) != attribute.
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/// @param ignore_mask The memory attributes to ignore during the check.
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///
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/// @returns If successful, returns a tuple containing the memory attributes
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/// (with ignored bits specified by ignore_mask unset), memory permissions, and
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/// memory state across the memory range.
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/// @returns If not successful, returns ERR_INVALID_ADDRESS_STATE.
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///
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CheckResults CheckRangeState(VAddr address, u64 size, MemoryState state_mask, MemoryState state,
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VMAPermission permission_mask, VMAPermission permissions,
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MemoryAttribute attribute_mask, MemoryAttribute attribute,
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MemoryAttribute ignore_mask) const;
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private:
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using VMAIter = VMAMap::iterator;
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@ -707,35 +738,6 @@ private:
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/// Clears out the page table
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void ClearPageTable();
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using CheckResults = ResultVal<std::tuple<MemoryState, VMAPermission, MemoryAttribute>>;
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/// Checks if an address range adheres to the specified states provided.
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///
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/// @param address The starting address of the address range.
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/// @param size The size of the address range.
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/// @param state_mask The memory state mask.
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/// @param state The state to compare the individual VMA states against,
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/// which is done in the form of: (vma.state & state_mask) != state.
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/// @param permission_mask The memory permissions mask.
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/// @param permissions The permission to compare the individual VMA permissions against,
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/// which is done in the form of:
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/// (vma.permission & permission_mask) != permission.
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/// @param attribute_mask The memory attribute mask.
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/// @param attribute The memory attributes to compare the individual VMA attributes
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/// against, which is done in the form of:
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/// (vma.attributes & attribute_mask) != attribute.
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/// @param ignore_mask The memory attributes to ignore during the check.
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///
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/// @returns If successful, returns a tuple containing the memory attributes
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/// (with ignored bits specified by ignore_mask unset), memory permissions, and
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/// memory state across the memory range.
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/// @returns If not successful, returns ERR_INVALID_ADDRESS_STATE.
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///
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CheckResults CheckRangeState(VAddr address, u64 size, MemoryState state_mask, MemoryState state,
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VMAPermission permission_mask, VMAPermission permissions,
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MemoryAttribute attribute_mask, MemoryAttribute attribute,
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MemoryAttribute ignore_mask) const;
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/// Gets the amount of memory currently mapped (state != Unmapped) in a range.
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ResultVal<std::size_t> SizeOfAllocatedVMAsInRange(VAddr address, std::size_t size) const;
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