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https://github.com/yuzu-emu/yuzu-android
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Merge pull request #2393 from lioncash/svc
kernel/svc: Implement svcMapProcessCodeMemory/svcUnmapProcessCodeMemory
This commit is contained in:
commit
fc64156533
@ -1189,6 +1189,142 @@ static ResultCode QueryMemory(Core::System& system, VAddr memory_info_address,
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query_address);
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query_address);
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}
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}
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static ResultCode MapProcessCodeMemory(Core::System& system, Handle process_handle, u64 dst_address,
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u64 src_address, u64 size) {
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LOG_DEBUG(Kernel_SVC,
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"called. process_handle=0x{:08X}, dst_address=0x{:016X}, "
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"src_address=0x{:016X}, size=0x{:016X}",
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process_handle, dst_address, src_address, size);
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if (!Common::Is4KBAligned(src_address)) {
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LOG_ERROR(Kernel_SVC, "src_address is not page-aligned (src_address=0x{:016X}).",
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src_address);
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return ERR_INVALID_ADDRESS;
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}
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if (!Common::Is4KBAligned(dst_address)) {
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LOG_ERROR(Kernel_SVC, "dst_address is not page-aligned (dst_address=0x{:016X}).",
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dst_address);
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return ERR_INVALID_ADDRESS;
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}
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if (size == 0 || !Common::Is4KBAligned(size)) {
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LOG_ERROR(Kernel_SVC, "Size is zero or not page-aligned (size=0x{:016X})", size);
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return ERR_INVALID_SIZE;
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}
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if (!IsValidAddressRange(dst_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Destination address range overflows the address space (dst_address=0x{:016X}, "
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"size=0x{:016X}).",
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dst_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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if (!IsValidAddressRange(src_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Source address range overflows the address space (src_address=0x{:016X}, "
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"size=0x{:016X}).",
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src_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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const auto& handle_table = system.Kernel().CurrentProcess()->GetHandleTable();
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auto process = handle_table.Get<Process>(process_handle);
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if (!process) {
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LOG_ERROR(Kernel_SVC, "Invalid process handle specified (handle=0x{:08X}).",
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process_handle);
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return ERR_INVALID_HANDLE;
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}
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auto& vm_manager = process->VMManager();
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if (!vm_manager.IsWithinAddressSpace(src_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Source address range is not within the address space (src_address=0x{:016X}, "
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"size=0x{:016X}).",
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src_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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if (!vm_manager.IsWithinASLRRegion(dst_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Destination address range is not within the ASLR region (dst_address=0x{:016X}, "
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"size=0x{:016X}).",
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dst_address, size);
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return ERR_INVALID_MEMORY_RANGE;
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}
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return vm_manager.MapCodeMemory(dst_address, src_address, size);
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}
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ResultCode UnmapProcessCodeMemory(Core::System& system, Handle process_handle, u64 dst_address,
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u64 src_address, u64 size) {
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LOG_DEBUG(Kernel_SVC,
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"called. process_handle=0x{:08X}, dst_address=0x{:016X}, src_address=0x{:016X}, "
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"size=0x{:016X}",
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process_handle, dst_address, src_address, size);
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if (!Common::Is4KBAligned(dst_address)) {
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LOG_ERROR(Kernel_SVC, "dst_address is not page-aligned (dst_address=0x{:016X}).",
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dst_address);
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return ERR_INVALID_ADDRESS;
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}
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if (!Common::Is4KBAligned(src_address)) {
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LOG_ERROR(Kernel_SVC, "src_address is not page-aligned (src_address=0x{:016X}).",
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src_address);
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return ERR_INVALID_ADDRESS;
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}
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if (size == 0 || Common::Is4KBAligned(size)) {
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LOG_ERROR(Kernel_SVC, "Size is zero or not page-aligned (size=0x{:016X}).", size);
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return ERR_INVALID_SIZE;
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}
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if (!IsValidAddressRange(dst_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Destination address range overflows the address space (dst_address=0x{:016X}, "
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"size=0x{:016X}).",
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dst_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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if (!IsValidAddressRange(src_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Source address range overflows the address space (src_address=0x{:016X}, "
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"size=0x{:016X}).",
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src_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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const auto& handle_table = system.Kernel().CurrentProcess()->GetHandleTable();
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auto process = handle_table.Get<Process>(process_handle);
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if (!process) {
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LOG_ERROR(Kernel_SVC, "Invalid process handle specified (handle=0x{:08X}).",
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process_handle);
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return ERR_INVALID_HANDLE;
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}
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auto& vm_manager = process->VMManager();
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if (!vm_manager.IsWithinAddressSpace(src_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Source address range is not within the address space (src_address=0x{:016X}, "
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"size=0x{:016X}).",
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src_address, size);
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return ERR_INVALID_ADDRESS_STATE;
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}
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if (!vm_manager.IsWithinASLRRegion(dst_address, size)) {
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LOG_ERROR(Kernel_SVC,
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"Destination address range is not within the ASLR region (dst_address=0x{:016X}, "
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"size=0x{:016X}).",
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dst_address, size);
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return ERR_INVALID_MEMORY_RANGE;
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}
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return vm_manager.UnmapCodeMemory(dst_address, src_address, size);
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}
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/// Exits the current process
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/// Exits the current process
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static void ExitProcess(Core::System& system) {
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static void ExitProcess(Core::System& system) {
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auto* current_process = system.Kernel().CurrentProcess();
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auto* current_process = system.Kernel().CurrentProcess();
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@ -2217,8 +2353,8 @@ static const FunctionDef SVC_Table[] = {
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{0x74, nullptr, "MapProcessMemory"},
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{0x74, nullptr, "MapProcessMemory"},
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{0x75, nullptr, "UnmapProcessMemory"},
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{0x75, nullptr, "UnmapProcessMemory"},
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{0x76, SvcWrap<QueryProcessMemory>, "QueryProcessMemory"},
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{0x76, SvcWrap<QueryProcessMemory>, "QueryProcessMemory"},
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{0x77, nullptr, "MapProcessCodeMemory"},
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{0x77, SvcWrap<MapProcessCodeMemory>, "MapProcessCodeMemory"},
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{0x78, nullptr, "UnmapProcessCodeMemory"},
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{0x78, SvcWrap<UnmapProcessCodeMemory>, "UnmapProcessCodeMemory"},
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{0x79, nullptr, "CreateProcess"},
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{0x79, nullptr, "CreateProcess"},
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{0x7A, nullptr, "StartProcess"},
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{0x7A, nullptr, "StartProcess"},
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{0x7B, nullptr, "TerminateProcess"},
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{0x7B, nullptr, "TerminateProcess"},
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@ -44,6 +44,13 @@ void SvcWrap(Core::System& system) {
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func(system, static_cast<u32>(Param(system, 0)), static_cast<u32>(Param(system, 1))).raw);
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func(system, static_cast<u32>(Param(system, 0)), static_cast<u32>(Param(system, 1))).raw);
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}
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}
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template <ResultCode func(Core::System&, u32, u64, u64, u64)>
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void SvcWrap(Core::System& system) {
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FuncReturn(system, func(system, static_cast<u32>(Param(system, 0)), Param(system, 1),
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Param(system, 2), Param(system, 3))
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.raw);
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}
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template <ResultCode func(Core::System&, u32*)>
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template <ResultCode func(Core::System&, u32*)>
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void SvcWrap(Core::System& system) {
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void SvcWrap(Core::System& system) {
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u32 param = 0;
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u32 param = 0;
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@ -302,6 +302,86 @@ ResultVal<VAddr> VMManager::SetHeapSize(u64 size) {
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return MakeResult<VAddr>(heap_region_base);
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return MakeResult<VAddr>(heap_region_base);
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}
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}
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ResultCode VMManager::MapCodeMemory(VAddr dst_address, VAddr src_address, u64 size) {
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constexpr auto ignore_attribute = MemoryAttribute::LockedForIPC | MemoryAttribute::DeviceMapped;
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const auto src_check_result = CheckRangeState(
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src_address, size, MemoryState::All, MemoryState::Heap, VMAPermission::All,
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VMAPermission::ReadWrite, MemoryAttribute::Mask, MemoryAttribute::None, ignore_attribute);
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if (src_check_result.Failed()) {
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return src_check_result.Code();
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}
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const auto mirror_result =
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MirrorMemory(dst_address, src_address, size, MemoryState::ModuleCode);
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if (mirror_result.IsError()) {
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return mirror_result;
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}
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// Ensure we lock the source memory region.
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const auto src_vma_result = CarveVMARange(src_address, size);
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if (src_vma_result.Failed()) {
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return src_vma_result.Code();
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}
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auto src_vma_iter = *src_vma_result;
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src_vma_iter->second.attribute = MemoryAttribute::Locked;
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Reprotect(src_vma_iter, VMAPermission::Read);
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// The destination memory region is fine as is, however we need to make it read-only.
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return ReprotectRange(dst_address, size, VMAPermission::Read);
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}
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ResultCode VMManager::UnmapCodeMemory(VAddr dst_address, VAddr src_address, u64 size) {
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constexpr auto ignore_attribute = MemoryAttribute::LockedForIPC | MemoryAttribute::DeviceMapped;
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const auto src_check_result = CheckRangeState(
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src_address, size, MemoryState::All, MemoryState::Heap, VMAPermission::None,
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VMAPermission::None, MemoryAttribute::Mask, MemoryAttribute::Locked, ignore_attribute);
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if (src_check_result.Failed()) {
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return src_check_result.Code();
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}
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// Yes, the kernel only checks the first page of the region.
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const auto dst_check_result =
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CheckRangeState(dst_address, Memory::PAGE_SIZE, MemoryState::FlagModule,
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MemoryState::FlagModule, VMAPermission::None, VMAPermission::None,
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MemoryAttribute::Mask, MemoryAttribute::None, ignore_attribute);
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if (dst_check_result.Failed()) {
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return dst_check_result.Code();
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}
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const auto dst_memory_state = std::get<MemoryState>(*dst_check_result);
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const auto dst_contiguous_check_result = CheckRangeState(
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dst_address, size, MemoryState::All, dst_memory_state, VMAPermission::None,
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VMAPermission::None, MemoryAttribute::Mask, MemoryAttribute::None, ignore_attribute);
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if (dst_contiguous_check_result.Failed()) {
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return dst_contiguous_check_result.Code();
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}
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const auto unmap_result = UnmapRange(dst_address, size);
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if (unmap_result.IsError()) {
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return unmap_result;
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}
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// With the mirrored portion unmapped, restore the original region's traits.
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const auto src_vma_result = CarveVMARange(src_address, size);
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if (src_vma_result.Failed()) {
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return src_vma_result.Code();
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}
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auto src_vma_iter = *src_vma_result;
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src_vma_iter->second.state = MemoryState::Heap;
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src_vma_iter->second.attribute = MemoryAttribute::None;
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Reprotect(src_vma_iter, VMAPermission::ReadWrite);
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if (dst_memory_state == MemoryState::ModuleCode) {
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Core::System::GetInstance().InvalidateCpuInstructionCaches();
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}
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return unmap_result;
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}
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MemoryInfo VMManager::QueryMemory(VAddr address) const {
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MemoryInfo VMManager::QueryMemory(VAddr address) const {
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const auto vma = FindVMA(address);
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const auto vma = FindVMA(address);
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MemoryInfo memory_info{};
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MemoryInfo memory_info{};
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@ -43,6 +43,9 @@ enum class VMAPermission : u8 {
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ReadExecute = Read | Execute,
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ReadExecute = Read | Execute,
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WriteExecute = Write | Execute,
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WriteExecute = Write | Execute,
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ReadWriteExecute = Read | Write | Execute,
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ReadWriteExecute = Read | Write | Execute,
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// Used as a wildcard when checking permissions across memory ranges
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All = 0xFF,
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};
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};
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constexpr VMAPermission operator|(VMAPermission lhs, VMAPermission rhs) {
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constexpr VMAPermission operator|(VMAPermission lhs, VMAPermission rhs) {
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@ -152,6 +155,9 @@ enum class MemoryState : u32 {
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FlagUncached = 1U << 24,
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FlagUncached = 1U << 24,
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FlagCodeMemory = 1U << 25,
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FlagCodeMemory = 1U << 25,
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// Wildcard used in range checking to indicate all states.
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All = 0xFFFFFFFF,
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// Convenience flag sets to reduce repetition
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// Convenience flag sets to reduce repetition
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IPCFlags = FlagIPC0 | FlagIPC3 | FlagIPC1,
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IPCFlags = FlagIPC0 | FlagIPC3 | FlagIPC1,
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@ -415,6 +421,49 @@ public:
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///
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///
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ResultVal<VAddr> SetHeapSize(u64 size);
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ResultVal<VAddr> SetHeapSize(u64 size);
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/// Maps a region of memory as code memory.
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///
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/// @param dst_address The base address of the region to create the aliasing memory region.
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/// @param src_address The base address of the region to be aliased.
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/// @param size The total amount of memory to map in bytes.
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///
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/// @pre Both memory regions lie within the actual addressable address space.
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///
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/// @post After this function finishes execution, assuming success, then the address range
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/// [dst_address, dst_address+size) will alias the memory region,
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/// [src_address, src_address+size).
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/// <p>
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/// What this also entails is as follows:
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/// 1. The aliased region gains the Locked memory attribute.
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/// 2. The aliased region becomes read-only.
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/// 3. The aliasing region becomes read-only.
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/// 4. The aliasing region is created with a memory state of MemoryState::CodeModule.
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///
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ResultCode MapCodeMemory(VAddr dst_address, VAddr src_address, u64 size);
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/// Unmaps a region of memory designated as code module memory.
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///
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/// @param dst_address The base address of the memory region aliasing the source memory region.
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/// @param src_address The base address of the memory region being aliased.
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/// @param size The size of the memory region to unmap in bytes.
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///
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/// @pre Both memory ranges lie within the actual addressable address space.
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///
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/// @pre The memory region being unmapped has been previously been mapped
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/// by a call to MapCodeMemory.
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///
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/// @post After execution of the function, if successful. the aliasing memory region
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/// will be unmapped and the aliased region will have various traits about it
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/// restored to what they were prior to the original mapping call preceding
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/// this function call.
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/// <p>
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/// What this also entails is as follows:
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/// 1. The state of the memory region will now indicate a general heap region.
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/// 2. All memory attributes for the memory region are cleared.
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/// 3. Memory permissions for the region are restored to user read/write.
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///
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ResultCode UnmapCodeMemory(VAddr dst_address, VAddr src_address, u64 size);
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/// Queries the memory manager for information about the given address.
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/// Queries the memory manager for information about the given address.
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///
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///
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/// @param address The address to query the memory manager about for information.
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/// @param address The address to query the memory manager about for information.
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