/* Copyright 2016-2023 melonDS team This file is part of melonDS. melonDS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. melonDS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with melonDS. If not, see http://www.gnu.org/licenses/. */ #ifndef ARMJIT_MEMORY #define ARMJIT_MEMORY #include "types.h" #include "MemConstants.h" #ifdef JIT_ENABLED # include "TinyVector.h" # include "ARM.h" # if defined(__SWITCH__) # include # elif defined(_WIN32) #include # else # include # include # include # include # include # endif #else # include #endif namespace melonDS { #ifdef JIT_ENABLED namespace Platform { struct DynamicLibrary; } class Compiler; class ARMJIT; #endif constexpr u32 RoundUp(u32 size) noexcept { #ifdef _WIN32 return (size + 0xFFFF) & ~0xFFFF; #else return size; #endif } const u32 MemBlockMainRAMOffset = 0; const u32 MemBlockSWRAMOffset = RoundUp(MainRAMMaxSize); const u32 MemBlockARM7WRAMOffset = MemBlockSWRAMOffset + RoundUp(SharedWRAMSize); const u32 MemBlockDTCMOffset = MemBlockARM7WRAMOffset + RoundUp(ARM7WRAMSize); const u32 MemBlockNWRAM_AOffset = MemBlockDTCMOffset + RoundUp(DTCMPhysicalSize); const u32 MemBlockNWRAM_BOffset = MemBlockNWRAM_AOffset + RoundUp(NWRAMSize); const u32 MemBlockNWRAM_COffset = MemBlockNWRAM_BOffset + RoundUp(NWRAMSize); const u32 MemoryTotalSize = MemBlockNWRAM_COffset + RoundUp(NWRAMSize); class ARMJIT_Memory { public: enum { memregion_Other = 0, memregion_ITCM, memregion_DTCM, memregion_BIOS9, memregion_MainRAM, memregion_SharedWRAM, memregion_IO9, memregion_VRAM, memregion_BIOS7, memregion_WRAM7, memregion_IO7, memregion_Wifi, memregion_VWRAM, // DSi memregion_BIOS9DSi, memregion_BIOS7DSi, memregion_NewSharedWRAM_A, memregion_NewSharedWRAM_B, memregion_NewSharedWRAM_C, memregions_Count }; #ifdef JIT_ENABLED public: explicit ARMJIT_Memory(melonDS::NDS& nds); ~ARMJIT_Memory() noexcept; ARMJIT_Memory(const ARMJIT_Memory&) = delete; ARMJIT_Memory(ARMJIT_Memory&&) = delete; ARMJIT_Memory& operator=(const ARMJIT_Memory&) = delete; ARMJIT_Memory& operator=(ARMJIT_Memory&&) = delete; void Reset() noexcept; void RemapDTCM(u32 newBase, u32 newSize) noexcept; void RemapSWRAM() noexcept; void RemapNWRAM(int num) noexcept; void SetCodeProtection(int region, u32 offset, bool protect) noexcept; [[nodiscard]] u8* GetMainRAM() noexcept { return MemoryBase + MemBlockMainRAMOffset; } [[nodiscard]] const u8* GetMainRAM() const noexcept { return MemoryBase + MemBlockMainRAMOffset; } [[nodiscard]] u8* GetSharedWRAM() noexcept { return MemoryBase + MemBlockSWRAMOffset; } [[nodiscard]] const u8* GetSharedWRAM() const noexcept { return MemoryBase + MemBlockSWRAMOffset; } [[nodiscard]] u8* GetARM7WRAM() noexcept { return MemoryBase + MemBlockARM7WRAMOffset; } [[nodiscard]] const u8* GetARM7WRAM() const noexcept { return MemoryBase + MemBlockARM7WRAMOffset; } [[nodiscard]] u8* GetARM9DTCM() noexcept { return MemoryBase + MemBlockDTCMOffset; } [[nodiscard]] const u8* GetARM9DTCM() const noexcept { return MemoryBase + MemBlockDTCMOffset; } [[nodiscard]] u8* GetNWRAM_A() noexcept { return MemoryBase + MemBlockNWRAM_AOffset; } [[nodiscard]] const u8* GetNWRAM_A() const noexcept { return MemoryBase + MemBlockNWRAM_AOffset; } [[nodiscard]] u8* GetNWRAM_B() noexcept { return MemoryBase + MemBlockNWRAM_BOffset; } [[nodiscard]] const u8* GetNWRAM_B() const noexcept { return MemoryBase + MemBlockNWRAM_BOffset; } [[nodiscard]] u8* GetNWRAM_C() noexcept { return MemoryBase + MemBlockNWRAM_COffset; } [[nodiscard]] const u8* GetNWRAM_C() const noexcept { return MemoryBase + MemBlockNWRAM_COffset; } int ClassifyAddress9(u32 addr) const noexcept; int ClassifyAddress7(u32 addr) const noexcept; bool GetMirrorLocation(int region, u32 num, u32 addr, u32& memoryOffset, u32& mirrorStart, u32& mirrorSize) const noexcept; u32 LocaliseAddress(int region, u32 num, u32 addr) const noexcept; bool IsFastmemCompatible(int region) const noexcept; void* GetFuncForAddr(ARM* cpu, u32 addr, bool store, int size) const noexcept; bool MapAtAddress(u32 addr) noexcept; private: friend class Compiler; struct Mapping { u32 Addr; u32 Size, LocalOffset; u32 Num; void Unmap(int region, NDS& nds) noexcept; }; struct FaultDescription { u32 EmulatedFaultAddr; u8* FaultPC; }; static bool FaultHandler(FaultDescription& faultDesc, melonDS::NDS& nds); bool MapIntoRange(u32 addr, u32 num, u32 offset, u32 size) noexcept; bool UnmapFromRange(u32 addr, u32 num, u32 offset, u32 size) noexcept; void SetCodeProtectionRange(u32 addr, u32 size, u32 num, int protection) noexcept; melonDS::NDS& NDS; void* FastMem9Start; void* FastMem7Start; u8* MemoryBase = nullptr; #if defined(__SWITCH__) VirtmemReservation* FastMem9Reservation, *FastMem7Reservation; u8* MemoryBaseCodeMem; #elif defined(_WIN32) static LONG ExceptionHandler(EXCEPTION_POINTERS* exceptionInfo); HANDLE MemoryFile = INVALID_HANDLE_VALUE; LPVOID ExceptionHandlerHandle = nullptr; #else static void SigsegvHandler(int sig, siginfo_t* info, void* rawContext); int MemoryFile = -1; #endif #ifdef ANDROID Platform::DynamicLibrary* Libandroid = nullptr; #endif u8 MappingStatus9[1 << (32-12)] {}; u8 MappingStatus7[1 << (32-12)] {}; TinyVector Mappings[memregions_Count] {}; #else public: explicit ARMJIT_Memory(melonDS::NDS&) {}; ~ARMJIT_Memory() = default; ARMJIT_Memory(const ARMJIT_Memory&) = delete; ARMJIT_Memory(ARMJIT_Memory&&) = delete; ARMJIT_Memory& operator=(const ARMJIT_Memory&) = delete; ARMJIT_Memory& operator=(ARMJIT_Memory&&) = delete; void Reset() noexcept {} void RemapDTCM(u32 newBase, u32 newSize) noexcept {} void RemapSWRAM() noexcept {} void RemapNWRAM(int num) noexcept {} void SetCodeProtection(int region, u32 offset, bool protect) noexcept {} [[nodiscard]] u8* GetMainRAM() noexcept { return MainRAM.data(); } [[nodiscard]] const u8* GetMainRAM() const noexcept { return MainRAM.data(); } [[nodiscard]] u8* GetSharedWRAM() noexcept { return SharedWRAM.data(); } [[nodiscard]] const u8* GetSharedWRAM() const noexcept { return SharedWRAM.data(); } [[nodiscard]] u8* GetARM7WRAM() noexcept { return ARM7WRAM.data(); } [[nodiscard]] const u8* GetARM7WRAM() const noexcept { return ARM7WRAM.data(); } [[nodiscard]] u8* GetARM9DTCM() noexcept { return DTCM.data(); } [[nodiscard]] const u8* GetARM9DTCM() const noexcept { return DTCM.data(); } [[nodiscard]] u8* GetNWRAM_A() noexcept { return NWRAM_A.data(); } [[nodiscard]] const u8* GetNWRAM_A() const noexcept { return NWRAM_A.data(); } [[nodiscard]] u8* GetNWRAM_B() noexcept { return NWRAM_B.data(); } [[nodiscard]] const u8* GetNWRAM_B() const noexcept { return NWRAM_B.data(); } [[nodiscard]] u8* GetNWRAM_C() noexcept { return NWRAM_C.data(); } [[nodiscard]] const u8* GetNWRAM_C() const noexcept { return NWRAM_C.data(); } private: std::array MainRAM {}; std::array ARM7WRAM {}; std::array SharedWRAM {}; std::array DTCM {}; std::array NWRAM_A {}; std::array NWRAM_B {}; std::array NWRAM_C {}; #endif }; } #endif