memory: Port Atmosphere's DmntCheatVm

This was done because the current VM contained many inaccuracies and this also allows cheats to have identical behavior between hardware and yuzu.
2019-05-30 19:34:02 +07:00 · 2019-05-30 19:34:02 +07:00 · 12aa127df3
parent 470466b31b
commit 12aa127df3
3 changed files with 1598 additions and 0 deletions
--- a/src/core/memory/dmnt_cheat_types.h
+++ b/src/core/memory/dmnt_cheat_types.h
@ -0,0 +1,58 @@
 /*
 * Copyright (c) 2018-2019 Atmosphère-NX
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 /*
 * Adapted by DarkLordZach for use/interaction with yuzu
 *
 * Modifications Copyright 2019 yuzu emulator team
 * Licensed under GPLv2 or any later version
 * Refer to the license.txt file included.
 */
 #pragma once
 #include "common/common_types.h"
 namespace Memory {
 struct MemoryRegionExtents {
    u64 base;
    u64 size;
 };
 struct CheatProcessMetadata {
    u64 process_id;
    u64 title_id;
    MemoryRegionExtents main_nso_extents;
    MemoryRegionExtents heap_extents;
    MemoryRegionExtents alias_extents;
    MemoryRegionExtents address_space_extents;
    std::array<u8, 0x20> main_nso_build_id;
 };
 struct CheatDefinition {
    std::array<char, 0x40> readable_name;
    u32 num_opcodes;
    std::array<u32, 0x100> opcodes;
 };
 struct CheatEntry {
    bool enabled;
    u32 cheat_id;
    CheatDefinition definition;
 };
 } // namespace Memory
--- a/src/core/memory/dmnt_cheat_vm.cpp
+++ b/src/core/memory/dmnt_cheat_vm.cpp
--- a/src/core/memory/dmnt_cheat_vm.h
+++ b/src/core/memory/dmnt_cheat_vm.h
@ -0,0 +1,334 @@
 /*
 * Copyright (c) 2018-2019 Atmosphère-NX
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 /*
 * Adapted by DarkLordZach for use/interaction with yuzu
 *
 * Modifications Copyright 2019 yuzu emulator team
 * Licensed under GPLv2 or any later version
 * Refer to the license.txt file included.
 */
 #pragma once
 #include <vector>
 #include <fmt/printf.h>
 #include "common/common_types.h"
 #include "core/memory/dmnt_cheat_types.h"
 namespace Memory {
 enum CheatVmOpcodeType : u32 {
    CheatVmOpcodeType_StoreStatic = 0,
    CheatVmOpcodeType_BeginConditionalBlock = 1,
    CheatVmOpcodeType_EndConditionalBlock = 2,
    CheatVmOpcodeType_ControlLoop = 3,
    CheatVmOpcodeType_LoadRegisterStatic = 4,
    CheatVmOpcodeType_LoadRegisterMemory = 5,
    CheatVmOpcodeType_StoreStaticToAddress = 6,
    CheatVmOpcodeType_PerformArithmeticStatic = 7,
    CheatVmOpcodeType_BeginKeypressConditionalBlock = 8,
    /* These are not implemented by Gateway's VM. */
    CheatVmOpcodeType_PerformArithmeticRegister = 9,
    CheatVmOpcodeType_StoreRegisterToAddress = 10,
    CheatVmOpcodeType_Reserved11 = 11,
    /* This is a meta entry, and not a real opcode. */
    /* This is to facilitate multi-nybble instruction decoding. */
    CheatVmOpcodeType_ExtendedWidth = 12,
    /* Extended width opcodes. */
    CheatVmOpcodeType_BeginRegisterConditionalBlock = 0xC0,
    CheatVmOpcodeType_SaveRestoreRegister = 0xC1,
    CheatVmOpcodeType_SaveRestoreRegisterMask = 0xC2,
    /* This is a meta entry, and not a real opcode. */
    /* This is to facilitate multi-nybble instruction decoding. */
    CheatVmOpcodeType_DoubleExtendedWidth = 0xF0,
    /* Double-extended width opcodes. */
    CheatVmOpcodeType_DebugLog = 0xFFF,
 };
 enum MemoryAccessType : u32 {
    MemoryAccessType_MainNso = 0,
    MemoryAccessType_Heap = 1,
 };
 enum ConditionalComparisonType : u32 {
    ConditionalComparisonType_GT = 1,
    ConditionalComparisonType_GE = 2,
    ConditionalComparisonType_LT = 3,
    ConditionalComparisonType_LE = 4,
    ConditionalComparisonType_EQ = 5,
    ConditionalComparisonType_NE = 6,
 };
 enum RegisterArithmeticType : u32 {
    RegisterArithmeticType_Addition = 0,
    RegisterArithmeticType_Subtraction = 1,
    RegisterArithmeticType_Multiplication = 2,
    RegisterArithmeticType_LeftShift = 3,
    RegisterArithmeticType_RightShift = 4,
    /* These are not supported by Gateway's VM. */
    RegisterArithmeticType_LogicalAnd = 5,
    RegisterArithmeticType_LogicalOr = 6,
    RegisterArithmeticType_LogicalNot = 7,
    RegisterArithmeticType_LogicalXor = 8,
    RegisterArithmeticType_None = 9,
 };
 enum StoreRegisterOffsetType : u32 {
    StoreRegisterOffsetType_None = 0,
    StoreRegisterOffsetType_Reg = 1,
    StoreRegisterOffsetType_Imm = 2,
    StoreRegisterOffsetType_MemReg = 3,
    StoreRegisterOffsetType_MemImm = 4,
    StoreRegisterOffsetType_MemImmReg = 5,
 };
 enum CompareRegisterValueType : u32 {
    CompareRegisterValueType_MemoryRelAddr = 0,
    CompareRegisterValueType_MemoryOfsReg = 1,
    CompareRegisterValueType_RegisterRelAddr = 2,
    CompareRegisterValueType_RegisterOfsReg = 3,
    CompareRegisterValueType_StaticValue = 4,
    CompareRegisterValueType_OtherRegister = 5,
 };
 enum SaveRestoreRegisterOpType : u32 {
    SaveRestoreRegisterOpType_Restore = 0,
    SaveRestoreRegisterOpType_Save = 1,
    SaveRestoreRegisterOpType_ClearSaved = 2,
    SaveRestoreRegisterOpType_ClearRegs = 3,
 };
 enum DebugLogValueType : u32 {
    DebugLogValueType_MemoryRelAddr = 0,
    DebugLogValueType_MemoryOfsReg = 1,
    DebugLogValueType_RegisterRelAddr = 2,
    DebugLogValueType_RegisterOfsReg = 3,
    DebugLogValueType_RegisterValue = 4,
 };
 union VmInt {
    u8 bit8;
    u16 bit16;
    u32 bit32;
    u64 bit64;
 };
 struct StoreStaticOpcode {
    u32 bit_width;
    MemoryAccessType mem_type;
    u32 offset_register;
    u64 rel_address;
    VmInt value;
 };
 struct BeginConditionalOpcode {
    u32 bit_width;
    MemoryAccessType mem_type;
    ConditionalComparisonType cond_type;
    u64 rel_address;
    VmInt value;
 };
 struct EndConditionalOpcode {};
 struct ControlLoopOpcode {
    bool start_loop;
    u32 reg_index;
    u32 num_iters;
 };
 struct LoadRegisterStaticOpcode {
    u32 reg_index;
    u64 value;
 };
 struct LoadRegisterMemoryOpcode {
    u32 bit_width;
    MemoryAccessType mem_type;
    u32 reg_index;
    bool load_from_reg;
    u64 rel_address;
 };
 struct StoreStaticToAddressOpcode {
    u32 bit_width;
    u32 reg_index;
    bool increment_reg;
    bool add_offset_reg;
    u32 offset_reg_index;
    u64 value;
 };
 struct PerformArithmeticStaticOpcode {
    u32 bit_width;
    u32 reg_index;
    RegisterArithmeticType math_type;
    u32 value;
 };
 struct BeginKeypressConditionalOpcode {
    u32 key_mask;
 };
 struct PerformArithmeticRegisterOpcode {
    u32 bit_width;
    RegisterArithmeticType math_type;
    u32 dst_reg_index;
    u32 src_reg_1_index;
    u32 src_reg_2_index;
    bool has_immediate;
    VmInt value;
 };
 struct StoreRegisterToAddressOpcode {
    u32 bit_width;
    u32 str_reg_index;
    u32 addr_reg_index;
    bool increment_reg;
    StoreRegisterOffsetType ofs_type;
    MemoryAccessType mem_type;
    u32 ofs_reg_index;
    u64 rel_address;
 };
 struct BeginRegisterConditionalOpcode {
    u32 bit_width;
    ConditionalComparisonType cond_type;
    u32 val_reg_index;
    CompareRegisterValueType comp_type;
    MemoryAccessType mem_type;
    u32 addr_reg_index;
    u32 other_reg_index;
    u32 ofs_reg_index;
    u64 rel_address;
    VmInt value;
 };
 struct SaveRestoreRegisterOpcode {
    u32 dst_index;
    u32 src_index;
    SaveRestoreRegisterOpType op_type;
 };
 struct SaveRestoreRegisterMaskOpcode {
    SaveRestoreRegisterOpType op_type;
    std::array<bool, 0x10> should_operate;
 };
 struct DebugLogOpcode {
    u32 bit_width;
    u32 log_id;
    DebugLogValueType val_type;
    MemoryAccessType mem_type;
    u32 addr_reg_index;
    u32 val_reg_index;
    u32 ofs_reg_index;
    u64 rel_address;
 };
 struct CheatVmOpcode {
    CheatVmOpcodeType opcode;
    bool begin_conditional_block;
    union {
        StoreStaticOpcode store_static;
        BeginConditionalOpcode begin_cond;
        EndConditionalOpcode end_cond;
        ControlLoopOpcode ctrl_loop;
        LoadRegisterStaticOpcode ldr_static;
        LoadRegisterMemoryOpcode ldr_memory;
        StoreStaticToAddressOpcode str_static;
        PerformArithmeticStaticOpcode perform_math_static;
        BeginKeypressConditionalOpcode begin_keypress_cond;
        PerformArithmeticRegisterOpcode perform_math_reg;
        StoreRegisterToAddressOpcode str_register;
        BeginRegisterConditionalOpcode begin_reg_cond;
        SaveRestoreRegisterOpcode save_restore_reg;
        SaveRestoreRegisterMaskOpcode save_restore_regmask;
        DebugLogOpcode debug_log;
    };
 };
 class DmntCheatVm {
 public:
    /// Helper Type for DmntCheatVm <=> yuzu Interface
    class Callbacks {
    public:
        virtual ~Callbacks();
        virtual void MemoryRead(VAddr address, void* data, u64 size) = 0;
        virtual void MemoryWrite(VAddr address, const void* data, u64 size) = 0;
        virtual u64 HidKeysDown() = 0;
        virtual void DebugLog(u8 id, u64 value) = 0;
        virtual void CommandLog(std::string_view data) = 0;
    };
    constexpr static size_t MaximumProgramOpcodeCount = 0x400;
    constexpr static size_t NumRegisters = 0x10;
 private:
    std::unique_ptr<Callbacks> callbacks;
    size_t num_opcodes = 0;
    size_t instruction_ptr = 0;
    size_t condition_depth = 0;
    bool decode_success = false;
    std::array<u32, MaximumProgramOpcodeCount> program{};
    std::array<u64, NumRegisters> registers{};
    std::array<u64, NumRegisters> saved_values{};
    std::array<size_t, NumRegisters> loop_tops{};
 private:
    bool DecodeNextOpcode(CheatVmOpcode& out);
    void SkipConditionalBlock();
    void ResetState();
    /* For implementing the DebugLog opcode. */
    void DebugLog(u32 log_id, u64 value);
    /* For debugging. These will be IFDEF'd out normally. */
    template <typename... Args>
    void LogToDebugFile(const char* format, const Args&... args) {
        callbacks->CommandLog(fmt::sprintf(format, args...));
    }
    void LogOpcode(const CheatVmOpcode& opcode);
    static u64 GetVmInt(VmInt value, u32 bit_width);
    static u64 GetCheatProcessAddress(const CheatProcessMetadata& metadata,
                                      MemoryAccessType mem_type, u64 rel_address);
 public:
    DmntCheatVm(std::unique_ptr<Callbacks> callbacks) : callbacks(std::move(callbacks)) {}
    size_t GetProgramSize() {
        return this->num_opcodes;
    }
    bool LoadProgram(const std::vector<CheatEntry>& cheats);
    void Execute(const CheatProcessMetadata& metadata);
 };
 }; // namespace Memory