citra/src/core/cheats/gateway_cheat.cpp

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// Copyright 2018 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#include <algorithm>
#include <cmath>
#include <fstream>
#include <functional>
#include <string>
#include <vector>
#include "common/file_util.h"
#include "common/logging/log.h"
#include "common/string_util.h"
#include "core/cheats/gateway_cheat.h"
#include "core/core.h"
#include "core/hle/service/hid/hid.h"
#include "core/memory.h"
namespace Cheats {
struct State {
u32 reg = 0;
u32 offset = 0;
u32 if_flag = 0;
u32 loop_count = 0;
std::size_t loop_back_line = 0;
std::size_t current_line_nr = 0;
bool loop_flag = false;
};
template <typename T, typename WriteFunction>
static inline std::enable_if_t<std::is_integral_v<T>> WriteOp(const GatewayCheat::CheatLine& line,
const State& state,
WriteFunction write_func,
Core::System& system) {
u32 addr = line.address + state.offset;
write_func(addr, static_cast<T>(line.value));
system.CPU().InvalidateCacheRange(addr, sizeof(T));
}
template <typename T, typename ReadFunction, typename CompareFunc>
static inline std::enable_if_t<std::is_integral_v<T>> CompOp(const GatewayCheat::CheatLine& line,
State& state, ReadFunction read_func,
CompareFunc comp) {
u32 addr = line.address + state.offset;
T val = read_func(addr);
if (!comp(val)) {
state.if_flag++;
}
}
static inline void LoadOffsetOp(Memory::MemorySystem& memory, const GatewayCheat::CheatLine& line,
State& state) {
u32 addr = line.address + state.offset;
state.offset = memory.Read32(addr);
}
static inline void LoopOp(const GatewayCheat::CheatLine& line, State& state) {
state.loop_flag = state.loop_count < line.value;
state.loop_count++;
state.loop_back_line = state.current_line_nr;
}
static inline void TerminateOp(State& state) {
if (state.if_flag > 0) {
state.if_flag--;
}
}
static inline void LoopExecuteVariantOp(State& state) {
if (state.loop_flag) {
state.current_line_nr = state.loop_back_line - 1;
} else {
state.loop_count = 0;
}
}
static inline void FullTerminateOp(State& state) {
if (state.loop_flag) {
state.current_line_nr = state.loop_back_line - 1;
} else {
state.offset = 0;
state.reg = 0;
state.loop_count = 0;
state.if_flag = 0;
state.loop_flag = false;
}
}
static inline void SetOffsetOp(const GatewayCheat::CheatLine& line, State& state) {
state.offset = line.value;
}
static inline void AddValueOp(const GatewayCheat::CheatLine& line, State& state) {
state.reg += line.value;
}
static inline void SetValueOp(const GatewayCheat::CheatLine& line, State& state) {
state.reg = line.value;
}
template <typename T, typename WriteFunction>
static inline std::enable_if_t<std::is_integral_v<T>> IncrementiveWriteOp(
const GatewayCheat::CheatLine& line, State& state, WriteFunction write_func,
Core::System& system) {
u32 addr = line.value + state.offset;
write_func(addr, static_cast<T>(state.reg));
system.CPU().InvalidateCacheRange(addr, sizeof(T));
state.offset += sizeof(T);
}
template <typename T, typename ReadFunction>
static inline std::enable_if_t<std::is_integral_v<T>> LoadOp(const GatewayCheat::CheatLine& line,
State& state, ReadFunction read_func) {
u32 addr = line.value + state.offset;
state.reg = read_func(addr);
}
static inline void AddOffsetOp(const GatewayCheat::CheatLine& line, State& state) {
state.offset += line.value;
}
static inline void JokerOp(const GatewayCheat::CheatLine& line, State& state,
const Core::System& system) {
u32 pad_state = system.ServiceManager()
.GetService<Service::HID::Module::Interface>("hid:USER")
->GetModule()
->GetState()
.hex;
bool pressed = (pad_state & line.value) == line.value;
if (!pressed) {
state.if_flag++;
}
}
static inline void PatchOp(const GatewayCheat::CheatLine& line, State& state, Core::System& system,
const std::vector<GatewayCheat::CheatLine>& cheat_lines) {
if (state.if_flag > 0) {
// Skip over the additional patch lines
state.current_line_nr += static_cast<int>(std::ceil(line.value / 8.0));
return;
}
u32 num_bytes = line.value;
u32 addr = line.address + state.offset;
system.CPU().InvalidateCacheRange(addr, num_bytes);
bool first = true;
u32 bit_offset = 0;
if (num_bytes > 0)
state.current_line_nr++; // skip over the current code
while (num_bytes >= 4) {
u32 tmp = first ? cheat_lines[state.current_line_nr].first
: cheat_lines[state.current_line_nr].value;
if (!first && num_bytes > 4) {
state.current_line_nr++;
}
first = !first;
system.Memory().Write32(addr, tmp);
addr += 4;
num_bytes -= 4;
}
while (num_bytes > 0) {
u32 tmp = (first ? cheat_lines[state.current_line_nr].first
: cheat_lines[state.current_line_nr].value) >>
bit_offset;
system.Memory().Write8(addr, tmp);
addr += 1;
num_bytes -= 1;
bit_offset += 8;
}
}
GatewayCheat::CheatLine::CheatLine(const std::string& line) {
constexpr std::size_t cheat_length = 17;
if (line.length() != cheat_length) {
type = CheatType::Null;
cheat_line = line;
LOG_ERROR(Core_Cheats, "Cheat contains invalid line: {}", line);
return;
}
try {
std::string type_temp = line.substr(0, 1);
// 0xD types have extra subtype value, i.e. 0xDA
std::string sub_type_temp;
if (type_temp == "D" || type_temp == "d")
sub_type_temp = line.substr(1, 1);
type = static_cast<CheatType>(std::stoi(type_temp + sub_type_temp, 0, 16));
first = std::stoul(line.substr(0, 8), 0, 16);
address = first & 0x0FFFFFFF;
value = std::stoul(line.substr(9, 8), 0, 16);
cheat_line = line;
} catch (const std::logic_error& e) {
type = CheatType::Null;
cheat_line = line;
LOG_ERROR(Core_Cheats, "Cheat contains invalid line: {}", line);
}
}
GatewayCheat::GatewayCheat(std::string name_, std::vector<CheatLine> cheat_lines_,
std::string comments_)
: name(std::move(name_)), cheat_lines(std::move(cheat_lines_)), comments(std::move(comments_)) {
}
GatewayCheat::~GatewayCheat() = default;
void GatewayCheat::Execute(Core::System& system) {
State state;
Memory::MemorySystem& memory = system.Memory();
auto Read8 = [&memory](VAddr addr) { return memory.Read8(addr); };
auto Read16 = [&memory](VAddr addr) { return memory.Read16(addr); };
auto Read32 = [&memory](VAddr addr) { return memory.Read32(addr); };
auto Write8 = [&memory](VAddr addr, u8 value) { memory.Write8(addr, value); };
auto Write16 = [&memory](VAddr addr, u16 value) { memory.Write16(addr, value); };
auto Write32 = [&memory](VAddr addr, u32 value) { memory.Write32(addr, value); };
for (state.current_line_nr = 0; state.current_line_nr < cheat_lines.size();
state.current_line_nr++) {
auto line = cheat_lines[state.current_line_nr];
if (state.if_flag > 0) {
switch (line.type) {
case CheatType::GreaterThan32:
case CheatType::LessThan32:
case CheatType::EqualTo32:
case CheatType::NotEqualTo32:
case CheatType::GreaterThan16WithMask:
case CheatType::LessThan16WithMask:
case CheatType::EqualTo16WithMask:
case CheatType::NotEqualTo16WithMask:
case CheatType::Joker:
// Increment the if_flag to handle the end if correctly
state.if_flag++;
break;
case CheatType::Patch:
// EXXXXXXX YYYYYYYY
// Copies YYYYYYYY bytes from (current code location + 8) to [XXXXXXXX + offset].
// We need to call this here to skip the additional patch lines
PatchOp(line, state, system, cheat_lines);
break;
case CheatType::Terminator:
// D0000000 00000000 - ENDIF
TerminateOp(state);
break;
case CheatType::FullTerminator:
// D2000000 00000000 - END; offset = 0; reg = 0;
FullTerminateOp(state);
break;
default:
break;
}
// Do not execute any other op code
continue;
}
switch (line.type) {
case CheatType::Null:
break;
case CheatType::Write32:
// 0XXXXXXX YYYYYYYY - word[XXXXXXX+offset] = YYYYYYYY
WriteOp<u32>(line, state, Write32, system);
break;
case CheatType::Write16:
// 1XXXXXXX 0000YYYY - half[XXXXXXX+offset] = YYYY
WriteOp<u16>(line, state, Write16, system);
break;
case CheatType::Write8:
// 2XXXXXXX 000000YY - byte[XXXXXXX+offset] = YY
WriteOp<u8>(line, state, Write8, system);
break;
case CheatType::GreaterThan32:
// 3XXXXXXX YYYYYYYY - Execute next block IF YYYYYYYY > word[XXXXXXX] ;unsigned
CompOp<u32>(line, state, Read32, [&line](u32 val) -> bool { return line.value > val; });
break;
case CheatType::LessThan32:
// 4XXXXXXX YYYYYYYY - Execute next block IF YYYYYYYY < word[XXXXXXX] ;unsigned
CompOp<u32>(line, state, Read32, [&line](u32 val) -> bool { return line.value < val; });
break;
case CheatType::EqualTo32:
// 5XXXXXXX YYYYYYYY - Execute next block IF YYYYYYYY == word[XXXXXXX] ;unsigned
CompOp<u32>(line, state, Read32,
[&line](u32 val) -> bool { return line.value == val; });
break;
case CheatType::NotEqualTo32:
// 6XXXXXXX YYYYYYYY - Execute next block IF YYYYYYYY != word[XXXXXXX] ;unsigned
CompOp<u32>(line, state, Read32,
[&line](u32 val) -> bool { return line.value != val; });
break;
case CheatType::GreaterThan16WithMask:
// 7XXXXXXX ZZZZYYYY - Execute next block IF YYYY > ((not ZZZZ) AND half[XXXXXXX])
CompOp<u16>(line, state, Read16, [&line](u16 val) -> bool {
return static_cast<u16>(line.value) > (static_cast<u16>(~line.value >> 16) & val);
});
break;
case CheatType::LessThan16WithMask:
// 8XXXXXXX ZZZZYYYY - Execute next block IF YYYY < ((not ZZZZ) AND half[XXXXXXX])
CompOp<u16>(line, state, Read16, [&line](u16 val) -> bool {
return static_cast<u16>(line.value) < (static_cast<u16>(~line.value >> 16) & val);
});
break;
case CheatType::EqualTo16WithMask:
// 9XXXXXXX ZZZZYYYY - Execute next block IF YYYY = ((not ZZZZ) AND half[XXXXXXX])
CompOp<u16>(line, state, Read16, [&line](u16 val) -> bool {
return static_cast<u16>(line.value) == (static_cast<u16>(~line.value >> 16) & val);
});
break;
case CheatType::NotEqualTo16WithMask:
// AXXXXXXX ZZZZYYYY - Execute next block IF YYYY <> ((not ZZZZ) AND half[XXXXXXX])
CompOp<u16>(line, state, Read16, [&line](u16 val) -> bool {
return static_cast<u16>(line.value) != (static_cast<u16>(~line.value >> 16) & val);
});
break;
case CheatType::LoadOffset:
// BXXXXXXX 00000000 - offset = word[XXXXXXX+offset]
LoadOffsetOp(system.Memory(), line, state);
break;
case CheatType::Loop: {
// C0000000 YYYYYYYY - LOOP next block YYYYYYYY times
// TODO(B3N30): Support nested loops if necessary
LoopOp(line, state);
break;
}
case CheatType::Terminator: {
// D0000000 00000000 - END IF
TerminateOp(state);
break;
}
case CheatType::LoopExecuteVariant: {
// D1000000 00000000 - END LOOP
LoopExecuteVariantOp(state);
break;
}
case CheatType::FullTerminator: {
// D2000000 00000000 - NEXT & Flush
FullTerminateOp(state);
break;
}
case CheatType::SetOffset: {
// D3000000 XXXXXXXX Sets the offset to XXXXXXXX
SetOffsetOp(line, state);
break;
}
case CheatType::AddValue: {
// D4000000 XXXXXXXX reg += XXXXXXXX
AddValueOp(line, state);
break;
}
case CheatType::SetValue: {
// D5000000 XXXXXXXX reg = XXXXXXXX
SetValueOp(line, state);
break;
}
case CheatType::IncrementiveWrite32: {
// D6000000 XXXXXXXX (32bit) [XXXXXXXX+offset] = reg ; offset += 4
IncrementiveWriteOp<u32>(line, state, Write32, system);
break;
}
case CheatType::IncrementiveWrite16: {
// D7000000 XXXXXXXX (16bit) [XXXXXXXX+offset] = reg & 0xffff ; offset += 2
IncrementiveWriteOp<u16>(line, state, Write16, system);
break;
}
case CheatType::IncrementiveWrite8: {
// D8000000 XXXXXXXX (16bit) [XXXXXXXX+offset] = reg & 0xff ; offset++
IncrementiveWriteOp<u8>(line, state, Write8, system);
break;
}
case CheatType::Load32: {
// D9000000 XXXXXXXX reg = [XXXXXXXX+offset]
LoadOp<u32>(line, state, Read32);
break;
}
case CheatType::Load16: {
// DA000000 XXXXXXXX reg = [XXXXXXXX+offset] & 0xFFFF
LoadOp<u16>(line, state, Read16);
break;
}
case CheatType::Load8: {
// DB000000 XXXXXXXX reg = [XXXXXXXX+offset] & 0xFF
LoadOp<u8>(line, state, Read8);
break;
}
case CheatType::AddOffset: {
// DC000000 XXXXXXXX offset + XXXXXXXX
AddOffsetOp(line, state);
break;
}
case CheatType::Joker: {
// DD000000 XXXXXXXX if KEYPAD has value XXXXXXXX execute next block
JokerOp(line, state, system);
break;
}
case CheatType::Patch: {
// EXXXXXXX YYYYYYYY
// Copies YYYYYYYY bytes from (current code location + 8) to [XXXXXXXX + offset].
PatchOp(line, state, system, cheat_lines);
break;
}
}
}
}
bool GatewayCheat::IsEnabled() const {
return enabled;
}
void GatewayCheat::SetEnabled(bool enabled_) {
enabled = enabled_;
if (enabled) {
LOG_WARNING(Core_Cheats, "Cheats enabled. This might lead to weird behaviour or crashes");
}
}
std::string GatewayCheat::GetComments() const {
return comments;
}
std::string GatewayCheat::GetName() const {
return name;
}
std::string GatewayCheat::GetType() const {
return "Gateway";
}
std::string GatewayCheat::ToString() const {
std::string result;
result += '[' + name + "]\n";
result += comments + '\n';
for (const auto& line : cheat_lines)
result += line.cheat_line + '\n';
result += '\n';
return result;
}
std::vector<std::unique_ptr<CheatBase>> GatewayCheat::LoadFile(const std::string& filepath) {
std::vector<std::unique_ptr<CheatBase>> cheats;
std::ifstream file;
OpenFStream(file, filepath, std::ios_base::in);
if (!file) {
return cheats;
}
std::string comments;
std::vector<CheatLine> cheat_lines;
std::string name;
while (!file.eof()) {
std::string line;
std::getline(file, line);
line.erase(std::remove(line.begin(), line.end(), '\0'), line.end());
line = Common::StripSpaces(line); // remove spaces at front and end
if (line.length() >= 2 && line.front() == '[') {
if (!cheat_lines.empty()) {
cheats.push_back(std::make_unique<GatewayCheat>(name, cheat_lines, comments));
}
name = line.substr(1, line.length() - 2);
cheat_lines.clear();
comments.erase();
} else if (!line.empty() && line.front() == '*') {
comments += line.substr(1, line.length() - 1) + '\n';
} else if (!line.empty()) {
cheat_lines.emplace_back(std::move(line));
}
}
if (!cheat_lines.empty()) {
cheats.push_back(std::make_unique<GatewayCheat>(name, cheat_lines, comments));
}
return cheats;
}
} // namespace Cheats