/* Copyright (c) 2013-2015 Jeffrey Pfau
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "cheats.h"
#include "gba/cheats/gameshark.h"
#include "gba/cheats/parv3.h"
#include "gba/gba.h"
#include "util/string.h"
#include "util/vfs.h"
#define MAX_LINE_LENGTH 128
const uint32_t GBA_CHEAT_DEVICE_ID = 0xABADC0DE;
DEFINE_VECTOR(GBACheatList, struct GBACheat);
DEFINE_VECTOR(GBACheatSets, struct GBACheatSet*);
DEFINE_VECTOR(StringList, char*);
static int32_t _readMem(struct ARMCore* cpu, uint32_t address, int width) {
switch (width) {
case 1:
return cpu->memory.load8(cpu, address, 0);
case 2:
return cpu->memory.load16(cpu, address, 0);
case 4:
return cpu->memory.load32(cpu, address, 0);
}
return 0;
}
static void _writeMem(struct ARMCore* cpu, uint32_t address, int width, int32_t value) {
switch (width) {
case 1:
cpu->memory.store8(cpu, address, value, 0);
break;
case 2:
cpu->memory.store16(cpu, address, value, 0);
break;
case 4:
cpu->memory.store32(cpu, address, value, 0);
break;
}
}
void GBACheatRegisterLine(struct GBACheatSet* cheats, const char* line) {
*StringListAppend(&cheats->lines) = strdup(line);
}
static void _addBreakpoint(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
if (!device->p || !cheats->hook) {
return;
}
++cheats->hook->reentries;
if (cheats->hook->reentries > 1) {
return;
}
GBASetBreakpoint(device->p, &device->d, cheats->hook->address, cheats->hook->mode, &cheats->hook->patchedOpcode);
}
static void _removeBreakpoint(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
if (!device->p || !cheats->hook) {
return;
}
--cheats->hook->reentries;
if (cheats->hook->reentries > 0) {
return;
}
GBAClearBreakpoint(device->p, cheats->hook->address, cheats->hook->mode, cheats->hook->patchedOpcode);
}
static void _patchROM(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
if (!device->p) {
return;
}
int i;
for (i = 0; i < MAX_ROM_PATCHES; ++i) {
if (!cheats->romPatches[i].exists || cheats->romPatches[i].applied) {
continue;
}
GBAPatch16(device->p->cpu, cheats->romPatches[i].address, cheats->romPatches[i].newValue, &cheats->romPatches[i].oldValue);
cheats->romPatches[i].applied = true;
}
}
static void _unpatchROM(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
if (!device->p) {
return;
}
int i;
for (i = 0; i < MAX_ROM_PATCHES; ++i) {
if (!cheats->romPatches[i].exists || !cheats->romPatches[i].applied) {
continue;
}
GBAPatch16(device->p->cpu, cheats->romPatches[i].address, cheats->romPatches[i].oldValue, 0);
cheats->romPatches[i].applied = false;
}
}
static void GBACheatDeviceInit(struct ARMCore*, struct ARMComponent*);
static void GBACheatDeviceDeinit(struct ARMComponent*);
void GBACheatDeviceCreate(struct GBACheatDevice* device) {
device->d.id = GBA_CHEAT_DEVICE_ID;
device->d.init = GBACheatDeviceInit;
device->d.deinit = GBACheatDeviceDeinit;
GBACheatSetsInit(&device->cheats, 4);
}
void GBACheatDeviceDestroy(struct GBACheatDevice* device) {
size_t i;
for (i = 0; i < GBACheatSetsSize(&device->cheats); ++i) {
struct GBACheatSet* set = *GBACheatSetsGetPointer(&device->cheats, i);
GBACheatSetDeinit(set);
free(set);
}
GBACheatSetsDeinit(&device->cheats);
}
void GBACheatSetInit(struct GBACheatSet* set, const char* name) {
GBACheatListInit(&set->list, 4);
StringListInit(&set->lines, 4);
set->incompleteCheat = 0;
set->incompletePatch = 0;
set->currentBlock = 0;
set->gsaVersion = 0;
set->remainingAddresses = 0;
set->hook = 0;
int i;
for (i = 0; i < MAX_ROM_PATCHES; ++i) {
set->romPatches[i].exists = false;
}
if (name) {
set->name = strdup(name);
} else {
set->name = 0;
}
set->enabled = true;
}
void GBACheatSetDeinit(struct GBACheatSet* set) {
GBACheatListDeinit(&set->list);
size_t i;
for (i = 0; i < StringListSize(&set->lines); ++i) {
free(*StringListGetPointer(&set->lines, i));
}
if (set->name) {
free(set->name);
}
if (set->hook) {
--set->hook->refs;
if (set->hook->refs == 0) {
free(set->hook);
}
}
}
void GBACheatAttachDevice(struct GBA* gba, struct GBACheatDevice* device) {
if (gba->cpu->components[GBA_COMPONENT_CHEAT_DEVICE]) {
ARMHotplugDetach(gba->cpu, GBA_COMPONENT_CHEAT_DEVICE);
}
gba->cpu->components[GBA_COMPONENT_CHEAT_DEVICE] = &device->d;
ARMHotplugAttach(gba->cpu, GBA_COMPONENT_CHEAT_DEVICE);
}
void GBACheatAddSet(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
*GBACheatSetsAppend(&device->cheats) = cheats;
_addBreakpoint(device, cheats);
_patchROM(device, cheats);
}
void GBACheatRemoveSet(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
size_t i;
for (i = 0; i < GBACheatSetsSize(&device->cheats); ++i) {
if (*GBACheatSetsGetPointer(&device->cheats, i) == cheats) {
break;
}
}
if (i == GBACheatSetsSize(&device->cheats)) {
return;
}
GBACheatSetsShift(&device->cheats, i, 1);
_unpatchROM(device, cheats);
_removeBreakpoint(device, cheats);
}
bool GBACheatAddAutodetect(struct GBACheatSet* set, uint32_t op1, uint32_t op2) {
uint32_t o1 = op1;
uint32_t o2 = op2;
char line[18] = "XXXXXXXX XXXXXXXX";
snprintf(line, sizeof(line), "%08X %08X", op1, op2);
GBACheatRegisterLine(set, line);
switch (set->gsaVersion) {
case 0:
// Try to detect GameShark version
GBACheatDecryptGameShark(&o1, &o2, GBACheatGameSharkSeeds);
if ((o1 & 0xF0000000) == 0xF0000000 && !(o2 & 0xFFFFFCFE)) {
GBACheatSetGameSharkVersion(set, 1);
return GBACheatAddGameSharkRaw(set, o1, o2);
}
o1 = op1;
o2 = op2;
GBACheatDecryptGameShark(&o1, &o2, GBACheatProActionReplaySeeds);
if ((o1 & 0xFE000000) == 0xC4000000 && !(o2 & 0xFFFF0000)) {
GBACheatSetGameSharkVersion(set, 3);
return GBACheatAddProActionReplayRaw(set, o1, o2);
}
break;
case 1:
GBACheatDecryptGameShark(&o1, &o2, set->gsaSeeds);
return GBACheatAddGameSharkRaw(set, o1, o2);
case 3:
GBACheatDecryptGameShark(&o1, &o2, set->gsaSeeds);
return GBACheatAddProActionReplayRaw(set, o1, o2);
}
return false;
}
bool GBACheatAutodetectLine(struct GBACheatSet* cheats, const char* line) {
uint32_t op1;
uint32_t op2;
line = hex32(line, &op1);
if (!line) {
return false;
}
while (*line == ' ') {
++line;
}
line = hex32(line, &op2);
if (!line) {
return false;
}
return GBACheatAddAutodetect(cheats, op1, op2);
}
bool GBACheatParseFile(struct GBACheatDevice* device, struct VFile* vf) {
char cheat[MAX_LINE_LENGTH];
struct GBACheatSet* set = 0;
struct GBACheatSet* newSet;
int gsaVersion = 0;
bool nextDisabled = false;
bool reset = false;
while (true) {
size_t i = 0;
ssize_t bytesRead = vf->readline(vf, cheat, sizeof(cheat));
if (bytesRead == 0) {
break;
}
if (bytesRead < 0) {
return false;
}
while (isspace(cheat[i])) {
++i;
}
switch (cheat[i]) {
case '#':
do {
++i;
} while (isspace(cheat[i]));
newSet = malloc(sizeof(*set));
GBACheatSetInit(newSet, &cheat[i]);
newSet->enabled = !nextDisabled;
nextDisabled = false;
if (set) {
GBACheatAddSet(device, set);
}
if (set && !reset) {
GBACheatSetCopyProperties(newSet, set);
} else {
GBACheatSetGameSharkVersion(newSet, gsaVersion);
}
reset = false;
set = newSet;
break;
case '!':
do {
++i;
} while (isspace(cheat[i]));
if (strncasecmp(&cheat[i], "GSAv", 4) == 0 || strncasecmp(&cheat[i], "PARv", 4) == 0) {
i += 4;
gsaVersion = atoi(&cheat[i]);
break;
}
if (strcasecmp(&cheat[i], "disabled") == 0) {
nextDisabled = true;
break;
}
if (strcasecmp(&cheat[i], "reset") == 0) {
reset = true;
break;
}
break;
default:
if (!set) {
set = malloc(sizeof(*set));
GBACheatSetInit(set, 0);
set->enabled = !nextDisabled;
nextDisabled = false;
GBACheatSetGameSharkVersion(set, gsaVersion);
}
GBACheatAddLine(set, cheat);
break;
}
}
if (set) {
GBACheatAddSet(device, set);
}
return true;
}
bool GBACheatSaveFile(struct GBACheatDevice* device, struct VFile* vf) {
static const char lineStart[3] = "# ";
static const char lineEnd = '\n';
struct GBACheatHook* lastHook = 0;
size_t i;
for (i = 0; i < GBACheatSetsSize(&device->cheats); ++i) {
struct GBACheatSet* set = *GBACheatSetsGetPointer(&device->cheats, i);
if (lastHook && set->hook != lastHook) {
static const char* resetDirective = "!reset\n";
vf->write(vf, resetDirective, strlen(resetDirective));
}
switch (set->gsaVersion) {
case 1: {
static const char* versionDirective = "!GSAv1\n";
vf->write(vf, versionDirective, strlen(versionDirective));
break;
}
case 3: {
static const char* versionDirective = "!PARv3\n";
vf->write(vf, versionDirective, strlen(versionDirective));
break;
}
default:
break;
}
lastHook = set->hook;
if (!set->enabled) {
static const char* disabledDirective = "!disabled\n";
vf->write(vf, disabledDirective, strlen(disabledDirective));
}
vf->write(vf, lineStart, 2);
if (set->name) {
vf->write(vf, set->name, strlen(set->name));
}
vf->write(vf, &lineEnd, 1);
size_t c;
for (c = 0; c < StringListSize(&set->lines); ++c) {
const char* line = *StringListGetPointer(&set->lines, c);
vf->write(vf, line, strlen(line));
vf->write(vf, &lineEnd, 1);
}
}
return true;
}
bool GBACheatAddLine(struct GBACheatSet* cheats, const char* line) {
uint32_t op1;
uint16_t op2;
uint16_t op3;
line = hex32(line, &op1);
if (!line) {
return false;
}
while (isspace(line[0])) {
++line;
}
line = hex16(line, &op2);
if (!line) {
return false;
}
if (!line[0] || isspace(line[0])) {
return GBACheatAddCodeBreaker(cheats, op1, op2);
}
line = hex16(line, &op3);
if (!line) {
return false;
}
uint32_t realOp2 = op2;
realOp2 <<= 16;
realOp2 |= op3;
return GBACheatAddAutodetect(cheats, op1, realOp2);
}
void GBACheatRefresh(struct GBACheatDevice* device, struct GBACheatSet* cheats) {
if (!cheats->enabled) {
return;
}
bool condition = true;
int conditionRemaining = 0;
int negativeConditionRemaining = 0;
_patchROM(device, cheats);
size_t nCodes = GBACheatListSize(&cheats->list);
size_t i;
for (i = 0; i < nCodes; ++i) {
if (conditionRemaining > 0) {
--conditionRemaining;
if (!condition) {
continue;
}
} else if (negativeConditionRemaining > 0) {
conditionRemaining = negativeConditionRemaining - 1;
negativeConditionRemaining = 0;
condition = !condition;
if (!condition) {
continue;
}
} else {
condition = true;
}
struct GBACheat* cheat = GBACheatListGetPointer(&cheats->list, i);
int32_t value = 0;
int32_t operand = cheat->operand;
uint32_t operationsRemaining = cheat->repeat;
uint32_t address = cheat->address;
bool performAssignment = false;
for (; operationsRemaining; --operationsRemaining) {
switch (cheat->type) {
case CHEAT_ASSIGN:
value = operand;
performAssignment = true;
break;
case CHEAT_ASSIGN_INDIRECT:
value = operand;
address = _readMem(device->p->cpu, address + cheat->addressOffset, 4);
performAssignment = true;
break;
case CHEAT_AND:
value = _readMem(device->p->cpu, address, cheat->width) & operand;
performAssignment = true;
break;
case CHEAT_ADD:
value = _readMem(device->p->cpu, address, cheat->width) + operand;
performAssignment = true;
break;
case CHEAT_OR:
value = _readMem(device->p->cpu, address, cheat->width) | operand;
performAssignment = true;
break;
case CHEAT_IF_EQ:
condition = _readMem(device->p->cpu, address, cheat->width) == operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_NE:
condition = _readMem(device->p->cpu, address, cheat->width) != operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_LT:
condition = _readMem(device->p->cpu, address, cheat->width) < operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_GT:
condition = _readMem(device->p->cpu, address, cheat->width) > operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_ULT:
condition = (uint32_t) _readMem(device->p->cpu, address, cheat->width) < (uint32_t) operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_UGT:
condition = (uint32_t) _readMem(device->p->cpu, address, cheat->width) > (uint32_t) operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_AND:
condition = _readMem(device->p->cpu, address, cheat->width) & operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
case CHEAT_IF_LAND:
condition = _readMem(device->p->cpu, address, cheat->width) && operand;
conditionRemaining = cheat->repeat;
negativeConditionRemaining = cheat->negativeRepeat;
break;
}
if (performAssignment) {
_writeMem(device->p->cpu, address, cheat->width, value);
}
address += cheat->addressOffset;
operand += cheat->operandOffset;
}
}
}
void GBACheatSetCopyProperties(struct GBACheatSet* newSet, struct GBACheatSet* set) {
newSet->gsaVersion = set->gsaVersion;
memcpy(newSet->gsaSeeds, set->gsaSeeds, sizeof(newSet->gsaSeeds));
if (set->hook) {
if (newSet->hook) {
--newSet->hook->refs;
if (newSet->hook->refs == 0) {
free(newSet->hook);
}
}
newSet->hook = set->hook;
++newSet->hook->refs;
}
}
void GBACheatDeviceInit(struct ARMCore* cpu, struct ARMComponent* component) {
struct GBACheatDevice* device = (struct GBACheatDevice*) component;
device->p = (struct GBA*) cpu->master;
size_t i;
for (i = 0; i < GBACheatSetsSize(&device->cheats); ++i) {
struct GBACheatSet* cheats = *GBACheatSetsGetPointer(&device->cheats, i);
_addBreakpoint(device, cheats);
_patchROM(device, cheats);
}
}
void GBACheatDeviceDeinit(struct ARMComponent* component) {
struct GBACheatDevice* device = (struct GBACheatDevice*) component;
size_t i;
for (i = GBACheatSetsSize(&device->cheats); i--;) {
struct GBACheatSet* cheats = *GBACheatSetsGetPointer(&device->cheats, i);
_unpatchROM(device, cheats);
_removeBreakpoint(device, cheats);
}
}