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#include"psputils.hpp"
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#include"specialgames.hpp"
// See: https://github.com/hrydgard/ppsspp
// Core/HLE (High Level Emulator)
// - sceCcc
// #void sceCccSetTable(u32 jis2ucs, u32 ucs2jis)
// int sceCccUTF8toUTF16(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccUTF8toSJIS(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccUTF16toUTF8(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccUTF16toSJIS(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccSJIStoUTF8(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccSJIStoUTF16(u32 dstAddr, u32 dstSize, u32 srcAddr)
// int sceCccStrlenUTF8(u32 strAddr)
// int sceCccStrlenUTF16(u32 strAddr)
// int sceCccStrlenSJIS(u32 strAddr)
// u32 sceCccEncodeUTF8(u32 dstAddrAddr, u32 ucs)
// void sceCccEncodeUTF16(u32 dstAddrAddr, u32 ucs)
// u32 sceCccEncodeSJIS(u32 dstAddrAddr, u32 jis)
// u32 sceCccDecodeUTF8(u32 dstAddrAddr)
// u32 sceCccDecodeUTF16(u32 dstAddrAddr)
// u32 sceCccDecodeSJIS(u32 dstAddrAddr)
// int sceCccIsValidUTF8(u32 c)
// int sceCccIsValidUTF16(u32 c)
// int sceCccIsValidSJIS(u32 c)
// int sceCccIsValidUCS2(u32 c)
// int sceCccIsValidUCS4(u32 c)
// int sceCccIsValidJIS(u32 c)
// int sceCccIsValidUnicode(u32 c)
// #u32 sceCccSetErrorCharUTF8(u32 c)
// #u32 sceCccSetErrorCharUTF16(u32 c)
// #u32 sceCccSetErrorCharSJIS(u32 c)
// u32 sceCccUCStoJIS(u32 c, u32 alt)
// u32 sceCccJIStoUCS(u32 c, u32 alt)
// - sceFont: search charCode
// int sceFontGetCharInfo(u32 fontHandle, u32 charCode, u32 charInfoPtr)
// int sceFontGetShadowInfo(u32 fontHandle, u32 charCode, u32 charInfoPtr)
// int sceFontGetCharImageRect(u32 fontHandle, u32 charCode, u32 charRectPtr)
// int sceFontGetShadowImageRect(u32 fontHandle, u32 charCode, u32 charRectPtr)
// int sceFontGetCharGlyphImage(u32 fontHandle, u32 charCode, u32 glyphImagePtr)
// int sceFontGetCharGlyphImage_Clip(u32 fontHandle, u32 charCode, u32 glyphImagePtr, int clipXPos, int clipYPos, int clipWidth, int clipHeight)
// #int sceFontSetAltCharacterCode(u32 fontLibHandle, u32 charCode)
// int sceFontGetShadowGlyphImage(u32 fontHandle, u32 charCode, u32 glyphImagePtr)
// int sceFontGetShadowGlyphImage_Clip(u32 fontHandle, u32 charCode, u32 glyphImagePtr, int clipXPos, int clipYPos, int clipWidth, int clipHeight)
// - sceKernelInterrupt
// u32 sysclib_strcat(u32 dst, u32 src)
// int sysclib_strcmp(u32 dst, u32 src)
// u32 sysclib_strcpy(u32 dst, u32 src)
// u32 sysclib_strlen(u32 src)
//
// Sample debug string:
// 006EFD8E PUSH PPSSPPWi.00832188 ASCII "sceCccEncodeSJIS(%08x, U+%04x)"
// Corresponding source code in sceCcc:
// ERROR_LOG(HLE, "sceCccEncodeSJIS(%08x, U+%04x): invalid pointer", dstAddrAddr, jis);
struct PPSSPPFunction
{
const char *hookName; // hook name
int argIndex; // argument index
uint64_t hookType; // hook parameter type
int hookSplit; // hook parameter split, positive: stack, negative: registers
const char *pattern; // debug string used within the function
};
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namespace{
uintptr_t findleapushaddr(uintptr_t addr)
{
#ifndef _WIN64
addr=MemDbg::findPushAddress(addr, processStartAddress, processStopAddress);
if(!addr)return NULL;
addr=SafeFindEnclosingAlignedFunction(addr, 0x200);
#else
addr=MemDbg::findleaaddr(addr, processStartAddress, processStopAddress);
if(!addr)return NULL;
BYTE sig1[]={
0xCC,
0x48,0x89,XX,0x24,XX,
};
BYTE sig2[]={
0xC3,
0x48,0x89,XX,0x24,XX,
};
BYTE sig3[]={
0xCC,
0x89,XX,0x24,XX,
};
BYTE sig4[]={
0xC3,
0x89,XX,0x24,XX,
};
int idx=0;
uintptr_t maxaddr=0;
for(auto sig:{sig1,sig2,sig3,sig4})
{
idx+=1;
maxaddr=max(maxaddr,reverseFindBytes(sig,(idx>2)?5:6,addr-0x500,addr,1,true));
}
maxaddr=max(maxaddr,MemDbg::findEnclosingAlignedFunction_strict(addr,0x500));
addr=maxaddr;
#endif
return addr;
}
}
bool InsertPPSSPPHLEHooks()
{
auto functions=std::vector<PPSSPPFunction>{
//https://github.com/hrydgard/ppsspp/blob/master/Core/HLE/sceCcc.cpp
{ "sceCccStrlenSJIS", GETARG1, USING_STRING, 0, "sceCccStrlenSJIS(" } ,
{ "sceCccStrlenUTF8", GETARG1, CODEC_UTF8|USING_STRING, 0, "sceCccStrlenUTF8(" } ,
{ "sceCccStrlenUTF16", GETARG1, CODEC_UTF16|USING_STRING, 0, "sceCccStrlenUTF16(" } ,
{ "sceCccSJIStoUTF8", GETARG3, USING_STRING, 0, "sceCccSJIStoUTF8(" } ,
{ "sceCccSJIStoUTF16", GETARG3, USING_STRING, 0, "sceCccSJIStoUTF16(" } ,
{ "sceCccUTF8toSJIS", GETARG3, CODEC_UTF8|USING_STRING, 0, "sceCccUTF8toSJIS(" } ,
{ "sceCccUTF8toUTF16", GETARG3, CODEC_UTF8|USING_STRING, 0, "sceCccUTF8toUTF16(" } ,
{ "sceCccUTF16toSJIS", GETARG3, CODEC_UTF16|USING_STRING, 0, "sceCccUTF16toSJIS(" } ,
{ "sceCccUTF16toUTF8", GETARG3, CODEC_UTF16|USING_STRING, 0, "sceCccUTF16toUTF8(" } ,
//https://github.com/hrydgard/ppsspp/blob/master/Core/HLE/sceFont.cpp
{ "sceFontGetCharInfo", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetCharInfo(" } ,
{ "sceFontGetShadowInfo", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetShadowInfo("} ,
{ "sceFontGetCharImageRect", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetCharImageRect(" } ,
{ "sceFontGetShadowImageRect", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetShadowImageRect(" } ,
{ "sceFontGetCharGlyphImage", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetCharGlyphImage(" } ,
{ "sceFontGetCharGlyphImage_Clip", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetCharGlyphImage_Clip(" } ,
{ "sceFontGetShadowGlyphImage", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetShadowGlyphImage(" } ,
{ "sceFontGetShadowGlyphImage_Clip", GETARG2, CODEC_UTF16, GETARG1, "sceFontGetShadowGlyphImage_Clip(" } ,
//https://github.com/hrydgard/ppsspp/blob/master/Core/HLE/sceKernelInterrupt.cpp
{ "sysclib_strcat", GETARG2, USING_STRING, 0, "Untested sysclib_strcat(" } ,
{ "sysclib_strcpy", GETARG2, USING_STRING, 0, "Untested sysclib_strcpy(" } ,
{ "sysclib_strlen", GETARG1, USING_STRING, 0, "Untested sysclib_strlen(" }
// Disabled as I am not sure how to deal with the source string
//, { "sceCccEncodeSJIS", 2, USING_STRING, 0, "sceCccEncodeSJIS(" }
//, { "sceCccEncodeUTF8", 2, CODEC_UTF8, 0, "sceCccEncodeUTF8(" }
//, { "sceCccEncodeUTF16", 2, CODEC_UTF16, 0, "sceCccEncodeUTF16(" }
//, { "sysclib_strcmp", 2, USING_STRING, 0, "Untested sysclib_strcmp(" }
};
auto succ=false;
for (auto&& function :functions) {
auto addr = MemDbg::findBytes(function.pattern, ::strlen(function.pattern), processStartAddress, processStopAddress);
if(!addr)continue;
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addr=findleapushaddr(addr);
if(!addr)continue;
HookParam hp;
hp.address=addr;
hp.type = function.hookType;
hp.offset=function.argIndex;
hp.split = function.hookSplit;
if (hp.split)hp.type |= USING_SPLIT;
succ|=NewHook(hp, function.hookName);
}
return succ;
}
#if 0
bool PPSSPPinithooksearch(){
bool found = false;
SYSTEM_INFO systemInfo;
GetNativeSystemInfo(&systemInfo);
for (BYTE* probe = NULL; probe < systemInfo.lpMaximumApplicationAddress;)
{
MEMORY_BASIC_INFORMATION info;
if (!VirtualQuery(probe, &info, sizeof(info)))
{
probe += systemInfo.dwPageSize;
}
else
{
if (info.RegionSize == 0x1f00000 && info.Protect == PAGE_READWRITE && info.Type == MEM_MAPPED)
{
found = true;
ConsoleOutput("PPSSPP memory found: searching for hooks should yield working hook codes");
#ifndef _WIN64
// PPSSPP 1.8.0 compiles jal to sub dword ptr [ebp+0x360],??
memcpy(spDefault.pattern, Array<BYTE>{ 0x83, 0xAD, 0x60, 0x03, 0x00, 0x00 }, spDefault.length = 6);
#else
// PPSSPP 1.8.0 compiles jal to sub dword ptr [r14+0x360],??
memcpy(spDefault.pattern, Array<BYTE>{ 0x41, 0x83, 0xae, 0x60, 0x03, 0x00, 0x00 }, spDefault.length = 7);
#endif
spDefault.offset = 0;
spDefault.minAddress = 0;
spDefault.maxAddress = -1ULL;
spDefault.padding = (uintptr_t)probe - 0x8000000;
spDefault.hookPostProcessor = [](HookParam& hp)
{
hp.type |= NO_CONTEXT | USING_SPLIT | SPLIT_INDIRECT;
#ifndef _WIN64
hp.split = get_reg(regs::ebp);
hp.split_index =get_reg(regs::eax); // this is where PPSSPP 1.8.0 stores its return address stack
#else
hp.split = get_reg(regs::r14);
hp.split_index = -8; // this is where PPSSPP 1.8.0 stores its return address stack
#endif
};
}
probe += info.RegionSize;
}
}
return found;
}
#endif
uintptr_t getDoJitAddress() {
#ifndef _WIN64
auto string1="Jump target too far away, needs indirect register";
auto string2="Jump target too far away, needs force5Bytes = true";
auto addr1 = MemDbg::findBytes(string1, ::strlen(string1), processStartAddress, processStopAddress);
auto addr2 = MemDbg::findBytes(string2, ::strlen(string2), processStartAddress, processStopAddress);
if(addr1==0||addr2==0)return 0;
//都是被push两次但是都是第一个
addr1=MemDbg::findPushAddress(addr1, processStartAddress, processStopAddress);
addr2=MemDbg::findPushAddress(addr2, processStartAddress, processStopAddress);
if(addr1==0||addr2==0)return 0;
addr1=MemDbg::findEnclosingAlignedFunction_strict(addr1,0x100);
addr2=MemDbg::findEnclosingAlignedFunction_strict(addr2,0x100);
if(addr1==0||addr2==0||addr1!=addr2)return 0;
auto xrefs=findxref_reverse_checkcallop(addr1,processStartAddress,processStopAddress,0xe8);
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if(xrefs.size()<28)return 0;
addr1=MemDbg::findEnclosingAlignedFunction_strict(xrefs[xrefs.size()-1-3],0x400);
addr2=MemDbg::findEnclosingAlignedFunction_strict(xrefs[xrefs.size()-1-4],0x400);
if(addr1==0||addr2==0||addr1!=addr2)return 0;
return addr1;
#else
auto DoJitSig1 = "C7 83 ?? 0? 00 00 11 00 00 00 F6 83 ?? 0? 00 00 01 C7 83 ?? 0? 00 00 E4 00 00 00";
auto first=find_pattern(DoJitSig1,processStartAddress,processStopAddress);
if (first) {
auto beginSubSig1 = "55 41 ?? 41 ?? 41";
auto lookbackSize = 0x400;
auto address=first-lookbackSize;
auto subs=find_pattern(beginSubSig1,address,address+lookbackSize);
if(subs){
return subs;
}
}
else
{
auto DoJitSig2 = "C7 83 ?? 0? 00 00 11 00 00 00 F6 83 ?? 0? 00 00 01 ?? ?? ?? ?? ?? ?? ?? C7 83 ?? 0? 00 00 E4 00 00 00";
first=find_pattern(DoJitSig2,processStartAddress,processStopAddress);
if (first) {
first=MemDbg::findEnclosingAlignedFunction_strict(first,0x400);
return first;
}
}
#endif
return 0;
}
namespace ppsspp{
bool checkiscurrentgame(const emfuncinfo& em){
auto wininfos=get_proc_windows();
for(auto&& info:wininfos){
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if(info.title.find(acastw(em._id))!=info.title.npos)return true;
}
return false;
}
std::unordered_set<uintptr_t>breakpoints;
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inline bool IsValidAddress(const uintptr_t address) {
if ((address & 0x3E000000) == 0x08000000) {
return true;
} else if ((address & 0x3F800000) == 0x04000000) {
return true;
} else if ((address & 0xBFFFC000) == 0x00010000) {
return true;
} else if ((address & 0x3F000000) >= 0x08000000){// && (address & 0x3F000000) < 0x08000000 + g_MemorySize) {
return true;
} else {
return false;
}
}
void dohookemaddr(uintptr_t em_address,uintptr_t ret){
jitaddraddr(em_address,ret,JITTYPE::PPSSPP);
if(emfunctionhooks.find(em_address)==emfunctionhooks.end())return;
if(!(checkiscurrentgame(emfunctionhooks.at(em_address))))return;
auto op=emfunctionhooks.at(em_address);
ConsoleOutput("jit function addr %p",ret);
#ifndef _WIN64
BYTE sig[]={
0x8b,XX2,//mov reg,[ebp-off]
0x8b,0xc6,//mov eax,esi
0x25,0xff,0xff,0xff,0x3f,//and eax,0x3fffffff
0x89,XX,XX4,//mov [eax+base+off],reg
};
auto findbase=MemDbg::findBytes(sig,sizeof(sig),ret,ret+0x20);
if(!findbase)
findbase=MemDbg::findBytes(sig,sizeof(sig),ret-0x1000,ret+0x1000);
if(!findbase)
ConsoleOutput("can't find emu_baseaddr");
PPSSPP::x86_baseaddr=(*(DWORD*)(findbase+12))&0xffff0000;
ConsoleOutput("x86 base addr %p",PPSSPP::x86_baseaddr);
#endif
HookParam hpinternal;
hpinternal.address=ret;
hpinternal.emu_addr=em_address;//用于生成hcode
hpinternal.type=USING_STRING|NO_CONTEXT|BREAK_POINT|op.type;
hpinternal.text_fun=(decltype(hpinternal.text_fun))op.hookfunc;
hpinternal.filter_fun=(decltype(hpinternal.filter_fun))op.filterfun;
hpinternal.argidx=op.argidx;
hpinternal.padding=op.padding;
hpinternal.jittype=JITTYPE::PPSSPP;
NewHook(hpinternal,op._id);
}
namespace{
typedef DWORD u32;
typedef BYTE u8;
typedef WORD u16;
const int MAX_JIT_BLOCK_EXITS = 8;
namespace Memory {
struct Opcode {
Opcode() {
}
explicit Opcode(u32 v) : encoding(v) {
}
u32 operator & (const u32& arg) const {
return encoding & arg;
}
u32 operator >> (const u32& arg) const {
return encoding >> arg;
}
bool operator == (const u32& arg) const {
return encoding == arg;
}
bool operator != (const u32& arg) const {
return encoding != arg;
}
u32 encoding;
};
}
typedef Memory::Opcode MIPSOpcode;
struct JitBlock {
bool ContainsAddress(u32 em_address) const;
const u8* checkedEntry; // const, we have to translate to writable.
const u8* normalEntry;
u8* exitPtrs[MAX_JIT_BLOCK_EXITS]; // to be able to rewrite the exit jump
u32 exitAddress[MAX_JIT_BLOCK_EXITS]; // 0xFFFFFFFF == unknown
u32 originalAddress;
MIPSOpcode originalFirstOpcode; //to be able to restore
uint64_t compiledHash;
u16 codeSize;
u16 originalSize;
u16 blockNum;
bool invalid;
bool linkStatus[MAX_JIT_BLOCK_EXITS];
#ifdef USE_VTUNE
char blockName[32];
#endif
// By having a pointer, we avoid a constructor/destructor being generated and dog slow
// performance in debug.
std::vector<u32>* proxyFor;
bool IsPureProxy() const {
return originalFirstOpcode.encoding == 0x68FF0000;
}
void SetPureProxy() {
// Magic number that won't be a real opcode.
originalFirstOpcode.encoding = 0x68FF0000;
}
};
}
void unsafeoncegetJitBlockCache(hook_stack* stack){
//class JitBlockCache : public JitBlockCacheDebugInterface {
//...
//JitBlock *blocks_ = nullptr;
//std::unordered_multimap<u32, int> proxyBlockMap_; ->64
//int num_blocks_ = 0;
#ifdef _WIN64
auto num_blocks_=*(uint32_t*)(stack->rcx+72+16+88);
auto blocks_=(JitBlock*)*(uintptr_t*)(stack->rcx+72+16+88-64-8);
#else
auto num_blocks_=*(uint32_t*)(stack->ecx+88);
auto blocks_=(JitBlock*)*(uintptr_t*)(stack->ecx+88-32-4);
#endif
int checkvalid=0;
num_blocks_-=1;//last one is now dojiting
for(int i=0;i<num_blocks_;i++){
if(IsValidAddress(blocks_[i].originalAddress) && blocks_[i].normalEntry)
checkvalid+=1;
}
if(checkvalid<num_blocks_/2)return;
for(int i=0;i<num_blocks_;i++){
if(IsValidAddress(blocks_[i].originalAddress) && blocks_[i].normalEntry){
dohookemaddr(blocks_[i].originalAddress,(uintptr_t)blocks_[i].normalEntry);
delayinsertNewHook(blocks_[i].originalAddress);
}
}
return;
}
bool oncegetJitBlockCache(hook_stack* stack){
//在游戏中途hook获取已compiled jit
//虽然只有在每次进行jit时才会触发不过测试后续触发的也挺频繁的。
__try{
unsafeoncegetJitBlockCache(stack);
}__except (EXCEPTION_EXECUTE_HANDLER) {}
return true;
}
bool hookPPSSPPDoJit(){
auto DoJitPtr=getDoJitAddress();
if(DoJitPtr==0)return false;
spDefault.jittype=JITTYPE::PPSSPP;
spDefault.minAddress = 0;
spDefault.maxAddress = -1;
HookParam hp;
hp.address=DoJitPtr;//Jit::DoJit
ConsoleOutput("DoJitPtr %p",DoJitPtr);
hp.user_value=(uintptr_t)new uintptr_t;
hp.text_fun=[](hook_stack* stack, HookParam* hp, uintptr_t* data, uintptr_t* split, size_t* len){
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static auto once1=oncegetJitBlockCache(stack);
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auto em_address=stack->THISCALLARG1;
*(uintptr_t*)(hp->user_value)=em_address;
HookParam hpinternal;
hpinternal.user_value=hp->user_value;
hpinternal.address=stack->retaddr;
hpinternal.text_fun=[](hook_stack* stack, HookParam* hp, uintptr_t* data, uintptr_t* split, size_t* len){
auto em_address=*(uintptr_t*)(hp->user_value);
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if(!IsValidAddress(em_address))return;
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[&](){
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auto ret=stack->LASTRETVAL;
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if(breakpoints.find(ret)!=breakpoints.end())return;
breakpoints.insert(ret);
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dohookemaddr(em_address,ret);
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}();
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delayinsertNewHook(em_address);
};
static auto once=NewHook(hpinternal,"DoJitPtrRet");
};
return NewHook(hp,"PPSSPPDoJit");
}
}
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namespace{
//ULJS00035 ULJS00149 流行り神
void* findGetPointer(){
char GetPointer[]="Unknown GetPointer %08x PC %08x LR %08x";
auto addr=MemDbg::findBytes(GetPointer,sizeof(GetPointer),processStartAddress,processStopAddress);
if(!addr)return nullptr;
addr=findleapushaddr(addr);
return (void*)addr;
}
bool Replace_memcpy(){
// static int Replace_memcpy() {
// u32 destPtr = PARAM(0);
// u32 srcPtr = PARAM(1);
// u32 bytes = PARAM(2);
static auto GetPointer=(uintptr_t(*)(uintptr_t))findGetPointer();
if(!GetPointer)return false;
ConsoleOutput("GetPointer %p",GetPointer);
char ReplaceMemcpy_VideoDecodeRange[] ="ReplaceMemcpy/VideoDecodeRange";
auto addr=MemDbg::findBytes(ReplaceMemcpy_VideoDecodeRange,sizeof(ReplaceMemcpy_VideoDecodeRange),processStartAddress,processStopAddress);
if(!addr)return false;
ConsoleOutput("ReplaceMemcpy/VideoDecodeRange %p",addr);
#ifndef _WIN64
BYTE sig[]={0xb9,XX4};
*(uintptr_t*)(sig+1)=addr;
bool succ=false;
for(auto addr:Util::SearchMemory(sig,sizeof(sig),PAGE_EXECUTE,processStartAddress,processStopAddress)){
BYTE sig1[]={
0x55,0x8b,0xec,
0x81,0xec,XX4,
0x8b,0x0d,XX4,
};
addr=reverseFindBytes(sig1,sizeof(sig1),addr-0x200,addr);
if(!addr)continue;
DWORD off_106D180=*(DWORD*)(addr+sizeof(sig1)-4);
HookParam hp;
hp.user_value=*(DWORD*)off_106D180;
#else
bool succ=false;
for(auto addr:MemDbg::findleaaddr_all(addr,processStartAddress,processStopAddress)){
BYTE sig1[]={
0x48,0x89,XX,0x24,0x18,
0x48,0x89,XX,0x24,0x20,
0x57,
0x48,0x81,0xec,XX4,
0x48,0x8b,XX,XX4
};
addr=reverseFindBytes(sig1,sizeof(sig1),addr-0x200,addr);
if(!addr)continue;
DWORD off_140F4C810=*(DWORD*)(addr+sizeof(sig1)-4);
HookParam hp;
hp.user_value=*(uintptr_t*)(off_140F4C810+addr+sizeof(sig1));
#endif
hp.address=addr;
hp.text_fun=[](hook_stack* stack, HookParam* hp, uintptr_t* data, uintptr_t* split, size_t* len){
auto bytes = *((DWORD *)hp->user_value + 6);
auto srcPtr = GetPointer(*((DWORD *)hp->user_value + 5));
if(!IsDBCSLeadByteEx(932,*(BYTE*)srcPtr))
return;
if(bytes!=2)
return;
if(bytes!=strnlen((char*)srcPtr,TEXT_BUFFER_SIZE))
return;
*data=(uintptr_t)srcPtr;
*len=bytes;
};
succ|=NewHook(hp,"Replace_memcpy");
}
return succ;
}
}
bool InsertPPSSPPcommonhooks()
{
auto succ=InsertPPSSPPHLEHooks();
succ|=ppsspp::hookPPSSPPDoJit();
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succ|=Replace_memcpy();
return succ;
}