614 lines
16 KiB
C++
Raw Normal View History

// texthook.cc
// 8/24/2013 jichi
// Branch: ITH_DLL/texthook.cpp, rev 128
// 8/24/2013 TODO: Clean up this file
#ifdef _MSC_VER
# pragma warning (disable:4100) // C4100: unreference formal parameter
# pragma warning (disable:4018) // C4018: sign/unsigned mismatch
//# pragma warning (disable:4733) // C4733: Inline asm assigning to 'FS:0' : handler not registered as safe handler
#endif // _MSC_VER
#include "src/hijack/texthook.h"
#include "src/engine/match.h"
#include "src/except.h"
#include "src/main.h"
#include "include/const.h"
#include "ithsys/ithsys.h"
#include "disasm/disasm.h"
//#include "winseh/winseh.h"
//#define ConsoleOutput(...) (void)0 // jichi 9/17/2013: I don't need this ><
// - Global variables -
// 10/14/2014 jichi: disable GDI hooks
static bool gdi_hook_enabled_ = true; // enable GDI by default
static bool gdiplus_hook_enabled_ = false; // disable GDIPlus by default
bool GDIHooksEnabled() { return ::gdi_hook_enabled_; }
bool GDIPlusHooksEnabled() { return ::gdiplus_hook_enabled_; }
void EnableGDIHooks() { ::gdi_hook_enabled_ = true; }
void EnableGDIPlusHooks() { ::gdiplus_hook_enabled_ = true; }
void DisableGDIHooks() { ::gdi_hook_enabled_ = false; }
void DisableGDIPlusHooks() { ::gdiplus_hook_enabled_ = false; }
//FilterRange filter[8];
DWORD flag,
enter_count;
TextHook *hookman,
*current_available;
// - Unnamed helpers -
2018-08-07 15:44:13 -04:00
#ifndef _WIN64
namespace { // unnamed
//provide const time hook entry.
int userhook_count;
const BYTE common_hook[] = {
0x9c, // pushfd
0x60, // pushad
0x9c, // pushfd
0x8d,0x54,0x24,0x28, // lea edx,[esp+0x28] ; esp value
0x8b,0x32, // mov esi,[edx] ; return address
0xb9, 0,0,0,0, // mov ecx, $ ; pointer to TextHook
0xe8, 0,0,0,0, // call @hook
0x9d, // popfd
0x61, // popad
0x9d // popfd
};
/**
* jichi 7/19/2014
*
* @param original_addr
* @param new_addr
* @param hook_len
* @param original_len
* @return -1 if failed, else 0 if ?, else ?
*/
int MapInstruction(DWORD original_addr, DWORD new_addr, BYTE &hook_len, BYTE &original_len)
{
int flag = 0;
DWORD l = 0;
const BYTE *r = (const BYTE *)original_addr; // 7/19/2014 jichi: original address is not modified
BYTE *c = (BYTE *)new_addr; // 7/19/2014 jichi: but new address might be modified
while((r - (BYTE *) original_addr) < 5) {
l = ::disasm(r);
if (l == 0) {
ConsoleOutput("vnrcli:MapInstruction: FAILED: failed to disasm");
return -1;
}
::memcpy(c, r, l);
if (*r >= 0x70 && *r < 0x80) {
c[0] = 0xf;
c[1] = *r + 0x10;
c += 6;
__asm
{
mov eax,r
add eax,2
movsx edx,byte ptr [eax-1]
add edx,eax
mov eax,c
sub edx,eax
mov [eax-4],edx
}
} else if (*r == 0xeb) {
c[0] = 0xe9;
c += 5;
__asm
{
mov eax,r
add eax,2
movsx edx,[eax-1]
add edx,eax
mov eax,c
sub edx,eax
mov [eax-4],edx
}
if (r - (BYTE *)original_addr < 5 - l) {
ConsoleOutput("vnrcli:MapInstruction: not safe to move instruction right after short jmp");
return -1; // Not safe to move instruction right after short jmp.
} else
flag = 1;
} else if (*r == 0xe8 || *r == 0xe9) {
c[0]=*r;
c += 5;
flag = (*r == 0xe9);
__asm
{
mov eax,r
add eax,5
mov edx,[eax-4]
add edx,eax
mov eax,c
sub edx,eax
mov [eax-4],edx
}
} else if (*r == 0xf && (*(r + 1) >> 4) == 0x8) {
c += 6;
__asm
{
mov eax,r
mov edx,dword ptr [eax+2]
add eax,6
add eax,edx
mov edx,c
sub eax,edx
mov [edx-4],eax
}
}
else
c += l;
r += l;
}
original_len = r - (BYTE *)original_addr;
hook_len = c - (BYTE *)new_addr;
return flag;
}
//copy original instruction
//jmp back
DWORD GetModuleBase(DWORD hash)
{
__asm
{
mov eax,fs:[0x30]
mov eax,[eax+0xc]
mov esi,[eax+0x14]
mov edi,_wcslwr
listfind:
mov edx,[esi+0x28]
test edx,edx
jz notfound
push edx
call edi
pop edx
xor eax,eax
calc:
movzx ecx, word ptr [edx]
test cl,cl
jz fin
ror eax,7
add eax,ecx
add edx,2
jmp calc
fin:
cmp eax,[hash]
je found
mov esi,[esi]
jmp listfind
notfound:
xor eax,eax
jmp termin
found:
mov eax,[esi+0x10]
termin:
}
}
__declspec(naked) // jichi 10/2/2013: No prolog and epilog
int ProcessHook(DWORD dwDataBase, DWORD dwRetn, TextHook *hook) // Use SEH to ensure normal execution even bad hook inserted.
{
// jichi 12/17/2013: The function parameters here are meaning leass. The parameters are in esi and edi
__asm
{
push esi
push edx
call TextHook::Send
retn // jichi 12/13/2013: return near, see: http://stackoverflow.com/questions/1396909/ret-retn-retf-how-to-use-them
}
}
} // unnamed namespace
2018-08-07 15:44:13 -04:00
#endif // _WIN32
// - TextHook methods -
2018-08-07 15:44:13 -04:00
int TextHook::InsertHook()
{
int ok = 1;
//ConsoleOutput("vnrcli:InsertHook: enter");
WaitForSingleObject(hmMutex, 0);
if (hp.type & DIRECT_READ) ok = InsertReadCode();
#ifndef _WIN64
else ok = InsertHookCode();
#endif
ReleaseMutex(hmMutex);
//ConsoleOutput("vnrcli:InsertHook: leave");
return ok;
}
#ifndef _WIN64
// jichi 12/2/2013: This function mostly return 0.
// It return the hook address only for auxiliary case.
// However, because no known hooks are auxiliary, this function always return 0.
//
// jichi 5/11/2014:
// - dwDataBase: the stack address
// - dwRetn: the return address of the hook
DWORD TextHook::Send(DWORD dwDataBase, DWORD dwRetn)
{
DWORD ret = 0;
ITH_WITH_SEH(ret = UnsafeSend(dwDataBase, dwRetn));
return ret;
}
DWORD TextHook::UnsafeSend(DWORD dwDataBase, DWORD dwRetn)
{
DWORD dwCount,
dwAddr,
dwDataIn,
dwSplit;
2018-08-03 19:53:31 -04:00
BYTE pbData[PIPE_BUFFER_SIZE];
DWORD dwType = hp.type;
dwAddr = hp.address;
/** jichi 12/24/2014
* @param addr function address
* @param frame real address of the function, supposed to be the same as addr
* @param stack address of current stack - 4
* @return If success, which is reverted
*/
if (::trigger)
::trigger = Engine::InsertDynamicHook((LPVOID)dwAddr, *(DWORD *)(dwDataBase - 0x1c), *(DWORD *)(dwDataBase-0x18));
2018-08-03 19:53:31 -04:00
// jichi 10/24/2014: generic hook function
if (hp.hook_fun && !hp.hook_fun(dwDataBase, &hp))
hp.hook_fun = nullptr;
if (dwType & HOOK_EMPTY) // jichi 10/24/2014: dummy hook only for dynamic hook
return 0;
dwCount = 0;
dwSplit = 0;
dwDataIn = *(DWORD *)(dwDataBase + hp.offset); // default value
2018-08-03 19:53:31 -04:00
if (hp.text_fun) {
hp.text_fun(dwDataBase, &hp, 0, &dwDataIn, &dwSplit, &dwCount);
} else {
if (dwDataIn == 0)
return 0;
if (dwType & FIXING_SPLIT)
dwSplit = FIXED_SPLIT_VALUE; // fuse all threads, and prevent floating
else if (dwType & USING_SPLIT) {
dwSplit = *(DWORD *)(dwDataBase + hp.split);
if (dwType & SPLIT_INDIRECT) {
if (IthGetMemoryRange((LPVOID)(dwSplit + hp.split_index), 0, 0))
dwSplit = *(DWORD *)(dwSplit + hp.split_index);
else
return 0;
}
}
if (dwType & DATA_INDIRECT) {
if (IthGetMemoryRange((LPVOID)(dwDataIn + hp.index), 0, 0))
dwDataIn = *(DWORD *)(dwDataIn + hp.index);
else
return 0;
}
dwCount = GetLength(dwDataBase, dwDataIn);
}
// jichi 12/25/2013: validate data size
2018-08-03 19:53:31 -04:00
if (dwCount == 0 || dwCount > PIPE_BUFFER_SIZE - HEADER_SIZE)
return 0;
if (hp.length_offset == 1) {
dwDataIn &= 0xffff;
if ((dwType & BIG_ENDIAN) && (dwDataIn >> 8))
dwDataIn = _byteswap_ushort(dwDataIn & 0xffff);
if (dwCount == 1)
dwDataIn &= 0xff;
*(WORD *)(pbData + HEADER_SIZE) = dwDataIn & 0xffff;
}
else
::memcpy(pbData + HEADER_SIZE, (void *)dwDataIn, dwCount);
// jichi 10/14/2014: Add filter function
2018-08-03 19:53:31 -04:00
if (hp.filter_fun && !hp.filter_fun(pbData + HEADER_SIZE, &dwCount, &hp, 0) || dwCount <= 0) {
return 0;
}
*(DWORD *)pbData = dwAddr;
if (dwType & (NO_CONTEXT|FIXING_SPLIT))
dwRetn = 0;
*((DWORD *)pbData + 1) = dwRetn;
*((DWORD *)pbData + 2) = dwSplit;
if (dwCount) {
2018-07-13 20:51:09 -04:00
DWORD unused;
//CliLockPipe();
2018-07-13 20:51:09 -04:00
WriteFile(::hookPipe, pbData, dwCount + HEADER_SIZE, &unused, nullptr);
//CliUnlockPipe();
}
return 0;
}
int TextHook::InsertHookCode()
{
DWORD ret = no;
// jichi 9/17/2013: might raise 0xC0000005 AccessViolationException on win7
ITH_WITH_SEH(ret = UnsafeInsertHookCode());
//if (ret == no)
// ITH_WARN(L"Failed to insert hook");
return ret;
}
2018-08-04 18:01:59 -04:00
int TextHook::UnsafeInsertHookCode()
{
//ConsoleOutput("vnrcli:UnsafeInsertHookCode: enter");
2018-08-03 15:04:48 -04:00
if (hp.module && (hp.type & MODULE_OFFSET)) { // Map hook offset to real address.
if (DWORD base = GetModuleBase(hp.module)) {
hp.address += base;
}
else {
currentHook--;
ConsoleOutput("vnrcli:UnsafeInsertHookCode: FAILED: module not present");
return no;
}
hp.type &= ~MODULE_OFFSET;
}
2018-08-03 15:04:48 -04:00
{
TextHook *it = hookman;
2018-05-20 13:11:55 -04:00
for (int i = 0; (i < currentHook) && it; it++) { // Check if there is a collision.
if (it->Address())
i++;
//it = hookman + i;
if (it == this)
continue;
if (it->Address() <= hp.address &&
it->Address() + it->Length() > hp.address) {
it->ClearHook();
break;
}
}
}
// Verify hp.address.
if (!IthGetMemoryRange((LPCVOID)hp.address, nullptr, nullptr))
{
ConsoleOutput("NextHooker: FAILED: cannot access requested memory");
return no;
}
memcpy(recover, common_hook, sizeof(common_hook));
2018-08-03 19:53:31 -04:00
void* thisPtr = (void*)this;
void* funcPtr = (void*)((BYTE*)ProcessHook - (BYTE*)(recover + 19));
memcpy(recover + 10, &thisPtr, sizeof(void*));
memcpy(recover + 15, &funcPtr, sizeof(void*));
BYTE *c = (BYTE *)hp.address,
*r = recover;
2018-08-03 19:53:31 -04:00
BYTE inst[] = // jichi 9/27/2013: Why 8? Only 5 bytes will be written using NtWriteVirtualMemory
{
0xe9, 0, 0, 0, 0, // jmp recover
0xcc, 0xcc, 0xcc // int3
2018-08-03 19:53:31 -04:00
};
void* relRecover = (void*)(recover - (BYTE*)hp.address - 5);
memcpy(inst + 1, &relRecover, sizeof(void*));
r += sizeof(common_hook);
hp.hook_len = 5;
int address = hp.address;
switch (MapInstruction(hp.address, (DWORD)r, hp.hook_len, hp.recover_len)) {
case -1:
ConsoleOutput("vnrcli:UnsafeInsertHookCode: FAILED: failed to map instruction");
return no;
case 0:
__asm
{
mov ecx,this
movzx eax,[ecx]hp.hook_len
movzx edx,[ecx]hp.recover_len
add edx,address
add eax,r
add eax,5
sub edx,eax
mov [eax-5],0xe9 // jichi 9/27/2013: 0xe9 is jump
mov [eax-4],edx
}
}
// jichi 9/27/2013: Save the original instructions in the memory
memcpy(original, (LPVOID)hp.address, hp.recover_len);
//Check if the new hook range conflict with existing ones. Clear older if conflict.
{
TextHook *it = hookman;
2018-05-20 13:11:55 -04:00
for (int i = 0; i < currentHook; it++) {
if (it->Address())
i++;
if (it == this)
continue;
if (it->Address() >= hp.address &&
it->Address() < hp.hook_len + hp.address) {
it->ClearHook();
break;
}
}
}
DWORD old;
LPVOID addr = (void*)hp.address;
VirtualProtect(addr, sizeof(inst), PAGE_EXECUTE_READWRITE, &old);
memcpy(addr, inst, hp.recover_len);
FlushInstructionCache(GetCurrentProcess(), addr, hp.recover_len);
return 0;
}
2018-08-07 15:44:13 -04:00
#endif // _WIN32
DWORD WINAPI ReaderThread(LPVOID threadParam)
{
TextHook* hook = (TextHook*)threadParam;
BYTE buffer[PIPE_BUFFER_SIZE] = {};
unsigned int changeCount = 0;
2018-08-21 23:41:19 -04:00
int dataLen = 0;
2018-08-07 15:44:13 -04:00
const char* currentAddress = (char*)hook->hp.address;
while (true)
{
2018-08-21 23:41:19 -04:00
Sleep(500);
if (memcmp(buffer + HEADER_SIZE, currentAddress, dataLen) == 0)
2018-08-07 15:44:13 -04:00
{
changeCount = 0;
continue;
}
if (++changeCount > 10)
{
ConsoleOutput("NextHooker: memory constantly changing, useless to read");
ConsoleOutput("NextHooker: remove read code");
break;
}
if (hook->hp.type & USING_UNICODE)
dataLen = wcslen((const wchar_t*)currentAddress) * 2;
else
dataLen = strlen(currentAddress);
*(DWORD*)buffer = hook->hp.address;
*(DWORD*)(buffer + 4) = 0;
*(DWORD*)(buffer + 8) = 0;
memcpy(buffer + HEADER_SIZE, currentAddress, dataLen);
DWORD unused;
WriteFile(::hookPipe, buffer, dataLen + HEADER_SIZE, &unused, nullptr);
}
hook->ClearHook();
return 0;
}
int TextHook::InsertReadCode()
{
hp.hook_len = 0x40;
//Check if the new hook range conflict with existing ones. Clear older if conflict.
TextHook *it = hookman;
for (int i = 0; i < currentHook; it++) {
if (it->Address())
i++;
if (it == this)
continue;
if ((it->Address() >= hp.address && it->Address() < hp.hook_len + hp.address) || (it->Address() <= hp.address && it->Address() + it->Length() > hp.address))
it->ClearHook();
}
if (!IthGetMemoryRange((LPCVOID)hp.address, 0, 0))
{
ConsoleOutput("cannot access read address");
return no;
}
hp.readerHandle = CreateThread(nullptr, 0, ReaderThread, this, 0, nullptr);
return yes;
}
int TextHook::InitHook(const HookParam &h, LPCSTR name, WORD set_flag)
{
2018-06-13 16:24:52 -04:00
WaitForSingleObject(hmMutex, 0);
hp = h;
hp.type |= set_flag;
if (name && name != hook_name) {
SetHookName(name);
}
2018-05-20 13:11:55 -04:00
currentHook++;
current_available = this+1;
while (current_available->Address())
current_available++;
2018-06-14 11:51:09 -04:00
ReleaseMutex(hmMutex);
return 1;
}
2018-08-04 04:33:56 -04:00
int TextHook::RemoveHookCode()
{
if (!hp.address)
return no;
2018-08-04 18:01:59 -04:00
DWORD l = hp.hook_len;
memcpy((void*)hp.address, original, hp.recover_len);
FlushInstructionCache(GetCurrentProcess(), (void*)hp.address, hp.recover_len);
return yes;
}
2018-08-04 18:01:59 -04:00
int TextHook::RemoveReadCode()
{
if (!hp.address) return no;
TerminateThread(hp.readerHandle, 0);
CloseHandle(hp.readerHandle);
return yes;
}
int TextHook::ClearHook()
{
2018-08-04 18:01:59 -04:00
int err;
2018-06-13 16:24:52 -04:00
WaitForSingleObject(hmMutex, 0);
2018-08-04 18:01:59 -04:00
ConsoleOutput("vnrcli:RemoveHook: enter");
if (hp.type & DIRECT_READ) err = RemoveReadCode();
else err = RemoveHookCode();
2018-08-02 20:06:01 -04:00
NotifyHookRemove(hp.address);
if (hook_name) {
delete[] hook_name;
hook_name = nullptr;
}
memset(this, 0, sizeof(TextHook)); // jichi 11/30/2013: This is the original code of ITH
//if (current_available>this)
// current_available = this;
2018-05-20 13:11:55 -04:00
currentHook--;
2018-08-04 18:01:59 -04:00
ConsoleOutput("vnrcli:RemoveHook: leave");
2018-06-14 11:51:09 -04:00
ReleaseMutex(hmMutex);
return err;
}
int TextHook::SetHookName(LPCSTR name)
{
name_length = strlen(name) + 1;
if (hook_name)
delete[] hook_name;
hook_name = new char[name_length];
//ITH_MEMSET_HEAP(hook_name, 0, sizeof(wchar_t) * name_length); // jichi 9/26/2013: zero memory
strcpy(hook_name, name);
return 0;
}
int TextHook::GetLength(DWORD base, DWORD in)
{
if (base == 0)
return 0;
int len;
switch (hp.length_offset) {
default: // jichi 12/26/2013: I should not put this default branch to the end
len = *((int *)base + hp.length_offset);
if (len >= 0) {
if (hp.type & USING_UNICODE)
len <<= 1;
break;
}
else if (len != -1)
break;
//len == -1 then continue to case 0.
case 0:
if (hp.type & USING_UNICODE)
len = wcslen((const wchar_t *)in) << 1;
else
len = strlen((const char *)in);
break;
case 1:
if (hp.type & USING_UNICODE)
len = 2;
else {
if (hp.type & BIG_ENDIAN)
in >>= 8;
len = LeadByteTable[in & 0xff]; //Slightly faster than IsDBCSLeadByte
}
break;
}
// jichi 12/25/2013: This function originally return -1 if failed
//return len;
return max(0, len);
}
// EOF