lib/interception/interception_win.cc - platform/external/compiler-rt - Git at Google

 //===-- interception_linux.cc -----------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of AddressSanitizer, an address sanity checker.
 //
 // Windows-specific interception methods.
 //===----------------------------------------------------------------------===//

 #ifdef _WIN32

 #include "interception.h"
 #include <windows.h>

 namespace __interception {

 bool GetRealFunctionAddress(const char *func_name, uptr *func_addr) {
   const char *DLLS[] = {
     "msvcr80.dll",
     "msvcr90.dll",
     "kernel32.dll",
     NULL
   };
   *func_addr = 0;
   for (size_t i = 0; *func_addr == 0 && DLLS[i]; ++i) {
     *func_addr = (uptr)GetProcAddress(GetModuleHandleA(DLLS[i]), func_name);
   }
   return (*func_addr != 0);
 }

 // FIXME: internal_str* and internal_mem* functions should be moved from the
 // ASan sources into interception/.

 static void _memset(void *p, int value, size_t sz) {
   for (size_t i = 0; i < sz; ++i)
     ((char*)p)[i] = (char)value;
 }

 static void _memcpy(void *dst, void *src, size_t sz) {
   char *dst_c = (char*)dst,
        *src_c = (char*)src;
   for (size_t i = 0; i < sz; ++i)
     dst_c[i] = src_c[i];
 }

 static void WriteJumpInstruction(char *jmp_from, char *to) {
   // jmp XXYYZZWW = E9 WW ZZ YY XX, where XXYYZZWW is an offset fromt jmp_from
   // to the next instruction to the destination.
   ptrdiff_t offset = to - jmp_from - 5;
   *jmp_from = '\xE9';
   *(ptrdiff_t*)(jmp_from + 1) = offset;
 }

 bool OverrideFunction(uptr old_func, uptr new_func, uptr *orig_old_func) {
 #ifdef _WIN64
 # error OverrideFunction was not tested on x64
 #endif
   // Basic idea:
   // We write 5 bytes (jmp-to-new_func) at the beginning of the 'old_func'
   // to override it. We want to be able to execute the original 'old_func' from
   // the wrapper, so we need to keep the leading 5+ bytes ('head') of the
   // original instructions somewhere with a "jmp old_func+head".
   // We call these 'head'+5 bytes of instructions a "trampoline".

   // Trampolines are allocated from a common pool.
   const int POOL_SIZE = 1024;
   static char *pool = NULL;
   static size_t pool_used = 0;
   if (pool == NULL) {
     pool = (char*)VirtualAlloc(NULL, POOL_SIZE,
                                MEM_RESERVE | MEM_COMMIT,
                                PAGE_EXECUTE_READWRITE);
     // FIXME: set PAGE_EXECUTE_READ access after setting all interceptors?
     if (pool == NULL)
       return false;
     _memset(pool, 0xCC /* int 3 */, POOL_SIZE);
   }

   char* old_bytes = (char*)old_func;
   char* trampoline = pool + pool_used;

   // Find out the number of bytes of the instructions we need to copy to the
   // island and store it in 'head'.
   size_t head = 0;
   while (head < 5) {
     switch (old_bytes[head]) {
       case '\x55':  // push ebp
       case '\x56':  // push esi
       case '\x57':  // push edi
         head++;
         continue;
     }
     switch (*(unsigned short*)(old_bytes + head)) {  // NOLINT
       case 0xFF8B:  // 8B FF = mov edi, edi
       case 0xEC8B:  // 8B EC = mov ebp, esp
       case 0xC033:  // 33 C0 = xor eax, eax
         head += 2;
         continue;
       case 0xEC83:  // 83 EC XX = sub esp, XX
         head += 3;
         continue;
       case 0xC1F7:  // F7 C1 XX YY ZZ WW = test ecx, WWZZYYXX
         head += 6;
         continue;
     }
     switch (0x00FFFFFF & *(unsigned int*)(old_bytes + head)) {
       case 0x24448A:  // 8A 44 24 XX = mov eal, dword ptr [esp+XXh]
       case 0x244C8B:  // 8B 4C 24 XX = mov ecx, dword ptr [esp+XXh]
       case 0x24548B:  // 8B 54 24 XX = mov edx, dword ptr [esp+XXh]
       case 0x247C8B:  // 8B 7C 24 XX = mov edi, dword ptr [esp+XXh]
         head += 4;
         continue;
     }

     // Unknown instruction!
     return false;
   }

   if (pool_used + head + 5 > POOL_SIZE)
     return false;

   // Now put the "jump to trampoline" instruction into the original code.
   DWORD old_prot, unused_prot;
   if (!VirtualProtect((void*)old_func, head, PAGE_EXECUTE_READWRITE,
                       &old_prot))
     return false;

   // Put the needed instructions into the trampoline bytes.
   _memcpy(trampoline, old_bytes, head);
   WriteJumpInstruction(trampoline + head, old_bytes + head);
   *orig_old_func = (uptr)trampoline;
   pool_used += head + 5;

   // Intercept the 'old_func'.
   WriteJumpInstruction(old_bytes, (char*)new_func);
   _memset(old_bytes + 5, 0xCC /* int 3 */, head - 5);

   if (!VirtualProtect((void*)old_func, head, old_prot, &unused_prot))
     return false;  // not clear if this failure bothers us.

   return true;
 }

 }  // namespace __interception

 #endif  // _WIN32
	//===-- interception_linux.cc ------------------------------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of AddressSanitizer, an address sanity checker.
	//
	// Windows-specific interception methods.
	//===----------------------------------------------------------------------===//

	#ifdef _WIN32

	#include "interception.h"
	#include <windows.h>

	namespace __interception {

	bool GetRealFunctionAddress(const char func_name, uptr func_addr) {
	const char *DLLS[] = {
	"msvcr80.dll",
	"msvcr90.dll",
	"kernel32.dll",
	NULL
	};
	*func_addr = 0;
	for (size_t i = 0; *func_addr == 0 && DLLS[i]; ++i) {
	*func_addr = (uptr)GetProcAddress(GetModuleHandleA(DLLS[i]), func_name);
	}
	return (*func_addr != 0);
	}

	// FIXME: internal_str* and internal_mem* functions should be moved from the
	// ASan sources into interception/.

	static void _memset(void *p, int value, size_t sz) {
	for (size_t i = 0; i < sz; ++i)
	((char*)p)[i] = (char)value;
	}

	static void _memcpy(void dst, void src, size_t sz) {
	char dst_c = (char)dst,
	src_c = (char)src;
	for (size_t i = 0; i < sz; ++i)
	dst_c[i] = src_c[i];
	}

	static void WriteJumpInstruction(char jmp_from, char to) {
	// jmp XXYYZZWW = E9 WW ZZ YY XX, where XXYYZZWW is an offset fromt jmp_from
	// to the next instruction to the destination.
	ptrdiff_t offset = to - jmp_from - 5;
	*jmp_from = '\xE9';
	(ptrdiff_t)(jmp_from + 1) = offset;
	}

	bool OverrideFunction(uptr old_func, uptr new_func, uptr *orig_old_func) {
	#ifdef _WIN64
	# error OverrideFunction was not tested on x64
	#endif
	// Basic idea:
	// We write 5 bytes (jmp-to-new_func) at the beginning of the 'old_func'
	// to override it. We want to be able to execute the original 'old_func' from
	// the wrapper, so we need to keep the leading 5+ bytes ('head') of the
	// original instructions somewhere with a "jmp old_func+head".
	// We call these 'head'+5 bytes of instructions a "trampoline".

	// Trampolines are allocated from a common pool.
	const int POOL_SIZE = 1024;
	static char *pool = NULL;
	static size_t pool_used = 0;
	if (pool == NULL) {
	pool = (char*)VirtualAlloc(NULL, POOL_SIZE,
	MEM_RESERVE \| MEM_COMMIT,
	PAGE_EXECUTE_READWRITE);
	// FIXME: set PAGE_EXECUTE_READ access after setting all interceptors?
	if (pool == NULL)
	return false;
	_memset(pool, 0xCC /* int 3 */, POOL_SIZE);
	}

	char* old_bytes = (char*)old_func;
	char* trampoline = pool + pool_used;

	// Find out the number of bytes of the instructions we need to copy to the
	// island and store it in 'head'.
	size_t head = 0;
	while (head < 5) {
	switch (old_bytes[head]) {
	case '\x55': // push ebp
	case '\x56': // push esi
	case '\x57': // push edi
	head++;
	continue;
	}
	switch ((unsigned short)(old_bytes + head)) { // NOLINT
	case 0xFF8B: // 8B FF = mov edi, edi
	case 0xEC8B: // 8B EC = mov ebp, esp
	case 0xC033: // 33 C0 = xor eax, eax
	head += 2;
	continue;
	case 0xEC83: // 83 EC XX = sub esp, XX
	head += 3;
	continue;
	case 0xC1F7: // F7 C1 XX YY ZZ WW = test ecx, WWZZYYXX
	head += 6;
	continue;
	}
	switch (0x00FFFFFF & (unsigned int)(old_bytes + head)) {
	case 0x24448A: // 8A 44 24 XX = mov eal, dword ptr [esp+XXh]
	case 0x244C8B: // 8B 4C 24 XX = mov ecx, dword ptr [esp+XXh]
	case 0x24548B: // 8B 54 24 XX = mov edx, dword ptr [esp+XXh]
	case 0x247C8B: // 8B 7C 24 XX = mov edi, dword ptr [esp+XXh]
	head += 4;
	continue;
	}

	// Unknown instruction!
	return false;
	}

	if (pool_used + head + 5 > POOL_SIZE)
	return false;

	// Now put the "jump to trampoline" instruction into the original code.
	DWORD old_prot, unused_prot;
	if (!VirtualProtect((void*)old_func, head, PAGE_EXECUTE_READWRITE,
	&old_prot))
	return false;

	// Put the needed instructions into the trampoline bytes.
	_memcpy(trampoline, old_bytes, head);
	WriteJumpInstruction(trampoline + head, old_bytes + head);
	*orig_old_func = (uptr)trampoline;
	pool_used += head + 5;

	// Intercept the 'old_func'.
	WriteJumpInstruction(old_bytes, (char*)new_func);
	_memset(old_bytes + 5, 0xCC /* int 3 */, head - 5);

	if (!VirtualProtect((void*)old_func, head, old_prot, &unused_prot))
	return false; // not clear if this failure bothers us.

	return true;
	}

	} // namespace __interception

	#endif // _WIN32