/* -*- Mode: C++; tab-width: 40; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is mozilla.org code. * * The Initial Developer of the Original Code is the Mozilla Foundation. * Portions created by the Initial Developer are Copyright (C) 2009 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Vladimir Vukicevic * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #ifndef NS_WINDOWS_DLL_INTERCEPTOR_H_ #define NS_WINDOWS_DLL_INTERCEPTOR_H_ #include #include /* * Simple function interception. * * We have two separate mechanisms for intercepting a function: We can use the * built-in nop space, if it exists, or we can create a detour. * * Using the built-in nop space works as follows: On x86-32, DLL functions * begin with a two-byte nop (mov edi, edi) and are preceeded by five bytes of * NOP instructions. * * When we detect a function with this prelude, we do the following: * * 1. Write a long jump to our interceptor function into the five bytes of NOPs * before the function. * * 2. Write a short jump -5 into the two-byte nop at the beginning of the function. * * This mechanism is nice because it's thread-safe. It's even safe to do if * another thread is currently running the function we're modifying! * * When the WindowsDllNopSpacePatcher is destroyed, we overwrite the short jump * but not the long jump, so re-intercepting the same function won't work, * because its prelude won't match. * * * Unfortunately nop space patching doesn't work on functions which don't have * this magic prelude (and in particular, x86-64 never has the prelude). So * when we can't use the built-in nop space, we fall back to using a detour, * which works as follows: * * 1. Save first N bytes of OrigFunction to trampoline, where N is a * number of bytes >= 5 that are instruction aligned. * * 2. Replace first 5 bytes of OrigFunction with a jump to the Hook * function. * * 3. After N bytes of the trampoline, add a jump to OrigFunction+N to * continue original program flow. * * 4. Hook function needs to call the trampoline during its execution, * to invoke the original function (so address of trampoline is * returned). * * When the WindowsDllDetourPatcher object is destructed, OrigFunction is * patched again to jump directly to the trampoline instead of going through * the hook function. As such, re-intercepting the same function won't work, as * jump instructions are not supported. * * Note that this is not thread-safe. Sad day. * */ #include namespace mozilla { namespace internal { class WindowsDllNopSpacePatcher { typedef unsigned char *byteptr_t; HMODULE mModule; // Dumb array for remembering the addresses of functions we've patched. // (This should be nsTArray, but non-XPCOM code uses this class.) static const size_t maxPatchedFns = 128; byteptr_t mPatchedFns[maxPatchedFns]; int mPatchedFnsLen; public: WindowsDllNopSpacePatcher() : mModule(0) , mPatchedFnsLen(0) {} ~WindowsDllNopSpacePatcher() { // Restore the mov edi, edi to the beginning of each function we patched. for (int i = 0; i < mPatchedFnsLen; i++) { byteptr_t fn = mPatchedFns[i]; // Ensure we can write to the code. DWORD op; if (!VirtualProtectEx(GetCurrentProcess(), fn, 2, PAGE_EXECUTE_READWRITE, &op)) { // printf("VirtualProtectEx failed! %d\n", GetLastError()); continue; } // mov edi, edi *((uint16_t*)fn) = 0xff8b; // Restore the old protection. VirtualProtectEx(GetCurrentProcess(), fn, 2, op, &op); // I don't think this is actually necessary, but it can't hurt. FlushInstructionCache(GetCurrentProcess(), /* ignored */ NULL, /* ignored */ 0); } } void Init(const char *modulename) { mModule = LoadLibraryExA(modulename, NULL, 0); if (!mModule) { //printf("LoadLibraryEx for '%s' failed\n", modulename); return; } } #if defined(_M_IX86) bool AddHook(const char *pname, intptr_t hookDest, void **origFunc) { if (!mModule) return false; if (mPatchedFnsLen == maxPatchedFns) { // printf ("No space for hook in mPatchedFns.\n"); return false; } byteptr_t fn = reinterpret_cast(GetProcAddress(mModule, pname)); if (!fn) { //printf ("GetProcAddress failed\n"); return false; } // Ensure we can read and write starting at fn - 5 (for the long jmp we're // going to write) and ending at fn + 2 (for the short jmp up to the long // jmp). DWORD op; if (!VirtualProtectEx(GetCurrentProcess(), fn - 5, 7, PAGE_EXECUTE_READWRITE, &op)) { //printf ("VirtualProtectEx failed! %d\n", GetLastError()); return false; } bool rv = WriteHook(fn, hookDest, origFunc); // Re-protect, and we're done. VirtualProtectEx(GetCurrentProcess(), fn - 5, 7, op, &op); if (rv) { mPatchedFns[mPatchedFnsLen] = fn; mPatchedFnsLen++; } return rv; } bool WriteHook(byteptr_t fn, intptr_t hookDest, void **origFunc) { // Check that the 5 bytes before fn are NOP's, and that the 2 bytes after // fn are mov(edi, edi). // // It's safe to read fn[-5] because we set it to PAGE_EXECUTE_READWRITE // before calling WriteHook. for (int i = -5; i <= -1; i++) { if (fn[i] != 0x90) // nop return false; } // mov edi, edi. Yes, there are two ways to encode the same thing: // // 0x89ff == mov r/m, r // 0x8bff == mov r, r/m // // where "r" is register and "r/m" is register or memory. Windows seems to // use 8bff; I include 89ff out of paranoia. if ((fn[0] != 0x8b && fn[0] != 0x89) || fn[1] != 0xff) { return false; } // Write a long jump into the space above the function. fn[-5] = 0xe9; // jmp *((intptr_t*)(fn - 4)) = hookDest - (uintptr_t)(fn); // target displacement // Set origFunc here, because after this point, hookDest might be called, // and hookDest might use the origFunc pointer. *origFunc = fn + 2; // Short jump up into our long jump. *((uint16_t*)(fn)) = 0xf9eb; // jmp $-5 // I think this routine is safe without this, but it can't hurt. FlushInstructionCache(GetCurrentProcess(), /* ignored */ NULL, /* ignored */ 0); return true; } #else bool AddHook(const char *pname, intptr_t hookDest, void **origFunc) { // Not implemented except on x86-32. return false; } #endif }; class WindowsDllDetourPatcher { typedef unsigned char *byteptr_t; public: WindowsDllDetourPatcher() : mModule(0), mHookPage(0), mMaxHooks(0), mCurHooks(0) { } ~WindowsDllDetourPatcher() { int i; byteptr_t p; for (i = 0, p = mHookPage; i < mCurHooks; i++, p += kHookSize) { #if defined(_M_IX86) size_t nBytes = 1 + sizeof(intptr_t); #elif defined(_M_X64) size_t nBytes = 2 + sizeof(intptr_t); #else #error "Unknown processor type" #endif byteptr_t origBytes = *((byteptr_t *)p); // ensure we can modify the original code DWORD op; if (!VirtualProtectEx(GetCurrentProcess(), origBytes, nBytes, PAGE_EXECUTE_READWRITE, &op)) { //printf ("VirtualProtectEx failed! %d\n", GetLastError()); continue; } // Remove the hook by making the original function jump directly // in the trampoline. intptr_t dest = (intptr_t)(p + sizeof(void *)); #if defined(_M_IX86) *((intptr_t*)(origBytes+1)) = dest - (intptr_t)(origBytes+5); // target displacement #elif defined(_M_X64) *((intptr_t*)(origBytes+2)) = dest; #else #error "Unknown processor type" #endif // restore protection; if this fails we can't really do anything about it VirtualProtectEx(GetCurrentProcess(), origBytes, nBytes, op, &op); } } void Init(const char *modulename, int nhooks = 0) { if (mModule) return; mModule = LoadLibraryExA(modulename, NULL, 0); if (!mModule) { //printf("LoadLibraryEx for '%s' failed\n", modulename); return; } int hooksPerPage = 4096 / kHookSize; if (nhooks == 0) nhooks = hooksPerPage; mMaxHooks = nhooks + (hooksPerPage % nhooks); mHookPage = (byteptr_t) VirtualAllocEx(GetCurrentProcess(), NULL, mMaxHooks * kHookSize, MEM_COMMIT | MEM_RESERVE, PAGE_EXECUTE_READWRITE); if (!mHookPage) { mModule = 0; return; } } bool Initialized() { return !!mModule; } void LockHooks() { if (!mModule) return; DWORD op; VirtualProtectEx(GetCurrentProcess(), mHookPage, mMaxHooks * kHookSize, PAGE_EXECUTE_READ, &op); mModule = 0; } bool AddHook(const char *pname, intptr_t hookDest, void **origFunc) { if (!mModule) return false; void *pAddr = (void *) GetProcAddress(mModule, pname); if (!pAddr) { //printf ("GetProcAddress failed\n"); return false; } CreateTrampoline(pAddr, hookDest, origFunc); if (!*origFunc) { //printf ("CreateTrampoline failed\n"); return false; } return true; } protected: const static int kPageSize = 4096; const static int kHookSize = 128; HMODULE mModule; byteptr_t mHookPage; int mMaxHooks; int mCurHooks; void CreateTrampoline(void *origFunction, intptr_t dest, void **outTramp) { *outTramp = NULL; byteptr_t tramp = FindTrampolineSpace(); if (!tramp) return; byteptr_t origBytes = (byteptr_t) origFunction; int nBytes = 0; int pJmp32 = -1; #if defined(_M_IX86) while (nBytes < 5) { // Understand some simple instructions that might be found in a // prologue; we might need to extend this as necessary. // // Note! If we ever need to understand jump instructions, we'll // need to rewrite the displacement argument. if (origBytes[nBytes] >= 0x88 && origBytes[nBytes] <= 0x8B) { // various MOVs unsigned char b = origBytes[nBytes+1]; if (((b & 0xc0) == 0xc0) || (((b & 0xc0) == 0x00) && ((b & 0x07) != 0x04) && ((b & 0x07) != 0x05))) { // REG=r, R/M=r or REG=r, R/M=[r] nBytes += 2; } else if (((b & 0xc0) == 0x40) && ((b & 0x38) != 0x20)) { // REG=r, R/M=[r + disp8] nBytes += 3; } else { // complex MOV, bail return; } } else if (origBytes[nBytes] == 0x83) { // ADD|ODR|ADC|SBB|AND|SUB|XOR|CMP r/m, imm8 unsigned char b = origBytes[nBytes+1]; if ((b & 0xc0) == 0xc0) { // ADD|ODR|ADC|SBB|AND|SUB|XOR|CMP r, imm8 nBytes += 3; } else { // bail return; } } else if (origBytes[nBytes] == 0x68) { // PUSH with 4-byte operand nBytes += 5; } else if ((origBytes[nBytes] & 0xf0) == 0x50) { // 1-byte PUSH/POP nBytes++; } else if (origBytes[nBytes] == 0x6A) { // PUSH imm8 nBytes += 2; } else if (origBytes[nBytes] == 0xe9) { pJmp32 = nBytes; // jmp 32bit offset nBytes += 5; } else { //printf ("Unknown x86 instruction byte 0x%02x, aborting trampoline\n", origBytes[nBytes]); return; } } #elif defined(_M_X64) while (nBytes < 13) { // if found JMP 32bit offset, next bytes must be NOP if (pJmp32 >= 0) { if (origBytes[nBytes++] != 0x90) return; continue; } if (origBytes[nBytes] == 0x41) { // REX.B nBytes++; if ((origBytes[nBytes] & 0xf0) == 0x50) { // push/pop with Rx register nBytes++; } else if (origBytes[nBytes] >= 0xb8 && origBytes[nBytes] <= 0xbf) { // mov r32, imm32 nBytes += 5; } else { return; } } else if (origBytes[nBytes] == 0x45) { // REX.R & REX.B nBytes++; if (origBytes[nBytes] == 0x33) { // xor r32, r32 nBytes += 2; } else { return; } } else if ((origBytes[nBytes] & 0xfb) == 0x48) { // REX.W | REX.WR nBytes++; if (origBytes[nBytes] == 0x81 && (origBytes[nBytes+1] & 0xf8) == 0xe8) { // sub r, dword nBytes += 6; } else if (origBytes[nBytes] == 0x83 && (origBytes[nBytes+1] & 0xf8) == 0xe8) { // sub r, byte nBytes += 3; } else if (origBytes[nBytes] == 0x83 && (origBytes[nBytes+1] & 0xf8) == 0x60) { // and [r+d], imm8 nBytes += 5; } else if ((origBytes[nBytes] & 0xfd) == 0x89) { // MOV r/m64, r64 | MOV r64, r/m64 if ((origBytes[nBytes+1] & 0xc0) == 0x40) { if ((origBytes[nBytes+1] & 0x7) == 0x04) { // R/M=[SIB+disp8], REG=r64 nBytes += 4; } else { // R/M=[r64+disp8], REG=r64 nBytes += 3; } } else if (((origBytes[nBytes+1] & 0xc0) == 0xc0) || (((origBytes[nBytes+1] & 0xc0) == 0x00) && ((origBytes[nBytes+1] & 0x07) != 0x04) && ((origBytes[nBytes+1] & 0x07) != 0x05))) { // REG=r64, R/M=r64 or REG=r64, R/M=[r64] nBytes += 2; } else { // complex MOV return; } } else { // not support yet! return; } } else if ((origBytes[nBytes] & 0xf0) == 0x50) { // 1-byte push/pop nBytes++; } else if (origBytes[nBytes] == 0x90) { // nop nBytes++; } else if (origBytes[nBytes] == 0xe9) { pJmp32 = nBytes; // jmp 32bit offset nBytes += 5; } else if (origBytes[nBytes] == 0xff) { nBytes++; if ((origBytes[nBytes] & 0xf8) == 0xf0) { // push r64 nBytes++; } else { return; } } else { return; } } #else #error "Unknown processor type" #endif if (nBytes > 100) { //printf ("Too big!"); return; } // We keep the address of the original function in the first bytes of // the trampoline buffer *((void **)tramp) = origFunction; tramp += sizeof(void *); memcpy(tramp, origFunction, nBytes); // OrigFunction+N, the target of the trampoline byteptr_t trampDest = origBytes + nBytes; #if defined(_M_IX86) if (pJmp32 >= 0) { // Jump directly to the original target of the jump instead of jumping to the // original function. // Adjust jump target displacement to jump location in the trampoline. *((intptr_t*)(tramp+pJmp32+1)) += origBytes + pJmp32 - tramp; } else { tramp[nBytes] = 0xE9; // jmp *((intptr_t*)(tramp+nBytes+1)) = (intptr_t)trampDest - (intptr_t)(tramp+nBytes+5); // target displacement } #elif defined(_M_X64) // If JMP32 opcode found, we don't insert to trampoline jump if (pJmp32 >= 0) { // convert JMP 32bit offset to JMP 64bit direct byteptr_t directJmpAddr = origBytes + pJmp32 + 5 + (*((LONG*)(origBytes+pJmp32+1))); // mov r11, address tramp[pJmp32] = 0x49; tramp[pJmp32+1] = 0xbb; *((intptr_t*)(tramp+pJmp32+2)) = (intptr_t)directJmpAddr; // jmp r11 tramp[pJmp32+10] = 0x41; tramp[pJmp32+11] = 0xff; tramp[pJmp32+12] = 0xe3; } else { // mov r11, address tramp[nBytes] = 0x49; tramp[nBytes+1] = 0xbb; *((intptr_t*)(tramp+nBytes+2)) = (intptr_t)trampDest; // jmp r11 tramp[nBytes+10] = 0x41; tramp[nBytes+11] = 0xff; tramp[nBytes+12] = 0xe3; } #endif // The trampoline is now valid. *outTramp = tramp; // ensure we can modify the original code DWORD op; if (!VirtualProtectEx(GetCurrentProcess(), origFunction, nBytes, PAGE_EXECUTE_READWRITE, &op)) { //printf ("VirtualProtectEx failed! %d\n", GetLastError()); return; } #if defined(_M_IX86) // now modify the original bytes origBytes[0] = 0xE9; // jmp *((intptr_t*)(origBytes+1)) = dest - (intptr_t)(origBytes+5); // target displacement #elif defined(_M_X64) // mov r11, address origBytes[0] = 0x49; origBytes[1] = 0xbb; *((intptr_t*)(origBytes+2)) = dest; // jmp r11 origBytes[10] = 0x41; origBytes[11] = 0xff; origBytes[12] = 0xe3; #endif // restore protection; if this fails we can't really do anything about it VirtualProtectEx(GetCurrentProcess(), origFunction, nBytes, op, &op); } byteptr_t FindTrampolineSpace() { if (mCurHooks >= mMaxHooks) return 0; byteptr_t p = mHookPage + mCurHooks*kHookSize; mCurHooks++; return p; } }; } // namespace internal class WindowsDllInterceptor { internal::WindowsDllNopSpacePatcher mNopSpacePatcher; internal::WindowsDllDetourPatcher mDetourPatcher; const char *mModuleName; int mNHooks; public: WindowsDllInterceptor() : mModuleName(NULL) , mNHooks(0) {} void Init(const char *moduleName, int nhooks = 0) { if (mModuleName) { return; } mModuleName = moduleName; mNHooks = nhooks; mNopSpacePatcher.Init(moduleName); // Lazily initialize mDetourPatcher, since it allocates memory and we might // not need it. } void LockHooks() { if (mDetourPatcher.Initialized()) mDetourPatcher.LockHooks(); } bool AddHook(const char *pname, intptr_t hookDest, void **origFunc) { if (!mModuleName) { // printf("AddHook before initialized?\n"); return false; } if (mNopSpacePatcher.AddHook(pname, hookDest, origFunc)) { // printf("nopSpacePatcher succeeded.\n"); return true; } if (!mDetourPatcher.Initialized()) { // printf("Initializing detour patcher.\n"); mDetourPatcher.Init(mModuleName, mNHooks); } bool rv = mDetourPatcher.AddHook(pname, hookDest, origFunc); // printf("detourPatcher returned %d\n", rv); return rv; } }; } // namespace mozilla #endif /* NS_WINDOWS_DLL_INTERCEPTOR_H_ */