mirror of
https://github.com/Artikash/Textractor.git
synced 2024-12-23 17:04:12 +08:00
621 lines
22 KiB
C++
621 lines
22 KiB
C++
// memsearch.cc
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// 4/20/2014 jichi
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#include "memdbg/memsearch.h"
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#include "ithsys/ithsys.h"
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#include <windows.h>
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// Helpers
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namespace { // unnamed
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enum : BYTE { byte_nop = 0x90 };
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enum : BYTE { byte_int3 = 0xcc };
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enum : WORD { word_2int3 = 0xcccc };
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// jichi 4/19/2014: Return the integer that can mask the signature
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// Artikash 8/4/2018: change implementation
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DWORD sigMask(DWORD sig)
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{
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DWORD count = 0;
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while (sig)
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{
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sig >>= 8;
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++count;
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}
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count -= 4;
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count = -count;
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return 0xffffffff >> (count << 3);
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}
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// Modified from ITH findCallOrJmpAbs
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// Example call:
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// 00449063 |. ff15 5cf05300 call dword ptr ds:[<&gdi32.getglyphoutli>; \GetGlyphOutlineA
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enum : WORD {
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word_jmp = 0x25ff // long jump
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, word_call = 0x15ff // far call
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};
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// Modified from ITH findCallOrJmpAbs
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enum : BYTE {
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byte_jmp = 0xe9 // long call
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, byte_call = 0xe8 // near call
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, byte_push_small = 0x6a // push byte operand
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, byte_push_large = 0x68 // push operand > 0xff
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};
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/***
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* Return the absolute address of op. Op takes 1 parameter.
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* DWORD call with absolute address.
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*
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* @param op first half of the operator
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* @param arg1 the function address
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* @param start address
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* @param stop address
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* @param offset search after start address
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* @param range search size
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* @return absolute address or 0
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*/
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DWORD findWordCall(WORD op, DWORD arg1, DWORD start, DWORD stop, DWORD offset, DWORD range)
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{
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typedef WORD optype;
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typedef DWORD argtype;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(DWORD *)(start + i + sizeof(optype));
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if (t > start && t < stop) {
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if (arg1 == *(argtype *)t) // absolute address
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return start + i;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 5
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}
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}
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return 0;
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}
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DWORD findLastWordCall(WORD op, DWORD arg1, DWORD start, DWORD stop, DWORD offset, DWORD range)
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{
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typedef WORD optype;
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typedef DWORD argtype;
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DWORD ret = 0;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(DWORD *)(start + i + sizeof(optype));
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if (t > start && t < stop) {
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if (arg1 == *(argtype *)t) // absolute address
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ret = start + i;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 5
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}
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}
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return ret;
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}
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/***
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* Return the absolute address of op. Op takes 1 address parameter.
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* BYTE call with relative address.
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*
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* @param op first half of the operator
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* @param arg1 the function address
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* @param start address
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* @param offset search after start address
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* @param range search size
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* @return absolute address or 0
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*/
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DWORD findByteCall(BYTE op, DWORD arg1, DWORD start, DWORD offset, DWORD range)
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{
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typedef BYTE optype;
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typedef DWORD argtype;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(argtype *)(start + i + sizeof(optype));
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//if (t > start && t < stop) {
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if (arg1 == t + start + i + sizeof(optype) + sizeof(argtype)) // relative address
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return start + i;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 4
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//}
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}
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return 0;
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}
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DWORD findLastByteCall(BYTE op, DWORD arg1, DWORD start, DWORD offset, DWORD range)
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{
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typedef BYTE optype;
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typedef DWORD argtype;
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DWORD ret = 0;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(argtype *)(start + i + sizeof(optype));
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//if (t > start && t < stop) {
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if (arg1 == t + start + i + sizeof(optype) + sizeof(argtype)) // relative address
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ret = start + i;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 4
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//}
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}
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return ret;
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}
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/***
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* Return the absolute address of op. Op takes 1 parameter.
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*
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* @param op first half of the operator
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* @param arg1 the first operand
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* @param start address
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* @param search range
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* @return absolute address or 0
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*/
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//DWORD findByteOp1(BYTE op, DWORD arg1, DWORD start, DWORD size, DWORD offset)
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//{
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// typedef BYTE optype;
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// typedef DWORD argtype;
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//
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// for (DWORD i = offset; i < size - sizeof(argtype); i++)
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// if (op == *(optype *)(start + i)) {
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// DWORD t = *(DWORD *)(start + i + sizeof(optype));
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// if (t == arg1) {
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// return start + i;
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// else
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// i += sizeof(optype) + sizeof(argtype) - 1; // == 4
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// }
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// }
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// return 0;
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//}
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} // namespace unnamed
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MEMDBG_BEGIN_NAMESPACE
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DWORD findLongJumpAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findWordCall(word_jmp, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findShortJumpAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findByteCall(byte_jmp, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findFarCallAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findWordCall(word_call, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findNearCallAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findByteCall(byte_call, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findLastLongJumpAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findLastWordCall(word_jmp, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findLastShortJumpAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findLastByteCall(byte_jmp, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findLastFarCallAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findLastWordCall(word_call, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findLastNearCallAddress(DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return findLastByteCall(byte_call, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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DWORD findPushDwordAddress(DWORD value, DWORD lowerBound, DWORD upperBound)
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{
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//value = _byteswap_ulong(value); // swap to bigendian
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const BYTE *p = (BYTE *)&value;
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const BYTE bytes[] = {byte_push_large, p[0], p[1], p[2], p[3]};
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return findBytes(bytes, sizeof(bytes), lowerBound, upperBound);
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}
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DWORD findPushByteAddress(BYTE value, DWORD lowerBound, DWORD upperBound)
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{
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const BYTE bytes[] = {byte_push_small, value};
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return findBytes(bytes, sizeof(bytes), lowerBound, upperBound);
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}
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DWORD findCallerAddress(DWORD funcAddr, DWORD sig, DWORD lowerBound, DWORD upperBound, DWORD reverseLength, DWORD offset)
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{
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enum { PatternSize = 4 };
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const DWORD size = upperBound - lowerBound - PatternSize;
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const DWORD fun = (DWORD)funcAddr;
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// Example function call:
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// 00449063 |. ff15 5cf05300 call dword ptr ds:[<&gdi32.getglyphoutli>; \GetGlyphOutlineA
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//WCHAR str[0x40];
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const DWORD mask = sigMask(sig);
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for (DWORD i = offset; i < size; i++)
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if (*(WORD *)(lowerBound + i) == word_call) {
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DWORD t = *(DWORD *)(lowerBound + i + 2); // 2 = sizeof(word)
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if (t >= lowerBound && t <= upperBound - PatternSize) {
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if (*(DWORD *)t == fun)
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//swprintf(str,L"CALL addr: 0x%.8X",lowerBound + i);
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//OutputConsole(str);
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for (DWORD j = i ; j > i - reverseLength; j--)
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if ((*(DWORD *)(lowerBound + j) & mask) == sig) // Fun entry 1.
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//swprintf(str,L"Entry: 0x%.8X",lowerBound + j);
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//OutputConsole(str);
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return lowerBound + j;
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} else
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i += 6;
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}
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//OutputConsole(L"Find call and entry failed.");
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return 0;
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}
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#ifndef MEMDBG_NO_STL
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bool iterFindBytes(const address_fun_t &fun, const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound)
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{
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for (DWORD addr = lowerBound; addr < upperBound - patternSize; addr += patternSize) {
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addr = findBytes(pattern, patternSize, addr, upperBound);
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if (!addr || !fun(addr))
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return false;
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}
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return true;
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}
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bool iterMatchBytes(const address_fun_t &fun, const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound)
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{
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for (DWORD addr = lowerBound; addr < upperBound - patternSize; addr += patternSize) { ;
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addr = findBytes(pattern, patternSize, addr, upperBound);
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if (!addr || !fun(addr))
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return false;
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}
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return true;
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}
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bool iterWordCall(const address_fun_t &callback, WORD op, DWORD arg1, DWORD start, DWORD stop, DWORD offset, DWORD range)
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{
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typedef WORD optype;
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typedef DWORD argtype;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(DWORD *)(start + i + sizeof(optype));
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if (t > start && t < stop) {
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if (arg1 == *(argtype *)t // absolute address
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&& !callback(start + i))
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return false;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 5
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}
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}
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return true;
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}
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bool iterByteCall(const address_fun_t &callback, BYTE op, DWORD arg1, DWORD start, DWORD offset, DWORD range)
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{
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typedef BYTE optype;
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typedef DWORD argtype;
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for (DWORD i = offset; i < offset + range - sizeof(argtype); i++)
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if (op == *(optype *)(start + i)) {
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DWORD t = *(argtype *)(start + i + sizeof(optype));
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//if (t > start && t < stop) {
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if (arg1 == t + start + i + sizeof(optype) + sizeof(argtype) // relative address
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&& !callback(start + i))
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return false;
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//i += sizeof(optype) + sizeof(argtype) - 1; // == 4
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//}
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}
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return true;
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}
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bool iterCallerAddress(const address2_fun_t &callback, DWORD funcAddr, DWORD sig, DWORD lowerBound, DWORD upperBound, DWORD reverseLength, DWORD offset)
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{
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enum { PatternSize = 4 };
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const DWORD size = upperBound - lowerBound - PatternSize;
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const DWORD fun = (DWORD)funcAddr;
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// Example function call:
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// 00449063 |. ff15 5cf05300 call dword ptr ds:[<&gdi32.getglyphoutli>; \GetGlyphOutlineA
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//WCHAR str[0x40];
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const DWORD mask = sigMask(sig);
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for (DWORD i = offset; i < size; i++)
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if (*(WORD *)(lowerBound + i) == word_call) {
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DWORD t = *(DWORD *)(lowerBound + i + 2); // 2 = sizeof(word)
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if (t >= lowerBound && t <= upperBound - PatternSize) {
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if (*(DWORD *)t == fun)
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//swprintf(str,L"CALL addr: 0x%.8X",lowerBound + i);
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//OutputConsole(str);
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for (DWORD j = i ; j > i - reverseLength; j--)
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if ((*(DWORD *)(lowerBound + j) & mask) == sig) {
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if (!callback(lowerBound + j, lowerBound + i))
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return false;
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break;
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}
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} else
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i += 6;
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}
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//OutputConsole(L"Find call and entry failed.");
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return true;
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}
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bool iterCallerAddressAfterInt3(const address2_fun_t &fun, dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
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{
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auto callback = [&fun](dword_t addr, dword_t call) -> bool {
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while (byte_int3 == *(BYTE *)++addr); // skip leading int3
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return fun(addr, call);
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};
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return iterCallerAddress(callback, funcAddr, word_2int3, lowerBound, upperBound, callerSearchSize, offset);
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}
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bool iterUniqueCallerAddress(const address_fun_t &fun, dword_t funcAddr, dword_t funcInst, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
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{
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dword_t prevAddr = 0;
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auto callback = [&fun, &prevAddr](dword_t addr, dword_t) -> bool {
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if (prevAddr == addr)
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return true;
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prevAddr = addr;
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return fun(addr);
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};
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return iterCallerAddress(callback, funcAddr, funcInst, lowerBound, upperBound, callerSearchSize, offset);
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}
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bool iterUniqueCallerAddressAfterInt3(const address_fun_t &fun, dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
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{
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auto callback = [&fun](dword_t addr) -> bool {
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while (byte_int3 == *(BYTE *)++addr); // skip leading int3
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return fun(addr);
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};
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return iterUniqueCallerAddress(callback, funcAddr, word_2int3, lowerBound, upperBound, callerSearchSize, offset);
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}
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bool iterLongJumpAddress(const address_fun_t &fun, DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return iterWordCall(fun, word_jmp, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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bool iterShortJumpAddress(const address_fun_t &fun, DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return iterByteCall(fun, byte_jmp, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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bool iterFarCallAddress(const address_fun_t &fun, DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return iterWordCall(fun, word_call, funcAddr, lowerBound, upperBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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bool iterNearCallAddress(const address_fun_t &fun, DWORD funcAddr, DWORD lowerBound, DWORD upperBound, DWORD offset, DWORD range)
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{ return iterByteCall(fun, byte_call, funcAddr, lowerBound, offset, range ? range : (upperBound - lowerBound - offset)); }
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bool iterAlignedNearCallerAddress(const address_fun_t &fun, dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
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{
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dword_t prevAddr = 0;
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auto callback = [&fun, &prevAddr, callerSearchSize](dword_t addr) -> bool {
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if ((addr = findEnclosingAlignedFunction(addr, callerSearchSize))
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&& prevAddr != addr) {
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prevAddr = addr;
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return fun(addr);
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}
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return true;
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};
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return iterNearCallAddress(callback, funcAddr, lowerBound, upperBound, offset);
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}
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#endif // MEMDBG_NO_STL
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DWORD findMultiCallerAddress(DWORD funcAddr, const DWORD sigs[], DWORD sigCount, DWORD lowerBound, DWORD upperBound, DWORD reverseLength, DWORD offset)
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{
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enum { PatternSize = 4 };
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const DWORD size = upperBound - lowerBound - PatternSize;
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const DWORD fun = (DWORD)funcAddr;
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// Example function call:
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// 00449063 |. ff15 5cf05300 call dword ptr ds:[<&gdi32.getglyphoutli>; \GetGlyphOutlineA
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//WCHAR str[0x40];
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enum { MaxSigCount = 0x10 }; // mast be larger than maximum sigCount
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DWORD masks[MaxSigCount];
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for (DWORD k = 0; k < sigCount; k++)
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masks[k] = sigMask(sigs[k]);
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for (DWORD i = offset; i < size; i++)
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if (*(WORD *)(lowerBound + i) == word_call) {
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DWORD t = *(DWORD *)(lowerBound + i + 2); // 2 = sizeof(word)
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if (t >= lowerBound && t <= upperBound - PatternSize) {
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if (*(DWORD *)t == fun)
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//swprintf(str,L"CALL addr: 0x%.8X",lowerBound + i);
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//OutputConsole(str);
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for (DWORD j = i ; j > i - reverseLength; j--) {
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DWORD ret = lowerBound + j,
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inst = *(DWORD *)ret;
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for (DWORD k = 0; k < sigCount; k++)
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if ((inst & masks[k]) == sigs[k]) // Fun entry 1.
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//swprintf(str,L"Entry: 0x%.8X",lowerBound + j);
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//OutputConsole(str);
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return ret;
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}
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} else
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i += 6;
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}
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//OutputConsole(L"Find call and entry failed.");
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return 0;
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}
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DWORD findLastCallerAddress(DWORD funcAddr, DWORD sig, DWORD lowerBound, DWORD upperBound, DWORD reverseLength, DWORD offset)
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{
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enum { PatternSize = 4 };
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const DWORD size = upperBound - lowerBound - PatternSize;
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const DWORD fun = (DWORD)funcAddr;
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//WCHAR str[0x40];
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DWORD ret = 0;
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const DWORD mask = sigMask(sig);
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for (DWORD i = offset; i < size; i++)
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if (*(WORD *)(lowerBound + i) == word_call) {
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DWORD t = *(DWORD *)(lowerBound + i + 2);
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if (t >= lowerBound && t <= upperBound - PatternSize) {
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if (*(DWORD *)t == fun)
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//swprintf(str,L"CALL addr: 0x%.8X",lowerBound + i);
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//OutputConsole(str);
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for (DWORD j = i ; j > i - reverseLength; j--)
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if ((*(DWORD *)(lowerBound + j) & mask) == sig) { // Fun entry 1.
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//swprintf(str,L"Entry: 0x%.8X",lowerBound + j);
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//OutputConsole(str);
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ret = lowerBound + j;
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break;
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}
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} else
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i += 6;
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}
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//OutputConsole(L"Find call and entry failed.");
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return ret;
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}
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DWORD findCallerAddressAfterInt3(dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
|
|
{
|
|
DWORD addr = findCallerAddress(funcAddr, word_2int3, lowerBound, upperBound, callerSearchSize, offset);
|
|
if (addr)
|
|
while (byte_int3 == *(BYTE *)++addr);
|
|
return addr;
|
|
}
|
|
|
|
DWORD findLastCallerAddressAfterInt3(dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
|
|
{
|
|
DWORD addr = findLastCallerAddress(funcAddr, word_2int3, lowerBound, upperBound, callerSearchSize, offset);
|
|
if (addr)
|
|
while (byte_int3 == *(BYTE *)++addr);
|
|
return addr;
|
|
}
|
|
|
|
DWORD findAlignedNearCallerAddress(dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
|
|
{
|
|
if (DWORD addr = findNearCallAddress(funcAddr, lowerBound, upperBound, offset))
|
|
return findEnclosingAlignedFunction(addr, callerSearchSize);
|
|
return 0;
|
|
}
|
|
|
|
DWORD findLastAlignedNearCallerAddress(dword_t funcAddr, dword_t lowerBound, dword_t upperBound, dword_t callerSearchSize, dword_t offset)
|
|
{
|
|
if (DWORD addr = findLastCallerAddressAfterInt3(funcAddr, lowerBound, upperBound, callerSearchSize, offset))
|
|
return findEnclosingAlignedFunction(addr, callerSearchSize);
|
|
return 0;
|
|
}
|
|
|
|
DWORD findEnclosingAlignedFunction(DWORD start, DWORD back_range)
|
|
{
|
|
start &= ~0xf;
|
|
for (DWORD i = start, j = start - back_range; i > j; i-=0x10) {
|
|
DWORD k = *(DWORD *)(i-4);
|
|
if (k == 0xcccccccc
|
|
|| k == 0x90909090
|
|
|| k == 0xccccccc3
|
|
|| k == 0x909090c3
|
|
)
|
|
return i;
|
|
DWORD t = k & 0xff0000ff;
|
|
if (t == 0xcc0000c2 || t == 0x900000c2)
|
|
return i;
|
|
k >>= 8;
|
|
if (k == 0xccccc3 || k == 0x9090c3)
|
|
return i;
|
|
t = k & 0xff;
|
|
if (t == 0xc2)
|
|
return i;
|
|
k >>= 8;
|
|
if (k == 0xccc3 || k == 0x90c3)
|
|
return i;
|
|
k >>= 8;
|
|
if (k == 0xc3)
|
|
return i;
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
DWORD findEnclosingFunctionAfterDword(DWORD sig, DWORD start, DWORD back_range, DWORD step)
|
|
{
|
|
start &= ~0xf;
|
|
for (DWORD i = start, j = start - back_range; i > j; i-=step) { // 0x10 is aligned
|
|
DWORD k = *(DWORD *)(i-4); // 4 = sizeof(DWORD)
|
|
if (k == sig)
|
|
return i;
|
|
}
|
|
return 0;
|
|
}
|
|
|
|
DWORD findEnclosingFunctionBeforeDword(DWORD sig, DWORD start, DWORD back_range,DWORD step)
|
|
{
|
|
DWORD addr = findEnclosingFunctionAfterDword(sig, start, back_range, step);
|
|
if (addr)
|
|
addr -= sizeof(DWORD);
|
|
return addr;
|
|
}
|
|
|
|
DWORD findEnclosingFunctionAfterInt3(DWORD start, DWORD back_range, DWORD step)
|
|
{ return findEnclosingFunctionAfterDword(0xcccccccc, start, back_range, step); }
|
|
|
|
DWORD findEnclosingFunctionAfterNop(DWORD start, DWORD back_range, DWORD step)
|
|
{ return findEnclosingFunctionAfterDword(0x90909090,start, back_range, step); }
|
|
|
|
DWORD findBytes(const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound)
|
|
{
|
|
DWORD reladdr = SearchPattern(lowerBound, upperBound - lowerBound, pattern, patternSize);
|
|
return reladdr ? lowerBound + reladdr : 0;
|
|
}
|
|
|
|
//DWORD reverseFindBytes(const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound)
|
|
//{
|
|
// DWORD reladdr = reverseSearchPattern(lowerBound, upperBound - lowerBound, pattern, patternSize);
|
|
// return reladdr ? lowerBound + reladdr : 0;
|
|
//}
|
|
|
|
#if 0 // not used
|
|
DWORD findBytesInPages(const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound, SearchType search)
|
|
{
|
|
//enum { MinPageSize = 4 * 1024 }; // 4k
|
|
DWORD ret = 0;
|
|
DWORD start = lowerBound,
|
|
stop = start;
|
|
MEMORY_BASIC_INFORMATION mbi = {};
|
|
|
|
//lowerBound = 0x10000000;
|
|
//upperBound = 0x14000000;
|
|
//SIZE_T ok = ::VirtualQuery((LPCVOID)lowerBound, &mbi, sizeof(mbi));
|
|
//ITH_GROWL_DWORD7(1, start, stop, mbi.RegionSize, mbi.Protect, mbi.Type, mbi.State);
|
|
//return findBytes(pattern, patternSize, lowerBound, upperBound, wildcard);
|
|
while (stop < upperBound) {
|
|
SIZE_T ok = ::VirtualQuery((LPCVOID)start, &mbi, sizeof(mbi));
|
|
if (!mbi.RegionSize)
|
|
break;
|
|
// Only visit readable and committed region
|
|
// Protect could be zero if not allowed to query
|
|
if (!ok || !mbi.Protect || mbi.Protect&PAGE_NOACCESS) {
|
|
if (stop > start && (ret = findBytes(pattern, patternSize, lowerBound, upperBound)))
|
|
return ret;
|
|
if (search != SearchAll)
|
|
return 0;
|
|
stop += mbi.RegionSize;
|
|
start = stop;
|
|
} else
|
|
stop += mbi.RegionSize;
|
|
}
|
|
if (stop > start)
|
|
ret = findBytes(pattern, patternSize, start, min(upperBound, stop));
|
|
return ret;
|
|
}
|
|
|
|
DWORD matchBytesInPages(const void *pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound, BYTE wildcard, SearchType search)
|
|
{
|
|
//enum { MinPageSize = 4 * 1024 }; // 4k
|
|
DWORD ret = 0;
|
|
DWORD start = lowerBound,
|
|
stop = start;
|
|
MEMORY_BASIC_INFORMATION mbi = {};
|
|
|
|
//lowerBound = 0x10000000;
|
|
//upperBound = 0x14000000;
|
|
//SIZE_T ok = ::VirtualQuery((LPCVOID)lowerBound, &mbi, sizeof(mbi));
|
|
//ITH_GROWL_DWORD7(1, start, stop, mbi.RegionSize, mbi.Protect, mbi.Type, mbi.State);
|
|
//return findBytes(pattern, patternSize, lowerBound, upperBound, wildcard);
|
|
while (stop < upperBound) {
|
|
SIZE_T ok = ::VirtualQuery((LPCVOID)start, &mbi, sizeof(mbi));
|
|
if (!mbi.RegionSize)
|
|
break;
|
|
// Only visit readable and committed region
|
|
// Protect could be zero if not allowed to query
|
|
if (!ok || !mbi.Protect || mbi.Protect&PAGE_NOACCESS) {
|
|
if (stop > start && (ret = findBytes(pattern, patternSize, lowerBound, upperBound, wildcard)))
|
|
return ret;
|
|
if (search != SearchAll)
|
|
return 0;
|
|
stop += mbi.RegionSize;
|
|
start = stop;
|
|
} else
|
|
stop += mbi.RegionSize;
|
|
}
|
|
if (stop > start)
|
|
ret = findBytes(pattern, patternSize, start, min(upperBound, stop), wildcard);
|
|
return ret;
|
|
}
|
|
|
|
#endif // 0
|
|
|
|
MEMDBG_END_NAMESPACE
|
|
|
|
// EOF
|