305 lines
9.1 KiB
C++
305 lines
9.1 KiB
C++
#include "sigscan.h"
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#include <format>
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#include <fstream>
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#include <sstream>
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#include <vector>
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#include "util/logging.h"
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#include "util/memutils.h"
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#include "util/utils.h"
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intptr_t find_pattern(std::vector<uint8_t> &data, intptr_t base, const uint8_t *pattern,
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const char *mask, intptr_t offset, intptr_t usage)
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{
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// build pattern
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std::vector<std::pair<uint8_t, bool>> pattern_vector;
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size_t mask_size = strlen(mask);
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for (size_t i = 0; i < mask_size; i++) {
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pattern_vector.emplace_back(pattern[i], mask[i] == 'X');
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}
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// the scan loop
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auto data_begin = data.begin();
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auto cur_usage = 0;
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while (true) {
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// search for the pattern
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auto search_result = std::search(data_begin, data.end(), pattern_vector.begin(), pattern_vector.end(),
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[&](uint8_t c, std::pair<uint8_t, bool> pat) {
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return (!pat.second) || c == pat.first;
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});
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// check for a match
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if (search_result != data.end()) {
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// return the result if we hit the usage count
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if (cur_usage == usage) {
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return (std::distance(data.begin(), search_result) + base) + offset;
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}
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// increment the found count
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++cur_usage;
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data_begin = ++search_result;
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} else {
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break;
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}
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}
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return 0;
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}
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intptr_t find_pattern(HMODULE module, const uint8_t *pattern, const char *mask,
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intptr_t offset, intptr_t result_usage)
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{
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// get module information
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MODULEINFO module_info {};
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if (!GetModuleInformation(GetCurrentProcess(), module, &module_info, sizeof(module_info))) {
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return 0;
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}
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auto size = static_cast<size_t>(module_info.SizeOfImage);
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try {
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// copy data
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std::vector<uint8_t> data(size);
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memcpy(data.data(), module_info.lpBaseOfDll, size);
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// find pattern
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return find_pattern(
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data,
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reinterpret_cast<intptr_t>(module_info.lpBaseOfDll),
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pattern,
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mask,
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offset,
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result_usage);
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} catch (const std::bad_alloc &e) {
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log_warning("sigscan", "failed to allocate buffer of size {} for image data", size);
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return false;
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}
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}
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intptr_t find_pattern(HMODULE module, const std::string &pattern, const char *mask,
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intptr_t offset, intptr_t result_usage)
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{
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std::string pattern_str(pattern);
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auto pattern_bin = std::make_unique<uint8_t[]>(pattern.length() / 2);
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if (!hex2bin(pattern_str.c_str(), pattern_bin.get())) {
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log_warning("sigscan", "hex2bin failed");
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return false;
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}
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return find_pattern(module, pattern_bin.get(), mask, offset, result_usage);
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}
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///
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intptr_t find_pattern_from(std::vector<uint8_t> &data, intptr_t base, const uint8_t *pattern,
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const char *mask, intptr_t offset, intptr_t usage, intptr_t start_from)
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{
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// build pattern
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std::vector<std::pair<uint8_t, bool>> pattern_vector;
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size_t mask_size = strlen(mask);
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for (size_t i = 0; i < mask_size; i++) {
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pattern_vector.emplace_back(pattern[i], mask[i] == 'X');
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}
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// the scan loop
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auto data_begin = data.begin();
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std::advance(data_begin, start_from);
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auto cur_usage = 0;
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while (true) {
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// search for the pattern
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auto search_result = std::search(data_begin, data.end(), pattern_vector.begin(), pattern_vector.end(),
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[&](uint8_t c, std::pair<uint8_t, bool> pat) {
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return (!pat.second) || c == pat.first;
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});
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// check for a match
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if (search_result != data.end()) {
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// return the result if we hit the usage count
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if (cur_usage == usage) {
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return (std::distance(data.begin(), search_result) + base) + offset;
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}
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// increment the found count
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++cur_usage;
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data_begin = ++search_result;
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} else {
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break;
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}
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}
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return 0;
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}
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intptr_t find_pattern_from(HMODULE module, const uint8_t *pattern, const char *mask,
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intptr_t offset, intptr_t result_usage, intptr_t start_from)
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{
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// get module information
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MODULEINFO module_info {};
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if (!GetModuleInformation(GetCurrentProcess(), module, &module_info, sizeof(module_info))) {
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return 0;
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}
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auto size = static_cast<size_t>(module_info.SizeOfImage);
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try {
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// copy data
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std::vector<uint8_t> data(size);
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memcpy(data.data(), module_info.lpBaseOfDll, size);
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// find pattern
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return find_pattern_from(
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data,
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reinterpret_cast<intptr_t>(module_info.lpBaseOfDll),
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pattern,
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mask,
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offset,
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result_usage,
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start_from);
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} catch (const std::bad_alloc &e) {
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log_warning("sigscan", "failed to allocate buffer of size {} for image data", size);
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return false;
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}
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}
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intptr_t find_pattern_from(HMODULE module, const std::string &pattern, const char *mask,
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intptr_t offset, intptr_t result_usage, intptr_t start_from)
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{
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std::string pattern_str(pattern);
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auto pattern_bin = std::make_unique<uint8_t[]>(pattern.length() / 2);
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if (!hex2bin(pattern_str.c_str(), pattern_bin.get())) {
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log_warning("sigscan", "hex2bin failed");
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return false;
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}
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return find_pattern_from(module, pattern_bin.get(), mask, offset, result_usage, start_from);
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}
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intptr_t replace_pattern(HMODULE module, const uint8_t *pattern, const char *mask, intptr_t offset,
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intptr_t usage, const uint8_t *replace_data, const char *replace_mask)
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{
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// find result
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auto result = find_pattern(module, pattern, mask, offset, usage);
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// check result
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if (!result) {
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return 0;
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}
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// unprotect memory
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auto replace_mask_len = strlen(replace_mask);
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memutils::VProtectGuard guard((void *) result, replace_mask_len);
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// replace data
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for (size_t i = 0; i < replace_mask_len; i++) {
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if (replace_mask[i] == 'X') {
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*((unsigned char *) (result + i)) = replace_data[i];
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}
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}
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// success
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return result;
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}
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intptr_t replace_pattern(HMODULE module, const std::string &signature,
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const std::string &replacement, intptr_t offset, intptr_t usage)
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{
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// build pattern
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std::string pattern_str(signature);
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strreplace(pattern_str, "??", "00");
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auto pattern_bin = std::make_unique<uint8_t[]>(signature.length() / 2);
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if (!hex2bin(pattern_str.c_str(), pattern_bin.get())) {
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return false;
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}
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// build signature mask
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std::ostringstream signature_mask;
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for (size_t i = 0; i < signature.length(); i += 2) {
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if (signature[i] == '?') {
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if (signature[i + 1] == '?') {
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signature_mask << '?';
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} else {
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return false;
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}
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} else {
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signature_mask << 'X';
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}
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}
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// build replace data
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std::string replace_data_str(replacement);
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strreplace(replace_data_str, "??", "00");
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auto replace_data_bin = std::make_unique<uint8_t[]>(replacement.length() / 2);
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if (!hex2bin(replace_data_str.c_str(), replace_data_bin.get())) {
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return false;
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}
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// build replace mask
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std::ostringstream replace_mask;
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for (size_t i = 0; i < replacement.length(); i += 2) {
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if (replacement[i] == '?') {
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if (replacement[i + 1] == '?') {
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replace_mask << '?';
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} else {
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return false;
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}
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} else {
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replace_mask << 'X';
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}
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}
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// do the replacement
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return replace_pattern(
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module,
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pattern_bin.get(),
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signature_mask.str().c_str(),
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offset,
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usage,
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replace_data_bin.get(),
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replace_mask.str().c_str()
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);
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}
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bool get_pe_identifier(const std::filesystem::path& dll_path, uint32_t* time_date_stamp, uint32_t* address_of_entry_point) {
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std::ifstream file(dll_path, std::ios::binary);
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if (!file) {
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log_warning("sigscan", "Failed to open file: {}", dll_path.string().c_str());
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return false;
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}
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// read the DOS header
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IMAGE_DOS_HEADER dos_header;
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file.read(reinterpret_cast<char*>(&dos_header), sizeof(dos_header));
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if (dos_header.e_magic != IMAGE_DOS_SIGNATURE) {
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log_warning("sigscan", "Invalid DOS signature: {}", dll_path.string().c_str());
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return false;
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}
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// move to the NT headers
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file.seekg(dos_header.e_lfanew);
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// read the NT headers
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IMAGE_NT_HEADERS nt_headers;
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file.read(reinterpret_cast<char*>(&nt_headers), sizeof(nt_headers));
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if (nt_headers.Signature != IMAGE_NT_SIGNATURE) {
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log_warning("sigscan", "Invalid NT signature: {}", dll_path.string().c_str());
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return false;
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}
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// get the TimeDateStamp and AddressOfEntryPoint from the file header
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*time_date_stamp = nt_headers.FileHeader.TimeDateStamp;
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*address_of_entry_point = nt_headers.OptionalHeader.AddressOfEntryPoint;
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return true;
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}
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