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hh_scanner.cpp
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hh_scanner.cpp
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#include "hh_scanner.h"
#include <iostream>
#include <fstream>
#include <sstream>
#include <time.h>
#include <tlhelp32.h>
#include "util/suspend.h"
#include "util/util.h"
#include "util/time_util.h"
#include "term_util.h"
using namespace pesieve;
namespace process_util {
bool is_wow_64(HANDLE process)
{
FARPROC procPtr = GetProcAddress(GetModuleHandleA("kernel32"), "IsWow64Process");
if (!procPtr) {
//this system does not have a function IsWow64Process
return false;
}
BOOL(WINAPI * is_process_wow64)(IN HANDLE, OUT PBOOL)
= (BOOL(WINAPI*)(IN HANDLE, OUT PBOOL))procPtr;
BOOL isCurrWow64 = FALSE;
if (!is_process_wow64(process, &isCurrWow64)) {
return false;
}
return isCurrWow64 ? true : false;
}
bool get_process_info(DWORD processID, bool &isWow64, char* szProcessName, DWORD processNameSize)
{
HANDLE hProcess = OpenProcess(PROCESS_QUERY_LIMITED_INFORMATION | PROCESS_VM_READ, FALSE, processID);
if (!hProcess) {
return false;
}
bool is_ok = true;
if (szProcessName && processNameSize > 0) {
DWORD cbNeeded = 0;
HMODULE hMod = nullptr;
memset(szProcessName, 0, processNameSize);
if (EnumProcessModules(hProcess, &hMod, sizeof(hMod), &cbNeeded)) {
GetModuleBaseNameA(hProcess, hMod, szProcessName, processNameSize);
} else { is_ok = false; }
}
isWow64 = is_wow_64(hProcess);
CloseHandle(hProcess);
return is_ok;
}
size_t suspend_suspicious(std::vector<DWORD> &suspicious_pids)
{
size_t done = 0;
std::vector<DWORD>::iterator itr;
for (itr = suspicious_pids.begin(); itr != suspicious_pids.end(); ++itr) {
DWORD pid = *itr;
if (!suspend_process(pid)) {
std::cerr << "Could not suspend the process. PID = " << pid << std::endl;
}
}
return done;
}
size_t kill_suspicious(std::vector<DWORD> &suspicious_pids)
{
size_t killed = 0;
std::vector<DWORD>::iterator itr;
for (itr = suspicious_pids.begin(); itr != suspicious_pids.end(); ++itr) {
DWORD pid = *itr;
HANDLE hProcess = OpenProcess(PROCESS_TERMINATE, FALSE, pid);
if (!hProcess) {
continue;
}
if (TerminateProcess(hProcess, 0)) {
killed++;
}
else {
std::cerr << "Could not terminate the process. PID = " << pid << std::endl;
}
CloseHandle(hProcess);
}
return killed;
}
}; // namespace process_util
namespace files_util {
std::string join_path(const std::string &baseDir, const std::string &subpath)
{
std::stringstream stream;
if (baseDir.length() > 0) {
stream << baseDir;
stream << "\\";
}
stream << subpath;
return stream.str();
}
std::string make_dir_name(std::string baseDir, time_t timestamp)
{
std::stringstream stream;
if (baseDir.length() > 0) {
stream << baseDir;
stream << "\\";
}
stream << "scan_";
stream << timestamp;
return stream.str();
}
bool set_output_dir(t_params &args, const std::string &new_dir)
{
const size_t new_len = new_dir.length();
if (!new_len) return false;
const char* new_dir_cstr = new_dir.c_str();
size_t buffer_len = sizeof(args.output_dir) - 1; //leave one char for '\0'
if (new_len > buffer_len) return false;
memset(args.output_dir, 0, buffer_len);
memcpy(args.output_dir, new_dir_cstr, new_len);
return true;
}
bool write_to_file(const std::string &report_path, const std::string &summary_str, const bool append)
{
std::ofstream final_report;
if (append) {
final_report.open(report_path, std::ios_base::app);
}
else {
final_report.open(report_path);
}
if (final_report.is_open()) {
final_report << summary_str;
final_report.close();
return true;
}
return false;
}
}; // namespace files_util
namespace util {
bool is_searched_name(const char* processName, std::set<std::string> &names_list)
{
std::set<std::string>::iterator itr;
for (itr = names_list.begin(); itr != names_list.end(); ++itr) {
const char* searchedName = itr->c_str();
if (_stricmp(processName, searchedName) == 0) {
return true;
}
}
return false;
}
bool is_searched_pid(long pid, std::set<std::string> &pids_list)
{
std::set<std::string>::iterator itr;
for (itr = pids_list.begin(); itr != pids_list.end(); ++itr) {
const char* sPid = itr->c_str();
long number = get_number(sPid);
if (pid == number) {
return true;
}
}
return false;
}
std::string list_to_str(std::set<std::string> &list)
{
std::stringstream stream;
std::set<std::string>::iterator itr;
for (itr = list.begin(); itr != list.end(); ) {
const std::string &next_str = *itr;
stream << next_str;
++itr;
if (itr != list.end()) {
stream << ", ";
}
}
return stream.str();
}
}; //namespace util
//----
HHScanner::HHScanner(t_hh_params &_args)
: hh_args(_args)
{
initTime = time(NULL);
isScannerWow64 = process_util::is_wow_64(GetCurrentProcess());
initScanData();
}
void HHScanner::initScanData()
{
std::string delim(1, PARAM_LIST_SEPARATOR);
strip_to_list(hh_args.pname, delim, names_list);
strip_to_list(hh_args.pids, delim, pids_list);
strip_to_list(hh_args.pnames_ignored, delim, ignored_names_list);
}
bool HHScanner::isScannerCompatibile()
{
#ifndef _WIN64
if (process_util::is_wow_64(GetCurrentProcess())) {
return false;
}
#endif
return true;
}
void HHScanner::initOutDir(time_t scan_time, pesieve::t_params &pesieve_args)
{
//set unique path
if (hh_args.unique_dir) {
this->outDir = files_util::make_dir_name(hh_args.out_dir, scan_time);
files_util::set_output_dir(pesieve_args, outDir);
}
else {
this->outDir = hh_args.out_dir;
files_util::set_output_dir(pesieve_args, hh_args.out_dir);
}
}
void HHScanner::printScanRoundStats(size_t found, size_t ignored_count)
{
if (!found && hh_args.pname.length() > 0) {
if (!hh_args.quiet) {
std::cout << "[WARNING] No process from the list: {" << util::list_to_str(names_list) << "} was found!" << std::endl;
}
}
if (ignored_count > 0) {
if (!hh_args.quiet) {
std::string info1 = (ignored_count > 1) ? "processes" : "process";
std::string info2 = (ignored_count > 1) ? "were" : "was";
std::cout << "[INFO] " << std::dec << ignored_count << " " << info1 << " from the list : {" << util::list_to_str(ignored_names_list) << "} " << info2 << " ignored!" << std::endl;
}
}
}
size_t HHScanner::scanProcesses(HHScanReport &my_report)
{
size_t count = 0;
size_t scanned_count = 0;
size_t ignored_count = 0;
HANDLE hProcessSnapShot = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
if (hProcessSnapShot == INVALID_HANDLE_VALUE) {
const DWORD err = GetLastError();
std::cerr << "[-] Could not create modules snapshot. Error: " << std::dec << err << std::endl;
return 0;
}
PROCESSENTRY32 pe32 = { 0 };
pe32.dwSize = sizeof(PROCESSENTRY32);
//check all modules in the process, including the main module:
if (!Process32First(hProcessSnapShot, &pe32)) {
CloseHandle(hProcessSnapShot);
std::cerr << "[-] Could not enumerate processes. Error: " << GetLastError() << std::endl;
return 0;
}
do {
// scan callback
const t_single_scan_status stat = scanNextProcess(pe32.th32ProcessID, pe32.szExeFile, my_report);
if (stat == SSCAN_IGNORED) ignored_count++;
if (stat == SSCAN_SUCCESS) scanned_count++;
count++;
} while (Process32Next(hProcessSnapShot, &pe32));
//close the handles
CloseHandle(hProcessSnapShot);
printScanRoundStats(scanned_count, ignored_count);
return count;
}
void HHScanner::printSingleReport(pesieve::t_report& report)
{
if (hh_args.quiet) return;
if (report.errors == pesieve::ERROR_SCAN_FAILURE) {
WORD old_color = set_color(MAKE_COLOR(SILVER, DARK_RED));
if (report.errors == pesieve::ERROR_SCAN_FAILURE) {
std::cout << "[!] Could not access: " << std::dec << report.pid;
}
set_color(old_color);
std::cout << std::endl;
return;
}
#ifndef _WIN64
if (report.is_64bit) {
WORD old_color = set_color(MAKE_COLOR(SILVER, DARK_MAGENTA));
std::cout << "[!] Partial scan: " << std::dec << report.pid << " : " << (report.is_64bit ? 64 : 32) << "b";
set_color(old_color);
std::cout << std::endl;
}
#endif
if (report.suspicious) {
int color = YELLOW;
if (report.replaced || report.implanted) {
color = RED;
}
if (report.is_managed) {
color = MAKE_COLOR(color, DARK_BLUE);
}
WORD old_color = set_color(color);
std::cout << ">> Detected: " << std::dec << report.pid;
if (report.is_managed) {
std::cout << " [.NET]";
}
set_color(old_color);
std::cout << std::endl;
}
}
t_single_scan_status HHScanner::scanNextProcess(DWORD pid, char* exe_file, HHScanReport &my_report)
{
bool found = false;
bool is_process_wow64 = false;
process_util::get_process_info(pid, is_process_wow64, nullptr, 0);
const bool check_time = (hh_args.ptimes != TIME_UNDEFINED) ? true : false;
#ifdef _DEBUG
if (check_time) {
std::cout << "Init Time: " << std::hex << this->initTime << std::endl;
}
#endif
// filter by the time
time_t time_diff = 0;
if (check_time) { // if the parameter was set
const time_t process_time = util::process_start_time(pid);
if (process_time == INVALID_TIME) return SSCAN_ERROR0; //skip process if cannot retrieve the time
// if HH was started after the process
if (this->initTime > process_time) {
time_diff = this->initTime - process_time;
if (time_diff > hh_args.ptimes) return SSCAN_NOT_MATCH; // skip process created before the supplied time
}
}
//filter by the names/PIDs
if (names_list.size() || pids_list.size()) {
if (!util::is_searched_name(exe_file, names_list) && !util::is_searched_pid(pid, pids_list)) {
//it is not the searched process, so skip it
return SSCAN_NOT_MATCH;
}
found = true;
}
if (!found && ignored_names_list.size()) {
if (util::is_searched_name(exe_file, ignored_names_list)) {
return SSCAN_IGNORED;
}
}
if (!hh_args.quiet) {
std::cout << ">> Scanning PID: " << std::dec << pid;
std::cout << " : " << exe_file;
if (is_process_wow64) {
std::cout << " : 32b";
}
if (check_time) {
std::cout << " : " << time_diff << "s";
}
std::cout << std::endl;
}
//perform the scan:
pesieve::t_params &pesieve_args = this->hh_args.pesieve_args;
pesieve_args.pid = pid;
pesieve::t_report report = PESieve_scan(pesieve_args);
my_report.appendReport(report, exe_file);
printSingleReport(report);
if (report.scanned > 0) {
return SSCAN_SUCCESS;
}
return SSCAN_ERROR1;
}
HHScanReport* HHScanner::scan()
{
const time_t scan_start = time(NULL); //start time of the current scan
pesieve::t_params &pesieve_args = this->hh_args.pesieve_args;
initOutDir(scan_start, pesieve_args);
HHScanReport *my_report = new HHScanReport(GetTickCount(), scan_start);
scanProcesses(*my_report);
my_report->setEndTick(GetTickCount(), time(NULL));
return my_report;
}
void HHScanner::summarizeScan(HHScanReport *hh_report)
{
if (!hh_report) return;
std::string summary_str;
if (!this->hh_args.json_output) {
summary_str = hh_report->toString();
std::cout << summary_str;
}
else {
summary_str = hh_report->toJSON(this->hh_args);
std::cout << summary_str;
}
if (hh_args.pesieve_args.out_filter != OUT_NO_DIR) {
//file the same report into the directory with dumps:
if (hh_report->suspicious.size()) {
std::string report_path = files_util::join_path(this->outDir, "summary.json");
files_util::write_to_file(report_path, hh_report->toJSON(this->hh_args), false);
}
}
if (hh_args.log) {
files_util::write_to_file("hollows_hunter.log", summary_str, true);
}
if (hh_args.suspend_suspicious) {
process_util::suspend_suspicious(hh_report->suspicious);
}
if (hh_args.kill_suspicious) {
process_util::kill_suspicious(hh_report->suspicious);
}
}