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hook_sleep.c
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hook_sleep.c
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/*
Cuckoo Sandbox - Automated Malware Analysis
Copyright (C) 2010-2015 Cuckoo Sandbox Developers, Optiv, Inc. ([email protected])
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdio.h>
#include "ntapi.h"
#include "hooking.h"
#include "log.h"
#include "pipe.h"
#include "config.h"
#include "misc.h"
// only skip Sleep()'s the first five seconds
#define MAX_SLEEP_SKIP_DIFF 5000
// skipping sleep calls is done while this variable is set to true
static int sleep_skip_active = 1;
// the amount of time skipped, in 100-nanosecond
LARGE_INTEGER time_skipped;
static LARGE_INTEGER time_start;
static int num_skipped = 0;
static int num_small = 0;
static int num_msg_small = 0;
static int num_wait_skipped = 0;
static int num_wait_small = 0;
void disable_sleep_skip()
{
if (sleep_skip_active && g_config.force_sleepskip < 1) {
pipe("INFO:Disabling sleep skipping.");
sleep_skip_active = 0;
}
}
HOOKDEF(NTSTATUS, WINAPI, NtWaitForSingleObject,
__in HANDLE Handle,
__in BOOLEAN Alertable,
__in_opt PLARGE_INTEGER Timeout
) {
NTSTATUS ret = 0;
LONGLONG interval;
LARGE_INTEGER newint;
LARGE_INTEGER li;
unsigned long milli;
FILETIME ft;
lasterror_t lasterror;
get_lasterrors(&lasterror);
// handle INFINITE wait
if (Timeout == NULL || Timeout->QuadPart == 0x8000000000000000ULL) {
// only log potentially interesting cases
if (hook_info()->main_caller_retaddr)
LOQ_ntstatus("system", "pis", "Handle", Handle, "Milliseconds", -1, "Status", "Infinite");
set_lasterrors(&lasterror);
return Old_NtWaitForSingleObject(Handle, Alertable, Timeout);
}
newint.QuadPart = Timeout->QuadPart;
if (newint.QuadPart > 0LL) {
/* convert absolute time to relative time */
FILETIME ft;
GetSystemTimeAsFileTime(&ft);
newint.HighPart = ft.dwHighDateTime;
newint.LowPart = ft.dwLowDateTime;
newint.QuadPart += time_skipped.QuadPart;
newint.QuadPart -= Timeout->QuadPart;
if (newint.QuadPart > 0LL)
newint.QuadPart = 0LL;
}
interval = -newint.QuadPart;
milli = (unsigned long)(interval / 10000);
GetSystemTimeAsFileTime(&ft);
li.HighPart = ft.dwHighDateTime;
li.LowPart = ft.dwLowDateTime;
/* clamp sleeps between 30 seconds and 1 hour down to 10 seconds as long as we didn't force off sleep skipping */
if (milli >= 30000 && milli <= 3600000 && g_config.force_sleepskip != 0) {
newint.QuadPart = -(10000 * 10000);
time_skipped.QuadPart += interval - (10000 * 10000);
LOQ_ntstatus("system", "pis", "Handle", Handle, "Milliseconds", milli, "Status", "Skipped");
goto docall;
}
else if (g_config.force_sleepskip > 0) {
time_skipped.QuadPart += interval;
LOQ_ntstatus("system", "pis", "Handle", Handle, "Milliseconds", milli, "Status", "Skipped");
newint.QuadPart = 0;
goto docall;
}
else {
disable_sleep_skip();
}
if (milli <= 10) {
if (num_wait_small < 20) {
LOQ_ntstatus("system", "pi", "Handle", Handle, "Milliseconds", milli);
num_wait_small++;
}
else if (num_wait_small == 20) {
LOQ_ntstatus("system", "s", "Status", "Small log limit reached");
num_wait_small++;
}
else if (num_wait_small > 20) {
// likely using a bunch of tiny sleeps to delay execution, so let's suddenly mimic high load and give our
// fake passage of time the impression of longer delays to return from sleep
time_skipped.QuadPart += (randint(500, 1000) * 10000);
}
}
else {
LOQ_ntstatus("system", "pi", "Handle", Handle, "Milliseconds", milli);
}
docall:
set_lasterrors(&lasterror);
return Old_NtWaitForSingleObject(Handle, Alertable, &newint);
}
HOOKDEF(NTSTATUS, WINAPI, NtDelayExecution,
__in BOOLEAN Alertable,
__in PLARGE_INTEGER DelayInterval
) {
NTSTATUS ret = 0;
LONGLONG interval;
FILETIME ft;
LARGE_INTEGER li;
LARGE_INTEGER newint;
unsigned long milli;
lasterror_t lasterror;
get_lasterrors(&lasterror);
newint.QuadPart = DelayInterval->QuadPart;
// handle INFINITE sleep
if (newint.QuadPart == 0x8000000000000000ULL) {
LOQ_ntstatus("system", "is", "Milliseconds", -1, "Status", "Infinite");
goto docall;
}
if (newint.QuadPart > 0LL) {
/* convert absolute time to relative time */
GetSystemTimeAsFileTime(&ft);
newint.HighPart = ft.dwHighDateTime;
newint.LowPart = ft.dwLowDateTime;
newint.QuadPart += time_skipped.QuadPart;
newint.QuadPart -= DelayInterval->QuadPart;
if (newint.QuadPart > 0LL)
newint.QuadPart = 0LL;
}
interval = -newint.QuadPart;
milli = (unsigned long)(interval / 10000);
GetSystemTimeAsFileTime(&ft);
li.HighPart = ft.dwHighDateTime;
li.LowPart = ft.dwLowDateTime;
// check if we're still within the hardcoded limit
if(sleep_skip_active && (li.QuadPart < time_start.QuadPart + MAX_SLEEP_SKIP_DIFF * 10000)) {
time_skipped.QuadPart += interval;
if (num_skipped < 20) {
// notify how much we've skipped
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
num_skipped++;
}
else if (num_skipped == 20) {
LOQ_ntstatus("system", "s", "Status", "Skipped log limit reached");
num_skipped++;
}
goto skipcall;
}
/* clamp sleeps between 30 seconds and 1 hour down to 10 seconds as long as we didn't force off sleep skipping */
else if (milli >= 30000 && milli <= 3600000 && g_config.force_sleepskip != 0) {
newint.QuadPart = -(10000 * 10000);
time_skipped.QuadPart += interval - (10000 * 10000);
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
goto docall;
}
else if (g_config.force_sleepskip > 0) {
time_skipped.QuadPart += interval;
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
newint.QuadPart = 0;
goto docall;
}
else {
disable_sleep_skip();
}
if (milli <= 10) {
if (num_small < 20) {
LOQ_ntstatus("system", "i", "Milliseconds", milli);
num_small++;
}
else if (num_small == 20) {
LOQ_ntstatus("system", "s", "Status", "Small log limit reached");
num_small++;
}
else if (num_small > 20) {
// likely using a bunch of tiny sleeps to delay execution, so let's suddenly mimic high load and give our
// fake passage of time the impression of longer delays to return from sleep
time_skipped.QuadPart += (randint(500, 1000) * 10000);
}
}
else {
LOQ_ntstatus("system", "i", "Milliseconds", milli);
}
docall:
set_lasterrors(&lasterror);
return Old_NtDelayExecution(Alertable, &newint);
skipcall:
set_lasterrors(&lasterror);
return ret;
}
HOOKDEF(DWORD, WINAPI, MsgWaitForMultipleObjectsEx,
_In_ DWORD nCount,
_In_ const HANDLE *pHandles,
_In_ DWORD dwMilliseconds,
_In_ DWORD dwWakeMask,
_In_ DWORD dwFlags
) {
DWORD ret = 0;
if (dwMilliseconds == INFINITE || nCount)
goto docall;
/* clamp sleeps between 30 seconds and 1 hour down to 10 seconds as long as we didn't force off sleep skipping */
else if (dwMilliseconds >= 30000 && dwMilliseconds <= 3600000 && g_config.force_sleepskip != 0) {
time_skipped.QuadPart += (dwMilliseconds - 10000) * 10000;
LOQ_msgwait("system", "is", "Milliseconds", dwMilliseconds, "Status", "Skipped");
dwMilliseconds = 10000;
goto docall;
}
else if (g_config.force_sleepskip > 0) {
LOQ_msgwait("system", "is", "Milliseconds", dwMilliseconds, "Status", "Skipped");
dwMilliseconds = 0;
goto docall;
}
else {
disable_sleep_skip();
}
if (dwMilliseconds <= 10) {
if (num_msg_small < 20) {
LOQ_msgwait("system", "i", "Milliseconds", dwMilliseconds);
num_msg_small++;
}
else if (num_msg_small == 20) {
LOQ_msgwait("system", "s", "Status", "Small log limit reached");
num_msg_small++;
}
else if (num_msg_small > 20) {
// likely using a bunch of tiny sleeps to delay execution, so let's suddenly mimic high load and give our
// fake passage of time the impression of longer delays to return from sleep
time_skipped.QuadPart += (randint(500, 1000) * 10000);
}
}
else {
LOQ_msgwait("system", "i", "Milliseconds", dwMilliseconds);
}
docall:
ret = Old_MsgWaitForMultipleObjectsEx(nCount, pHandles, dwMilliseconds, dwWakeMask, dwFlags);
disable_tail_call_optimization();
return ret;
}
HOOKDEF(NTSTATUS, WINAPI, NtSetTimer,
IN HANDLE TimerHandle,
IN PLARGE_INTEGER DueTime,
IN PVOID TimerApcRoutine OPTIONAL,
IN PVOID TimerContext OPTIONAL,
IN BOOLEAN ResumeTimer,
IN LONG Period OPTIONAL,
OUT PBOOLEAN PreviousState OPTIONAL
) {
NTSTATUS ret = 0;
LONGLONG interval;
FILETIME ft;
LARGE_INTEGER newint;
unsigned long milli;
lasterror_t lasterror;
get_lasterrors(&lasterror);
newint.QuadPart = DueTime->QuadPart;
// handle INFINITE sleep
if (newint.QuadPart == 0x8000000000000000ULL) {
LOQ_ntstatus("system", "is", "Milliseconds", -1, "Status", "Infinite");
goto docall;
}
if (newint.QuadPart > 0LL) {
/* convert absolute time to relative time */
GetSystemTimeAsFileTime(&ft);
newint.HighPart = ft.dwHighDateTime;
newint.LowPart = ft.dwLowDateTime;
newint.QuadPart += time_skipped.QuadPart;
newint.QuadPart -= DueTime->QuadPart;
if (newint.QuadPart > 0LL)
newint.QuadPart = 0LL;
}
interval = -newint.QuadPart;
milli = (unsigned long)(interval / 10000);
/* clamp sleeps between 30 seconds and 1 hour down to 10 seconds as long as we didn't force off sleep skipping */
if (milli >= 30000 && milli <= 3600000 && g_config.force_sleepskip != 0) {
newint.QuadPart = -(10000 * 10000);
time_skipped.QuadPart += interval - (10000 * 10000);
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
goto docall;
}
else if (g_config.force_sleepskip > 0) {
time_skipped.QuadPart += interval;
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
newint.QuadPart = 0;
goto docall;
}
docall:
set_lasterrors(&lasterror);
ret = Old_NtSetTimer(TimerHandle, &newint, TimerApcRoutine, TimerContext, ResumeTimer, Period, PreviousState);
return ret;
}
HOOKDEF(NTSTATUS, WINAPI, NtSetTimerEx,
IN HANDLE TimerHandle,
IN int TimerSetInformationClass,
__inout PVOID TimerSetInformation,
IN ULONG TimerSetInformationLength
) {
NTSTATUS ret = 0;
LONGLONG interval;
FILETIME ft;
LARGE_INTEGER newint;
LARGE_INTEGER origdue;
unsigned long milli;
lasterror_t lasterror;
BOOL modified_delay = FALSE;
PTIMER_SET_COALESCABLE_TIMER_INFO timerinfo;
get_lasterrors(&lasterror);
if (TimerSetInformationClass)
goto docall;
timerinfo = (PTIMER_SET_COALESCABLE_TIMER_INFO)TimerSetInformation;
origdue = timerinfo->DueTime;
newint.QuadPart = origdue.QuadPart;
// handle INFINITE sleep
if (newint.QuadPart == 0x8000000000000000ULL) {
LOQ_ntstatus("system", "is", "Milliseconds", -1, "Status", "Infinite");
goto docall;
}
if (newint.QuadPart > 0LL) {
/* convert absolute time to relative time */
GetSystemTimeAsFileTime(&ft);
newint.HighPart = ft.dwHighDateTime;
newint.LowPart = ft.dwLowDateTime;
newint.QuadPart += time_skipped.QuadPart;
newint.QuadPart -= origdue.QuadPart;
if (newint.QuadPart > 0LL)
newint.QuadPart = 0LL;
timerinfo->DueTime.QuadPart = newint.QuadPart;
modified_delay = TRUE;
}
interval = -newint.QuadPart;
milli = (unsigned long)(interval / 10000);
/* clamp sleeps between 30 seconds and 1 hour down to 10 seconds as long as we didn't force off sleep skipping */
if (milli >= 30000 && milli <= 3600000 && g_config.force_sleepskip != 0) {
timerinfo->DueTime.QuadPart = -(10000 * 10000);
time_skipped.QuadPart += interval - (10000 * 10000);
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
modified_delay = TRUE;
goto docall;
}
else if (g_config.force_sleepskip > 0) {
time_skipped.QuadPart += interval;
LOQ_ntstatus("system", "is", "Milliseconds", milli, "Status", "Skipped");
timerinfo->DueTime.QuadPart = 0;
modified_delay = TRUE;
goto docall;
}
docall:
set_lasterrors(&lasterror);
ret = Old_NtSetTimerEx(TimerHandle, TimerSetInformationClass, TimerSetInformation, TimerSetInformationLength);
if (modified_delay) {
timerinfo->DueTime = origdue;
}
return ret;
}
static LARGE_INTEGER perf_multiplier;
HOOKDEF(NTSTATUS, WINAPI, NtQueryPerformanceCounter,
_Out_ PLARGE_INTEGER PerformanceCounter,
_Out_opt_ PLARGE_INTEGER PerformanceFrequency
) {
NTSTATUS ret;
ENSURE_LARGE_INTEGER(PerformanceFrequency);
ret = Old_NtQueryPerformanceCounter(PerformanceCounter, PerformanceFrequency);
if (NT_SUCCESS(ret)) {
if (!perf_multiplier.QuadPart)
perf_multiplier.QuadPart = PerformanceFrequency->QuadPart / 1000;
PerformanceCounter->QuadPart += (time_skipped.QuadPart / 10000) * perf_multiplier.QuadPart;
}
return ret;
}
HOOKDEF(void, WINAPI, GetLocalTime,
__out LPSYSTEMTIME lpSystemTime
) {
lasterror_t lasterror;
LARGE_INTEGER li; FILETIME ft;
DWORD ret = 0;
Old_GetLocalTime(lpSystemTime);
get_lasterrors(&lasterror);
SystemTimeToFileTime(lpSystemTime, &ft);
li.HighPart = ft.dwHighDateTime;
li.LowPart = ft.dwLowDateTime;
li.QuadPart += time_skipped.QuadPart;
ft.dwHighDateTime = li.HighPart;
ft.dwLowDateTime = li.LowPart;
FileTimeToSystemTime(&ft, lpSystemTime);
set_lasterrors(&lasterror);
LOQ_void("system", "");
}
HOOKDEF(void, WINAPI, GetSystemTime,
__out LPSYSTEMTIME lpSystemTime
) {
lasterror_t lasterror;
LARGE_INTEGER li; FILETIME ft;
DWORD ret = 0;
Old_GetSystemTime(lpSystemTime);
get_lasterrors(&lasterror);
SystemTimeToFileTime(lpSystemTime, &ft);
li.HighPart = ft.dwHighDateTime;
li.LowPart = ft.dwLowDateTime;
li.QuadPart += time_skipped.QuadPart;
ft.dwHighDateTime = li.HighPart;
ft.dwLowDateTime = li.LowPart;
FileTimeToSystemTime(&ft, lpSystemTime);
set_lasterrors(&lasterror);
LOQ_void("system", "");
}
DWORD raw_gettickcount(void)
{
if (g_osverinfo.dwMajorVersion >= 6)
return (DWORD)((*(ULONGLONG *)0x7ffe0320 * *(DWORD *)0x7ffe0004) >> 24);
else
return (DWORD)(((ULONGLONG)*(DWORD *)0x7ffe0000 * *(DWORD *)0x7ffe0004) >> 24);
}
ULONGLONG raw_gettickcount64(void)
{
ULARGE_INTEGER tickcount64;
DWORD multiplier = *(DWORD *)0x7ffe0004;
tickcount64.LowPart = *(DWORD *)0x7ffe0320;
tickcount64.HighPart = *(DWORD *)0x7ffe0324;
return (((ULONGLONG)tickcount64.LowPart * multiplier) >> 24) +
(((ULONGLONG)tickcount64.HighPart * multiplier) << 8);
}
HOOKDEF(DWORD, WINAPI, GetTickCount,
void
) {
DWORD ret;
FORCE_FRAME_PTR_USE();
ret = raw_gettickcount();
// add the time we've skipped
ret += (DWORD)(time_skipped.QuadPart / 10000);
return ret;
}
HOOKDEF(ULONGLONG, WINAPI, GetTickCount64,
void
) {
ULONGLONG ret;
FORCE_FRAME_PTR_USE();
ret = raw_gettickcount64();
// add the time we've skipped
ret += (time_skipped.QuadPart / 10000);
return ret;
}
HOOKDEF(NTSTATUS, WINAPI, NtQuerySystemTime,
_Out_ PLARGE_INTEGER SystemTime
) {
NTSTATUS ret = Old_NtQuerySystemTime(SystemTime);
LOQ_ntstatus("system", "");
if(NT_SUCCESS(ret)) {
SystemTime->QuadPart += time_skipped.QuadPart;
}
return 0;
}
HOOKDEF(DWORD, WINAPI, timeGetTime,
void
) {
DWORD ret;
FORCE_FRAME_PTR_USE();
ret = Old_timeGetTime();
// add the time we've skipped
ret += (DWORD)(time_skipped.QuadPart / 10000);
return ret;
}
HOOKDEF(void, WINAPI, GetSystemTimeAsFileTime,
_Out_ LPFILETIME lpSystemTimeAsFileTime
) {
LARGE_INTEGER li;
FILETIME ft;
DWORD ret = 0;
Old_GetSystemTimeAsFileTime(&ft);
li.HighPart = ft.dwHighDateTime;
li.LowPart = ft.dwLowDateTime;
li.QuadPart += time_skipped.QuadPart;
ft.dwHighDateTime = li.HighPart;
ft.dwLowDateTime = li.LowPart;
memcpy(lpSystemTimeAsFileTime, &ft, sizeof(ft));
LOQ_void("system", "");
return;
}
static int lastinput_called;
HOOKDEF(BOOL, WINAPI, GetLastInputInfo,
_Out_ PLASTINPUTINFO plii
) {
BOOL ret = Old_GetLastInputInfo(plii);
LOQ_bool("system", "");
lastinput_called++;
/* fake recent user activity */
if (lastinput_called > 2 && plii && plii->cbSize == 8)
plii->dwTime = raw_gettickcount() + (DWORD)(time_skipped.QuadPart / 10000);
return ret;
}
void init_sleep_skip(int first_process)
{
FILETIME ft;
GetSystemTimeAsFileTime(&ft);
time_start.HighPart = ft.dwHighDateTime;
time_start.LowPart = ft.dwLowDateTime;
// we don't want to skip sleep calls in child processes
if(first_process == 0) {
disable_sleep_skip();
}
}
void init_startup_time(unsigned int startup_time)
{
time_skipped.QuadPart += (unsigned __int64) startup_time * 10000;
}