示例#1
0
def set_clock(clock):
    st = SYSTEMTIME()
    st.wYear = clock.year
    st.wMonth = clock.month
    st.wDay = clock.day
    st.wHour = clock.hour
    st.wMinute = clock.minute
    st.wSecond = clock.second
    st.wMilliseconds = 0
    KERNEL32.SetLocalTime(ctypes.byref(st))
示例#2
0
文件: startup.py 项目: CIRCL/cuckoo
def set_clock(clock):
    st = SYSTEMTIME()
    st.wYear = clock.year
    st.wMonth = clock.month
    st.wDay = clock.day
    st.wHour = clock.hour
    st.wMinute = clock.minute
    st.wSecond = clock.second
    st.wMilliseconds = 0
    KERNEL32.SetLocalTime(ctypes.byref(st))
示例#3
0
def set_clock(clock, timeout):
    # Output key info to analysis log
    log.info("Date set to: {0}, timeout set to: {1}".format(clock, timeout))

    clock = datetime.strptime(clock, "%Y%m%dT%H:%M:%S")
    st = SYSTEMTIME()
    st.wYear = clock.year
    st.wMonth = clock.month
    st.wDay = clock.day
    st.wHour = clock.hour
    st.wMinute = clock.minute
    st.wSecond = clock.second
    st.wMilliseconds = 0
    KERNEL32.SetLocalTime(ctypes.byref(st))
    def prepare(self):
        """Prepare env for analysis."""
        global DEFAULT_DLL
        global SERVICES_PID
        global HIDE_PIDS

        # Get SeDebugPrivilege for the Python process. It will be needed in
        # order to perform the injections.
        grant_debug_privilege()

        # randomize cuckoomon DLL and loader executable names
        copy("dll\\cuckoomon.dll", CUCKOOMON32_NAME)
        copy("dll\\cuckoomon_x64.dll", CUCKOOMON64_NAME)
        copy("bin\\loader.exe", LOADER32_NAME)
        copy("bin\\loader_x64.exe", LOADER64_NAME)

        # Create the folders used for storing the results.
        create_folders()

        add_protected_path(os.getcwd())
        add_protected_path(PATHS["root"])

        # Initialize logging.
        init_logging()

        # Parse the analysis configuration file generated by the agent.
        self.config = Config(cfg="analysis.conf")

        # Set virtual machine clock.
        clock = datetime.strptime(self.config.clock, "%Y%m%dT%H:%M:%S")

        systime = SYSTEMTIME()
        systime.wYear = clock.year
        systime.wMonth = clock.month
        systime.wDay = clock.day
        systime.wHour = clock.hour
        systime.wMinute = clock.minute
        systime.wSecond = clock.second
        systime.wMilliseconds = 0

        KERNEL32.SetSystemTime(byref(systime))

        thedate = clock.strftime("%m-%d-%y")
        thetime = clock.strftime("%H:%M:%S")

        log.info("Date set to: {0}, time set to: {1}".format(thedate, thetime))

        # Set the default DLL to be used by the PipeHandler.
        DEFAULT_DLL = self.config.get_options().get("dll")

        # get PID for services.exe for monitoring services
        svcpid = self.pids_from_process_name_list(["services.exe"])
        if svcpid:
            SERVICES_PID = svcpid[0]

        protected_procname_list = [
            "vmwareuser.exe",
            "vmwareservice.exe",
            "vboxservice.exe",
            "vboxtray.exe",
            "sandboxiedcomlaunch.exe",
            "sandboxierpcss.exe",
            "procmon.exe",
            "regmon.exe",
            "filemon.exe",
            "wireshark.exe",
            "netmon.exe",
            "prl_tools_service.exe",
            "prl_tools.exe",
            "prl_cc.exe",
            "sharedintapp.exe",
            "vmtoolsd.exe",
            "vmsrvc.exe",
            "python.exe",
            "perl.exe",
        ]

        HIDE_PIDS = set(self.pids_from_process_name_list(protected_procname_list))

        # Initialize and start the Pipe Servers. This is going to be used for
        # communicating with the injected and monitored processes.
        for x in xrange(self.PIPE_SERVER_COUNT):
            self.pipes[x] = PipeServer(self.config)
            self.pipes[x].daemon = True
            self.pipes[x].start()

        # We update the target according to its category. If it's a file, then
        # we store the path.
        if self.config.category == "file":
            self.target = os.path.join(os.environ["TEMP"] + os.sep,
                                       str(self.config.file_name))
        # If it's a URL, well.. we store the URL.
        else:
            self.target = self.config.target
示例#5
0
    def prepare(self):
        """Prepare env for analysis."""
        global DEFAULT_DLL
        global SERVICES_PID
        global HIDE_PIDS

        # Get SeDebugPrivilege for the Python process. It will be needed in
        # order to perform the injections.
        grant_debug_privilege()

        # randomize cuckoomon DLL and loader executable names
        copy("dll\\cuckoomon.dll", CUCKOOMON32_NAME)
        copy("dll\\cuckoomon_x64.dll", CUCKOOMON64_NAME)
        copy("bin\\loader.exe", LOADER32_NAME)
        copy("bin\\loader_x64.exe", LOADER64_NAME)

        # Create the folders used for storing the results.
        create_folders()

        add_protected_path(os.getcwd())
        add_protected_path(PATHS["root"])

        # Initialize logging.
        init_logging()

        # Parse the analysis configuration file generated by the agent.
        self.config = Config(cfg="analysis.conf")

        # Set virtual machine clock.
        clock = datetime.strptime(self.config.clock, "%Y%m%dT%H:%M:%S")

        systime = SYSTEMTIME()
        systime.wYear = clock.year
        systime.wMonth = clock.month
        systime.wDay = clock.day
        systime.wHour = clock.hour
        systime.wMinute = clock.minute
        systime.wSecond = clock.second
        systime.wMilliseconds = 0

        KERNEL32.SetSystemTime(byref(systime))

        thedate = clock.strftime("%m-%d-%y")
        thetime = clock.strftime("%H:%M:%S")

        log.info("Date set to: {0}, time set to: {1}".format(thedate, thetime))

        # Set the default DLL to be used by the PipeHandler.
        DEFAULT_DLL = self.config.get_options().get("dll")

        # get PID for services.exe for monitoring services
        svcpid = self.pids_from_process_name_list(["services.exe"])
        if svcpid:
            SERVICES_PID = svcpid[0]

        protected_procname_list = [
            "vmwareuser.exe",
            "vmwareservice.exe",
            "vboxservice.exe",
            "vboxtray.exe",
            "sandboxiedcomlaunch.exe",
            "sandboxierpcss.exe",
            "procmon.exe",
            "regmon.exe",
            "filemon.exe",
            "wireshark.exe",
            "netmon.exe",
            "prl_tools_service.exe",
            "prl_tools.exe",
            "prl_cc.exe",
            "sharedintapp.exe",
            "vmtoolsd.exe",
            "vmsrvc.exe",
            "python.exe",
            "perl.exe",
        ]

        HIDE_PIDS = set(self.pids_from_process_name_list(protected_procname_list))

        # Initialize and start the Pipe Servers. This is going to be used for
        # communicating with the injected and monitored processes.
        for x in xrange(self.PIPE_SERVER_COUNT):
            self.pipes[x] = PipeServer(self.config)
            self.pipes[x].daemon = True
            self.pipes[x].start()

        # We update the target according to its category. If it's a file, then
        # we store the path.
        if self.config.category == "file":
            self.target = os.path.join(os.environ["TEMP"] + os.sep,
                                       str(self.config.file_name))
        # If it's a URL, well.. we store the URL.
        else:
            self.target = self.config.target