Beispiel #1
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 def test_all_started(self):
     ThreadList = multiscanner._start_module_threads(
         self.filelist, common.parseDir(os.path.join(CWD, "modules")),
         self.config, self.global_module_interface)
     time.sleep(.001)
     for t in ThreadList:
         assert t.started
Beispiel #2
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 def test_all_started(self):
     ThreadList = multiscanner._start_module_threads(
         self.filelist, common.parseDir(os.path.join(CWD, "modules")), self.Config
     )
     time.sleep(0.001)
     for t in ThreadList:
         assert t.started
Beispiel #3
0
	def fillDbFromDir(self):
		"""
			create database from directory 
		"""	
		for f in parseDir(self.dir, excludeFunc= lambda x : not isMedia(x)):
			self.add2db(f)
		if self.db:
			self.saveDb()
Beispiel #4
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def scan(filelist, conf=DEFAULTCONF):
    ruleDir = conf["ruledir"]
    extlist = conf["fileextensions"]
    ruleset = {}
    rules = parseDir(ruleDir, recursive=True)
    for r in rules:
        for ext in extlist:
            if r.endswith(ext):
                ruleset[r] = os.path.join(ruleDir, r)
                break
    
    #Ran into a weird issue with file locking, this fixes it
    goodtogo = False
    i = 0
    yararules = None
    while not goodtogo:
        try:
            yararules = yara.compile(filepaths=ruleset)
            goodtogo = True
        except yara.SyntaxError as e:
            bad_file = e.message.split('(')[0]
            del ruleset[bad_file]
            print(e)

    matches = []
    for m in filelist:
        #Ran into a weird issue with file locking, this fixes it
        goodtogo = False
        i = 0
        while not goodtogo and i < 5:
            try:
                f = open(m, 'rb')
                goodtogo = True
            except Exception as e:
                print('yara:', e)
                time.sleep(3)
                i += 1
        try:
            hit = yararules.match(data=f.read())
        except:
            continue
        finally:
            f.close()
        if hit:
            hlist = []
            for h in hit:
                if not set(h.tags).intersection(set(conf["ignore-tags"])):
                    hlist.append(str(h))
            hlist.sort()
            matches.append((m, hlist))
            
    metadata = {}
    rulelist = list(ruleset)
    rulelist.sort()
    metadata["Name"] = NAME
    metadata["Type"] = TYPE
    metadata["Rules"] = rulelist
    return (matches, metadata)
Beispiel #5
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def scan(filelist, conf=DEFAULTCONF):
    ruleDir = conf["ruledir"]
    extlist = conf["fileextensions"]
    ruleset = {}
    rules = parseDir(ruleDir, recursive=True)
    for r in rules:
        for ext in extlist:
            if r.endswith(ext):
                ruleset[r] = os.path.join(ruleDir, r)
                break

    #Ran into a weird issue with file locking, this fixes it
    goodtogo = False
    i = 0
    yararules = None
    while not goodtogo:
        try:
            yararules = yara.compile(filepaths=ruleset)
            goodtogo = True
        except yara.SyntaxError as e:
            bad_file = e.message.split('(')[0]
            del ruleset[bad_file]
            print(e)

    matches = []
    for m in filelist:
        #Ran into a weird issue with file locking, this fixes it
        goodtogo = False
        i = 0
        while not goodtogo and i < 5:
            try:
                f = open(m, 'rb')
                goodtogo = True
            except Exception as e:
                print('yara:', e)
                time.sleep(3)
                i += 1
        try:
            hit = yararules.match(data=f.read())
        except:
            continue
        finally:
            f.close()
        if hit:
            hlist = []
            for h in hit:
                if not set(h.tags).intersection(set(conf["ignore-tags"])):
                    hlist.append(str(h))
            hlist.sort()
            matches.append((m, hlist))

    metadata = {}
    rulelist = list(ruleset)
    rulelist.sort()
    metadata["Name"] = NAME
    metadata["Type"] = TYPE
    metadata["Rules"] = rulelist
    return (matches, metadata)
Beispiel #6
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def config_init(filepath, module_list=parseDir(MODULEDIR, recursive=True)):
    """
    Creates a new config file at filepath

    filepath - The config file to create
    """
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    _rewrite_config(module_list, Config, filepath)
Beispiel #7
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def config_init(filepath, module_list=parseDir(MODULEDIR, recursive=True)):
    """
    Creates a new config file at filepath

    filepath - The config file to create
    """
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    _rewite_config(module_list, Config, filepath)
Beispiel #8
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def config_init(filepath):
    """
    Creates a new config file at filepath

    filepath - The config file to create
    """
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    ModuleList = parseDir(MODULEDIR)
    _rewite_config(ModuleList, Config, filepath)
Beispiel #9
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def config_init(filepath):
    """
    Creates a new config file at filepath

    filepath - The config file to create
    """
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    ModuleList = parseDir(MODULEDIR)
    _rewite_config(ModuleList, Config, filepath)
Beispiel #10
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def _init(args):
    # Initialize configuration file
    if os.path.isfile(args.config):
        print('Warning:', args.config,
              'already exists, overwriting will destroy changes')
        answer = raw_input(
            'Do you wish to overwrite the configuration file [y/N]:')
        if answer == 'y':
            config_init(args.config)
            print('Configuration file initialized at', args.config)
        else:
            print('Checking for missing modules in configuration...')
            ModuleList = parseDir(MODULEDIR, recursive=True)
            Config = configparser.SafeConfigParser()
            Config.optionxform = str
            Config.read(args.config)
            _write_missing_module_configs(ModuleList,
                                          Config,
                                          filepath=args.config)
    else:
        config_init(args.config)
        print('Configuration file initialized at', args.config)

    # Init storage
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    Config.read(args.config)
    config = _get_main_config(Config)
    if os.path.isfile(config["storage-config"]):
        print('Warning:', config["storage-config"],
              'already exists, overwriting will destroy changes')
        answer = raw_input(
            'Do you wish to overwrite the configuration file [y/N]:')
        if answer == 'y':
            storage.config_init(config["storage-config"], overwrite=True)
            print('Storage configuration file initialized at',
                  config["storage-config"])
        else:
            print('Checking for missing modules in storage configuration...')
            storage.config_init(config["storage-config"], overwrite=False)
    else:
        storage.config_init(config["storage-config"])
        print('Storage configuration file initialized at',
              config["storage-config"])

    exit(0)
Beispiel #11
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def _get_storage_classes(dir_path=STORAGE_DIR):
    storage_classes = {}
    dir_list = common.parseDir(dir_path, recursive=True)
    dir_list.remove(os.path.join(dir_path, 'storage.py'))
    dir_list.remove(os.path.join(dir_path, '__init__.py'))
    for filename in dir_list:
        if filename.endswith('.py'):
            modname = os.path.basename(filename[:-3])
            moddir = os.path.dirname(filename)
            mod = common.load_module(os.path.basename(modname), [moddir])
            if not mod:
                print(filename, " not a valid module...")
                continue
            for member_name in dir(mod):
                member = getattr(mod, member_name)
                if inspect.isclass(member) and issubclass(member, Storage):
                    storage_classes[member_name] = member()
    return storage_classes
Beispiel #12
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def _get_storage_classes(dir_path=STORAGE_DIR):
    storage_classes = {}
    dir_list = common.parseDir(dir_path, recursive=True)
    dir_list.remove(os.path.join(dir_path, 'storage.py'))
    dir_list.remove(os.path.join(dir_path, '__init__.py'))
    for filename in dir_list:
        if filename.endswith('.py'):
            modname = os.path.basename(filename[:-3])
            moddir = os.path.dirname(filename)
            mod = common.load_module(os.path.basename(modname), [moddir])
            if not mod:
                print(filename, " not a valid module...")
                continue
            for member_name in dir(mod):
                member = getattr(mod, member_name)
                if inspect.isclass(member) and issubclass(member, Storage):
                    storage_classes[member_name] = member()
    return storage_classes
Beispiel #13
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def _init(args):
    # Initialize configuration file
    if os.path.isfile(args.config):
        print('Warning:', args.config, 'already exists, overwriting will destroy changes')
        answer = raw_input('Do you wish to overwrite the configuration file [y/N]:')
        if answer == 'y':
            config_init(args.config)
            print('Configuration file initialized at', args.config)
        else:
            print('Checking for missing modules in configuration...')
            ModuleList = parseDir(MODULEDIR, recursive=True)
            Config = configparser.SafeConfigParser()
            Config.optionxform = str
            Config.read(args.config)
            _write_missing_module_configs(ModuleList, Config, filepath=args.config)
    else:
        config_init(args.config)
        print('Configuration file initialized at', args.config)
    exit(0)
Beispiel #14
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def _init(args):
    # Initialize configuration file
    if os.path.isfile(args.config):
        print('Warning:', args.config,
              'already exists, overwriting will destroy changes')
        answer = raw_input(
            'Do you wish to overwrite the configuration file [y/N]:')
        if answer == 'y':
            config_init(args.config)
            print('Configuration file initialized at', args.config)
        else:
            print('Checking for missing modules in configuration...')
            ModuleList = parseDir(MODULEDIR)
            Config = configparser.SafeConfigParser()
            Config.optionxform = str
            Config.read(args.config)
            _write_missing_module_configs(ModuleList,
                                          Config,
                                          filepath=args.config)
    else:
        config_init(args.config)
        print('Configuration file initialized at', args.config)
    exit(0)
Beispiel #15
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def scan(filelist, conf=DEFAULTCONF):
    ruleDir = conf["ruledir"]
    extlist = conf["fileextensions"]
    includes = 'includes' in conf and conf['includes']

    ruleset = {}
    rules = parseDir(ruleDir, recursive=True)
    for r in rules:
        for ext in extlist:
            if r.endswith(ext):
                full_path = os.path.abspath(os.path.join(ruleDir, r))
                ruleset[full_path] = full_path
                break

    #Ran into a weird issue with file locking, this fixes it
    goodtogo = False
    i = 0
    yararules = None
    while not goodtogo:
        try:
            yararules = yara.compile(filepaths=ruleset, includes=includes)
            goodtogo = True
        except yara.SyntaxError as e:
            bad_file = os.path.abspath(str(e).split('(')[0])
            if bad_file in ruleset:
                del ruleset[bad_file]
                print('WARNING: Yara', e)
            else:
                print(
                    'ERROR Yara: Invalid rule in', bad_file,
                    'but we are unable to remove it from our list. Aborting')
                print(e)
                return None

    matches = []
    for m in filelist:
        #Ran into a weird issue with file locking, this fixes it
        goodtogo = False
        i = 0
        while not goodtogo and i < 5:
            try:
                f = open(m, 'rb')
                goodtogo = True
            except Exception as e:
                print('yara:', e)
                time.sleep(3)
                i += 1
        try:
            hit = yararules.match(data=f.read())
        except:
            continue
        finally:
            f.close()
        if hit:
            hlist = []
            for h in hit:
                if not set(h.tags).intersection(set(conf["ignore-tags"])):
                    hlist.append(str(h))
            hlist.sort()
            matches.append((m, hlist))

    metadata = {}
    rulelist = list(ruleset)
    rulelist.sort()
    metadata["Name"] = NAME
    metadata["Type"] = TYPE
    metadata["Rules"] = rulelist
    return (matches, metadata)
Beispiel #16
0
def multiscan(Files, recursive=False, configregen=False, configfile=CONFIG, config=None, module_list=None):
    """
    The meat and potatoes. Returns the list of module results

    Files - A list of files and dirs to be scanned
    recursive - If true it will search the dirs in Files recursively
    configregen - If True a new config file will be created overwriting the old
    configfile - What config file to use. Can be None.
    config - A dictionary containing the configuration options to be used.
    """
    # Redirect stdout to stderr
    stdout = sys.stdout
    sys.stdout = sys.stderr
    # TODO: Make sure the cleanup from this works is something breaks

    # Init some vars
    # If recursive is None we don't parse the file list and take it as is.
    if recursive is not None:
        filelist = parseFileList(Files, recursive=recursive)
    else:
        filelist = Files
    # A list of files in the module dir
    if module_list is None:
        module_list = parseDir(MODULEDIR, recursive=True)
    # A dictionary used for the copyfileto parameter
    filedic = {}
    # What will be the config file object
    config_object = None

    # Read in config
    if configfile:
        config_object = configparser.SafeConfigParser()
        config_object.optionxform = str
        # Regen the config if needed or wanted
        if configregen or not os.path.isfile(configfile):
            _rewite_config(module_list, config_object, filepath=configfile)

        config_object.read(configfile)
        main_config = _get_main_config(config_object, filepath=configfile)
        if config:
            file_conf = parse_config(config_object)
            for key in config:
                if key not in file_conf:
                    file_conf[key] = config[key]
                    file_conf[key]['_load_default'] = True
                else:
                    file_conf[key].update(config[key])
            config = file_conf
        else:
            config = parse_config(config_object)
    else:
        if config is None:
            config = {}
        else:
            config['_load_default'] = True
        if 'main' in config:
            main_config = config['main']
        else:
            main_config = DEFAULTCONF

    # If none of the files existed
    if not filelist:
        sys.stdout = stdout
        raise ValueError("No valid files")

    # Copy files to a share if configured
    if "copyfilesto" not in main_config:
        main_config["copyfilesto"] = False
    if main_config["copyfilesto"]:
        if os.path.isdir(main_config["copyfilesto"]):
            filelist = _copy_to_share(filelist, filedic, main_config["copyfilesto"])
        else:
            sys.stdout = stdout
            raise IOError('The copyfilesto dir" ' + main_config["copyfilesto"] + '" is not a valid dir')

    # Create the global module interface
    global_module_interface = _GlobalModuleInterface()

    # Start a thread for each module
    thread_list = _start_module_threads(filelist, module_list, config, global_module_interface)

    # Write the default configure settings for missing ones
    if config_object:
        _write_missing_module_configs(module_list, config_object, filepath=configfile)

    # Warn about spaces in file names
    for f in filelist:
        if ' ' in f:
            print('WARNING: You are using file paths with spaces. This may result in modules not reporting correctly.')
            break

    # Wait for all threads to finish
    thread_wait_list = thread_list[:]
    i = 0
    while thread_wait_list:
        i += 1
        for thread in thread_wait_list:
            if not thread.is_alive():
                i = 0
                thread_wait_list.remove(thread)
                if VERBOSE:
                    print(thread.name, "took", thread.endtime-thread.starttime)
        if i == 15:
            i = 0
            if VERBOSE:
                p = 'Waiting on'
                for thread in thread_wait_list:
                    p += ' ' + thread.name
                p += '...'
                print(p)
        time.sleep(1)

    # Delete copied files
    if main_config["copyfilesto"]:
        for item in filelist:
            os.remove(item)

    # Get Result list
    results = []
    for thread in thread_list:
        if thread.ret is not None:
            results.append(thread.ret)
        del thread

    # Translates file names back to the originals
    if filedic:
        # I have no idea if this is the best way to do in-place modifications
        for i in range(0, len(results)):
            (result, metadata) = results[i]
            modded = False
            for j in range(0, len(result)):
                (filename, hit) = result[j]
                base = basename(filename)
                if base in filedic:
                    filename = filedic[base]
                    modded = True
                    result[j] = (filename, hit)
            if modded:
                results[i] = (result, metadata)

    # Scan subfiles if needed
    subscan_list = global_module_interface._get_subscan_list()
    if subscan_list:
        # Translate from_filename back to original if needed
        if filedic:
            for i in range(0, len(subscan_list)):
                file_path, from_filename, module_name = subscan_list[i]
                base = basename(from_filename)
                if base in filedic:
                    from_filename = filedic[base]
                    subscan_list[i] = (file_path, from_filename, module_name)

        results.extend(_subscan(subscan_list, config, main_config, module_list, global_module_interface))

    global_module_interface._cleanup()

    # Return stdout to previous state
    sys.stdout = stdout
    return results
Beispiel #17
0
 def setup_class(cls):
     cls.real_mod_dir = multiscanner.MODULEDIR
     multiscanner.MODULEDIR = os.path.join(CWD, "modules")
     cls.filelist = common.parseDir(os.path.join(CWD, "files"))
     cls.files = ["a", "b", "C:\\c", "/d/d"]
     cls.threadDict = {}
Beispiel #18
0
 def setup_class(cls):
     cls.real_mod_dir = multiscanner.MODULEDIR
     multiscanner.MODULEDIR = os.path.join(CWD, "modules")
     cls.filelist = common.parseDir(os.path.join(CWD, 'files'))
     multiscanner.CONFIG = '.tmpfile.ini'
Beispiel #19
0
def multiscan(Files,
              recursive=False,
              configregen=False,
              configfile=CONFIG,
              config=None,
              module_list=None):
    """
    The meat and potatoes. Returns the list of module results

    Files - A list of files and dirs to be scanned
    recursive - If true it will search the dirs in Files recursively
    configregen - If True a new config file will be created overwriting the old
    configfile - What config file to use. Can be None.
    config - A dictionary containing the configuration options to be used.
    """
    # Redirect stdout to stderr
    stdout = sys.stdout
    sys.stdout = sys.stderr
    # TODO: Make sure the cleanup from this works is something breaks

    # Init some vars
    # If recursive is None we don't parse the file list and take it as is.
    if recursive is not None:
        filelist = parseFileList(Files, recursive=recursive)
    else:
        filelist = Files
    # A list of files in the module dir
    if module_list is None:
        module_list = parseDir(MODULEDIR, recursive=True)
    # A dictionary used for the copyfileto parameter
    filedic = {}
    # What will be the config file object
    config_object = None

    # Read in config
    if configfile:
        config_object = configparser.SafeConfigParser()
        config_object.optionxform = str
        # Regen the config if needed or wanted
        if configregen or not os.path.isfile(configfile):
            _rewrite_config(module_list, config_object, filepath=configfile)

        config_object.read(configfile)
        main_config = _get_main_config(config_object, filepath=configfile)
        if config:
            file_conf = parse_config(config_object)
            for key in config:
                if key not in file_conf:
                    file_conf[key] = config[key]
                    file_conf[key]['_load_default'] = True
                else:
                    file_conf[key].update(config[key])
            config = file_conf
        else:
            config = parse_config(config_object)
    else:
        if config is None:
            config = {}
        else:
            config['_load_default'] = True
        if 'main' in config:
            main_config = config['main']
        else:
            main_config = DEFAULTCONF

    # If none of the files existed
    if not filelist:
        sys.stdout = stdout
        raise ValueError("No valid files")

    # Copy files to a share if configured
    if "copyfilesto" not in main_config:
        main_config["copyfilesto"] = False
    if main_config["copyfilesto"]:
        if os.path.isdir(main_config["copyfilesto"]):
            filelist = _copy_to_share(filelist, filedic,
                                      main_config["copyfilesto"])
        else:
            sys.stdout = stdout
            raise IOError('The copyfilesto dir" ' +
                          main_config["copyfilesto"] + '" is not a valid dir')

    # Create the global module interface
    global_module_interface = _GlobalModuleInterface()

    # Start a thread for each module
    thread_list = _start_module_threads(filelist, module_list, config,
                                        global_module_interface)

    # Write the default configure settings for missing ones
    if config_object:
        _write_missing_module_configs(module_list,
                                      config_object,
                                      filepath=configfile)

    # Warn about spaces in file names
    for f in filelist:
        if ' ' in f:
            print(
                'WARNING: You are using file paths with spaces. This may result in modules not reporting correctly.'
            )
            break

    # Wait for all threads to finish
    thread_wait_list = thread_list[:]
    i = 0
    while thread_wait_list:
        i += 1
        for thread in thread_wait_list:
            if not thread.is_alive():
                i = 0
                thread_wait_list.remove(thread)
                if VERBOSE:
                    print(thread.name, "took",
                          thread.endtime - thread.starttime)
        if i == 15:
            i = 0
            if VERBOSE:
                p = 'Waiting on'
                for thread in thread_wait_list:
                    p += ' ' + thread.name
                p += '...'
                print(p)
        time.sleep(1)

    # Delete copied files
    if main_config["copyfilesto"]:
        for item in filelist:
            try:
                os.remove(item)
            except OSError:
                pass

    # Get Result list
    results = []
    for thread in thread_list:
        if thread.ret is not None:
            results.append(thread.ret)
        del thread

    # Translates file names back to the originals
    if filedic:
        # I have no idea if this is the best way to do in-place modifications
        for i in range(0, len(results)):
            (result, metadata) = results[i]
            modded = False
            for j in range(0, len(result)):
                (filename, hit) = result[j]
                base = basename(filename)
                if base in filedic:
                    filename = filedic[base]
                    modded = True
                    result[j] = (filename, hit)
            if modded:
                results[i] = (result, metadata)

    # Scan subfiles if needed
    subscan_list = global_module_interface._get_subscan_list()
    if subscan_list:
        # Translate from_filename back to original if needed
        if filedic:
            for i in range(0, len(subscan_list)):
                file_path, from_filename, module_name = subscan_list[i]
                base = basename(from_filename)
                if base in filedic:
                    from_filename = filedic[base]
                    subscan_list[i] = (file_path, from_filename, module_name)

        results.extend(
            _subscan(subscan_list, config, main_config, module_list,
                     global_module_interface))

    global_module_interface._cleanup()

    # Return stdout to previous state
    sys.stdout = stdout
    return results
Beispiel #20
0
def test_parseDir():
    path = os.path.abspath(os.path.join(MS_WD, 'tests', 'dir_test'))
    result = common.parseDir(path, recursive=False)
    expected = [os.path.join(path, '1.1.txt'), os.path.join(path, '1.2.txt')]
    assert result == expected
 def setup_class(cls):
     cls.real_mod_dir = multiscanner.MODULEDIR
     multiscanner.MODULEDIR = os.path.join(CWD, "modules")
     cls.filelist = common.parseDir(os.path.join(CWD, 'files'))
     multiscanner.CONFIG = '.tmpfile.ini'
Beispiel #22
0
 def setup_class(cls):
     cls.real_mod_dir = multiscanner.MODULEDIR
     multiscanner.MODULEDIR = os.path.join(CWD, "modules")
     cls.filelist = common.parseDir(os.path.join(CWD, 'files'))
     cls.files = ['a', 'b', 'C:\\c', '/d/d']
     cls.threadDict = {}
Beispiel #23
0
# Allow import of celery_worker.py
if os.path.join(MS_WD, 'utils') not in sys.path:
    sys.path.insert(0, os.path.join(MS_WD, 'utils'))
if os.path.join(MS_WD, 'storage') not in sys.path:
    sys.path.insert(0, os.path.join(MS_WD, 'storage'))
if os.path.join(MS_WD, 'libs') not in sys.path:
    sys.path.append(os.path.join(MS_WD, 'libs'))

# Use multiscanner in ../
sys.path.insert(0, os.path.dirname(CWD))

# Get a subset of simple modules to run in testing
# the celery worker
MODULEDIR = os.path.join(MS_WD, "modules")
MODULE_LIST = common.parseDir(MODULEDIR, recursive=True)
DESIRED_MODULES = [
    'entropy.py', 'MD5.py', 'SHA1.py', 'SHA256.py', 'libmagic.py', 'ssdeep.py'
]
MODULES_TO_TEST = [i for e in DESIRED_MODULES for i in MODULE_LIST if e in i]

TEST_DB_PATH = os.path.join(CWD, 'testing.db')
if os.path.exists(TEST_DB_PATH):
    os.remove(TEST_DB_PATH)
DB_CONF = Database.DEFAULTCONF
DB_CONF['db_name'] = TEST_DB_PATH

# Metadata about test file
TEST_FULL_PATH = os.path.join(CWD, 'files/123.txt')
TEST_ORIGINAL_FILENAME = TEST_FULL_PATH.split('/')[-1]
TEST_TASK_ID = 1
Beispiel #24
0
def multiscan(Files, recursive=False, configregen=False, configfile=CONFIG):
    """
    The meat and potatoes. Returns the list of module results

    Files - A list of files and dirs to be scanned
    recursive - If true it will search the dirs in Files recursively
    configregen - If True a new config file will be created overwriting the old
    configfile - What config file to use
    """
    # Redirect stdout to stderr
    stdout = sys.stdout
    sys.stdout = sys.stderr
    # TODO: Make sure the cleanup from this works is something breaks

    # Init some vars
    # If recursive is None we don't parse the file list and take it as is.
    if recursive is not None:
        filelist = parseFileList(Files, recursive=recursive)
    else:
        filelist = Files
    # A list of files in the module dir
    # TODO: This should just be a list of .py's that is passed
    ModuleList = parseDir(MODULEDIR)
    # A dictionary used for the copyfileto parameter
    filedic = {}

    # Read in config file
    Config = configparser.SafeConfigParser()
    Config.optionxform = str
    # Regen the config if needed or wanted
    if configregen or not os.path.isfile(configfile):
        _rewite_config(ModuleList, Config, filepath=configfile)
    Config.read(configfile)
    config = _get_main_config(Config, filepath=configfile)

    # If none of the files existed
    if not filelist:
        sys.stdout = stdout
        raise ValueError("No valid files")

    # Copy files to a share if configured
    if "copyfilesto" not in config:
        config["copyfilesto"] = False
    if config["copyfilesto"]:
        if os.path.isdir(config["copyfilesto"]):
            filelist = _copy_to_share(filelist, filedic, config["copyfilesto"])
        else:
            sys.stdout = stdout
            raise IOError('The copyfilesto dir" ' + config["copyfilesto"] + '" is not a valid dir')

    # Start a thread for each module
    ThreadList = _start_module_threads(filelist, ModuleList, Config)

    # Write the default configure settings for missing ones
    _write_missing_module_configs(ModuleList, Config, filepath=configfile)

    # Wait for all threads to finish
    for thread in ThreadList:
        thread.join()

    if VERBOSE:
        for thread in ThreadList:
            print(thread.name, "took", thread.endtime-thread.starttime)

    # Delete copied files
    if config["copyfilesto"]:
        for item in filelist:
            os.remove(item)

    # Get Result list
    results = []
    for thread in ThreadList:
        if thread.ret is not None:
            results.append(thread.ret)
        del thread

    # Translates file names back to the originals
    if filedic:
        # I have no idea if this is the best way to do in-place modifications
        for i in range(0, len(results)):
            (result, metadata) = results[i]
            modded = False
            for j in range(0, len(result)):
                (filename, hit) = result[j]
                # This is ugly but os.path.basename is os dependent
                base = filename.split("\\")[-1].split("/")[-1]
                if base in filedic:
                    filename = filedic[base]
                    modded = True
                    result[j] = (filename, hit)
            if modded:
                results[i] = (result, metadata)

    # Return stdout to previous state
    sys.stdout = stdout
    return results
def test_parseDir():
    path = os.path.abspath(os.path.join(MS_WD, 'tests', 'dir_test'))
    result = common.parseDir(path, recursive=False)
    expected = [os.path.join(path, '1.1.txt'), os.path.join(path, '1.2.txt')]
    assert sorted(result) == sorted(expected)
Beispiel #26
0
 def setup_class(cls):
     cls.real_mod_dir = multiscanner.MODULEDIR
     multiscanner.MODULEDIR = os.path.join(CWD, "modules")
     cls.filelist = common.parseDir(os.path.join(CWD, 'files'))
     cls.files = ['a', 'b', 'C:\\c', '/d/d']
     cls.threadDict = {}
Beispiel #27
0
from __future__ import division, absolute_import, with_statement, print_function, unicode_literals
import os
import sys
import tempfile

# Makes sure we use the multiscanner in ../
CWD = os.path.dirname(os.path.abspath(__file__))
sys.path.insert(0, os.path.dirname(CWD))
import multiscanner
sys.path.append(os.path.join(CWD, '..', 'libs'))
import common
multiscanner.MODULEDIR = os.path.join(CWD, "modules")

module_list = [os.path.join(CWD, 'modules', 'test_conf.py')]
filelist = common.parseDir(os.path.join(CWD, 'files'))

def test_no_config():
    results, metadata = multiscanner.multiscan(filelist, configfile=None, config=None, recursive=None, module_list=module_list)[0]
    assert metadata['conf'] == {'a': 'b', 'c': 'd'}

def test_config_api_no_file():
    config = {'test_conf': {'a': 'z'}}
    results, metadata = multiscanner.multiscan(filelist, configfile=None, config=config, recursive=None, module_list=module_list)[0]
    assert metadata['conf'] == {'a': 'z', 'c': 'd'}

def test_config_api_with_empty_file():
    config = {'test_conf': {'a': 'z'}}
    config_file = tempfile.mkstemp()[1]
    results, metadata = multiscanner.multiscan(filelist, configfile=config_file, config=config, recursive=None, module_list=module_list)[0]
    os.remove(config_file)
    assert metadata['conf'] == {'a': 'z', 'c': 'd'}