Ejemplo n.º 1
0
def modularity(timestamp=None):
    output.important('\nCalculating graph modularity' +
                     get_timestamp_sting(timestamp) + '...')

    graph_tool_graph = graph

    if timestamp is not None:
        output.normal('\nCreating a graph copy and purging filtered edges')
        graph_tool_graph = graph.copy()
        graph_tool_graph.purge_edges()
        graph_tool_graph.purge_vertices()
        output.normal('Created graph copy and purged filtered edges')

    output.normal('\nSaving graph as file...')
    filepath = get_timestamp_path(graph_path, timestamp, '.graphml')
    graph_tool_graph.save(filepath)
    output.normal('Saved graph to "' + filepath + '"')
    output.normal('\nLoading saved graph into igraph...')
    igraph_graph = igraph.Graph.Read_GraphML(filepath)
    igraph_graph.to_undirected()
    output.normal('Loaded graph into igraph')
    output.normal(
        '\nGenerating partitions with igraph using Louvain\'s algorithm...')
    partitions = graph_partitions(igraph_graph)
    output.normal('Calculated graph partitions')
    output.normal(
        '\nCalculating modularity using igraph and calculated partitions...')
    modularity = graph_modularity(igraph_graph, partitions)
    output.success('Graph modularity' + get_timestamp_sting(timestamp) + ': ' +
                   str(modularity))
Ejemplo n.º 2
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def degree(timestamp=None):
    output.important('\nGathering graph degree information' +
                     get_timestamp_sting(timestamp) + '...')
    degree_dataframe = graph_degree(graph)
    output.normal('Gathered degree information.')
    output.normal('Sorting for in degree...')
    in_degree_sorted = sort_for_in_degree(degree_dataframe)
    output.normal('\n10 nodes with the highest in degree' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(in_degree_sorted.head(10))
    output.normal('\nSorting for out degree...')
    out_degree_sorted = sort_for_out_degree(degree_dataframe)
    output.normal('\n10 nodes with the highest out degree' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(out_degree_sorted.head(10))
    output.normal('\nSorting for degree sum...')
    sum_degree_sorted = sort_for_degree_sum(degree_dataframe)
    output.normal('\n10 nodes with the highest degree sum' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(sum_degree_sorted.head(10))
    output.normal('\nWriting degree information to file...')
    data.dataframe_to_csv(sum_degree_sorted,
                          get_timestamp_path(degree_path, timestamp), True)
    output.success('Saved degree information to "' +
                   get_timestamp_path(degree_path, timestamp) + '"')
Ejemplo n.º 3
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def loadModules():
    output.info("Loading Modules...")
    global modules
    for name in os.listdir('modules'):
        if os.path.isdir(os.path.join('modules', name)) and os.path.isfile(
                os.path.join('modules', name) + '/module.json'):
            modules.append(name)
    output.success("Found " + str(len(modules)) + " Modules")
Ejemplo n.º 4
0
Archivo: app.py Proyecto: pk16/notify
def main():
	global PBon
	global PBobj
	PB=""
	thread = Thread(target = op.thread_func, args = (t_stop,))
	thread.start()
	while True:
		options = ["Choose one of the following"]
		options.append("Cricket Scores")
		options.append("Coding Contest Updates")
		options.append("Tweets")
		options.append("Custom Notification with user defined frequency")
		options.append("Remove any set notification")
		if(PB == ""):
			options.append("Want Notifications on Your PushBullet Devices? Enter Access Token here.")
			PBon = 0
		else:
			options.append("PushBullet Device Set Up Successfully. Want to remove the Access Token?")
			PBon = 1
		options.append("Quit")
		try:
			optionChosen = ip.getUserInput(options)
		except KeyboardInterrupt:
			exitApp()
		if optionChosen == len(options)-1:
			exitApp()
		if(optionChosen == len(options) -2):
			if(PB == ""):
				PB=ip.inputData("PushBullet","Enter Valid Access Token")
				if PB != "":
					try:
						PBobj=Pushbullet(PB) 
						PBon = 1
						op.popUp("Notify","Successfull Setup",1)
					except Exception as e:
						op.popUp("PushBullet","Wrong Access Token or Network Error\nTry Again",0)
						PB=""
			else:
				op.success()
				PB=""
			continue
		if(optionChosen == 1):
			cricket.main()

		if(optionChosen == 2):
			coding.main()

		if(optionChosen == 3):
			tweet.main()

		if(optionChosen == 4):
			custom.getData()
		
		if(optionChosen == 5):
			remove.main()
Ejemplo n.º 5
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def pagerank(timestamp=None):
    output.important('\nCalculating graph pageranks' +
                     get_timestamp_sting(timestamp) + '...')
    pagerank_dataframe = graph_pagerank(graph)
    output.normal('Calculated pageranks.')
    output.normal('\n10 nodes with the highest pagerank' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(pagerank_dataframe.head(10))
    output.normal('\nWriting pagerank results to file...')
    data.dataframe_to_csv(pagerank_dataframe,
                          get_timestamp_path(pagerank_path, timestamp), True)
    output.success('Saved pagerank results to "' +
                   get_timestamp_path(pagerank_path, timestamp) + '"')
Ejemplo n.º 6
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def main_quick():
    "Fast payload generation using command line arguments"
    init(autoreset=True)
    javaCheck()
    output.cls()
    output.banner()
    loadModules()
    #
    #   format: ./PyDuck.py <module> <duck_drive> [list of attributes in format]
    #   format of attributes: attribute=value
    #
    global loadedModule
    global moduleAttributes
    modulename = sys.argv[1]
    if modulename in modules:
        if os.path.isfile('modules/' + modulename + '/module.json'):
            with open('modules/' + modulename + '/module.json', 'r') as module:
                module_content = module.read().replace('\n', '')
            loadedModule = json.loads(module_content)

            moduleAttributes = loadedModule['attributes']
            # add default attributes: lang,drive
            moduleAttributes['language'] = 'us'
            moduleAttributes['sdcard_mount'] = sys.argv[2]
            attr_args = []
            if len(sys.argv) > 3:
                for i in range(3, len(sys.argv)):
                    attr_args.append(sys.argv[i])
            # check for uac bypass and add attribute
            if loadedModule['requirements']['has_uac_bypass'].lower(
            ) == "true":
                moduleAttributes['uac_bypass_key'] = 'y'

            for a in attr_args:
                sep = a.split('=')
                if sep[0] in moduleAttributes:
                    output.success("Setting " + sep[0] + " to " + sep[1])
                    moduleAttributes[sep[0]] = sep[1]
                else:
                    output.error("Attribute " + sep[0] + " not found..exiting")
                    sys.exit(1)

            cmdUseGenerate(modulename)

        else:
            output.error("Module '" + modulename + "' does not exist")
    else:
        output.error("Module '" + modulename + "' does not exist")
Ejemplo n.º 7
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def eigenvector(timestamp=None):
    output.important('\nCalculating graph eigenvectors' +
                     get_timestamp_sting(timestamp) + '...')
    eigenvalue, eigenvector_dataframe = graph_eigenvector(graph)
    output.normal('Calculated eigenvectors.')
    output.dim('Largest eigenvalue' + get_timestamp_sting(timestamp) + ': ' +
               str(eigenvalue))
    output.normal('\n10 nodes with the highest eigenvector' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(eigenvector_dataframe.head(10))
    output.normal('\nWriting eigenvector results to file...')
    data.dataframe_to_csv(eigenvector_dataframe,
                          get_timestamp_path(eigenvector_path, timestamp),
                          True)
    output.success('Saved eigenvector results to "' +
                   get_timestamp_path(eigenvector_path, timestamp) + '"')
Ejemplo n.º 8
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def cmdUseSet(cmd):
    params = cmd.split(" ")
    if len(params) < 3:
        output.error('Command Syntax => set <attribute> <value>')
    else:
        global moduleAttributes
        if params[1] in moduleAttributes:
            joined = params[2]
            if len(params) > 3:
                #add other after a space eg set text Hello World
                # so we add the World at the end
                for p in range(3, len(params)):
                    joined += " " + params[p]

            moduleAttributes[params[1]] = joined
            output.success(params[1] + '=>' + joined)
        else:
            output.error("Attribute '" + params[1] + "' is unknown")
Ejemplo n.º 9
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def betweenness_centrality(timestamp=None):
    output.important('\nCalculating betweenness centralities' +
                     get_timestamp_sting(timestamp) + '...')
    nodes, edges = graph_betweenness_centrality(graph)
    output.normal(
        'Calculated betweenness centralities for both edges and nodes.')
    output.normal('\n10 nodes with the highest betweenness centrality' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(nodes.head(10))
    output.normal('\n10 edges with the highest betweenness centrality' +
                  get_timestamp_sting(timestamp) + ':')
    output.normal(edges.head(10))
    output.normal('\nWriting betweenness centralities to file..')
    data.dataframe_to_csv(
        nodes, get_timestamp_path(nodes_betweenness_path, timestamp), True)
    output.success('Saved nodes betweenness centrality information to "' +
                   get_timestamp_path(nodes_betweenness_path, timestamp) + '"')
    data.dataframe_to_csv(
        edges, get_timestamp_path(edges_betweenness_path, timestamp), True)
    output.success('Saved edges betweenness centrality information to "' +
                   get_timestamp_path(edges_betweenness_path, timestamp) + '"')
Ejemplo n.º 10
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def success():
    unnamed_keys = sum(1 for key in _keys if len(key) == 5 or key[-1] is None)
    field_width = len(str(unnamed_keys))
    auto_name = (f"{_default_key_name}_{c:0{field_width}}" for c in count())
    for key in _keys:
        if not isinstance(key, (tuple, list)) or len(key) not in (5, 6):
            raise ValueError("Bad key '{}'".format(key))
        if len(key) == 5 or key[-1] is None:
            key = (*key[:5], next(auto_name))
        print("k:{}".format(",".join(
            str(x) if x is not None else "" for x in key)))
    for cleartext in _cleartexts:
        if isinstance(cleartext, int):
            text, textname = str(cleartext), ""
        elif isinstance(cleartext, tuple):
            text, textname = cleartext
            text = str(text)
            textname = textname if textname is not None else ""
        else:
            raise ValueError("Bad cleartext '{}'".format(cleartext))
        print("c:{},{}".format(text, textname))
    output.success("{} attack succeeded".format(name))
    sys.exit(0)
Ejemplo n.º 11
0
def handleCommand(cmd):
    global loadedModule
    #output.info cmd
    if cmd[:4] == "info":
        cmdinfo(cmd)
    #list modules
    elif cmd[:7] == "modules" and len(cmd) == 7:
        cmdList()
    elif (cmd[:4] == "exit" or cmd[:4] == "quit") and len(cmd) == 4:
        output.success('KTHXBYE')
        sys.exit()
    elif cmd[:4] == "help" and len(cmd) == 4:
        cmdHelp(False)
    elif cmd[:3] == "cls" and len(cmd) == 3:
        output.cls()
    elif cmd[:5] == "clear" and len(cmd) == 5:
        output.cls()
    else:
        if cmd in modules:
            cmdUse(cmd)
        else:
            output.error('Unknown Command => ' + cmd)

    startShell()
Ejemplo n.º 12
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def init(attack_name,
         default_key_name,
         *,
         min_keys=1,
         min_ciphertexts=0,
         deduplicate=None):
    global name, _default_key_name

    name = attack_name
    _default_key_name = default_key_name

    def excepthook(exctype, value, traceback):
        if exctype in (KeyboardInterrupt, RuntimeError):
            sys.exit(2)
        else:
            sys.__excepthook__(exctype, value, traceback)

    sys.excepthook = excepthook

    ciphertexts = []
    keys = []
    color = "auto"

    with open(sys.argv[1], "r", encoding="ascii") as f:
        for line in f:
            line = line.strip()
            if not line or line.isspace():
                continue
            kind, _, line = line.partition(":")
            if kind == "k":
                n, e, keyname = line.split(",", maxsplit=2)
                keys.append((int(n), int(e), keyname or None))
            elif kind == "c":
                text, textname = line.split(",", maxsplit=1)
                ciphertexts.append((int(text), textname))
            elif kind == "C":
                color = line.strip()
            else:
                raise ValueError(
                    "Unexpected input type '{}' from input file".input(kind))

    output.init(color)

    if deduplicate:
        if deduplicate in ("n", "ns"):
            cmp_key = itemgetter(0)
        elif deduplicate == "keys":
            cmp_key = itemgetter(0, 1)
        else:
            raise ValueError(
                "Bad value for deduplicate argument '{}'".format(deduplicate))
        keys = {cmp_key(key): key for key in reversed(keys)}
        keys = list(keys.values())
        keys.reverse()
        if len(keys) < min_keys:
            fail(
                "This attack needs at least {} distinct keys".format(min_keys))
    else:
        if len(keys) < min_keys:
            fail("This attack needs at least {} keys".format(min_keys))

    if len(ciphertexts) < min_ciphertexts:
        fail("This attack needs at least {} ciphertexts".format(
            min_ciphertexts))

    output.success("{} attack started".format(name))
    return ciphertexts, keys
Ejemplo n.º 13
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def cmdUseGenerate(modulename):
    #read the duckyscript and replace the uac key if needed
    global moduleAttributes
    ducky = moduleAttributes['sdcard_mount']
    suffix = "/"
    if os.name == 'nt':
        suffix = "\\"
    if not ducky.endswith(suffix, len(ducky) - 1, len(ducky)):
        if os.name == 'nt':
            ducky = ducky + "\\"
        else:
            ducky = ducky + "/"

    lang = moduleAttributes['language']
    moduleAttributes.pop('sdcard_mount', None)
    moduleAttributes.pop('language', None)

    output.info("Reading duckyscript.txt")
    tmpduckyscript = ''
    with open('modules/' + modulename + '/duckyscript.txt', 'r') as script:
        if loadedModule['requirements']['has_uac_bypass'].lower() == "true":
            #now replace the uac key
            output.info("Replacing <uac_bypass_key>")
            tmpduckyscript = script.read().replace(
                '<uac_bypass_key>', moduleAttributes['uac_bypass_key'])
            output.success("Replacing <uac_bypass_key> key... Done!")
            #pop uac_bypass_key
            moduleAttributes.pop('uac_bypass_key', None)
        else:
            output.info("No UAC Bypass needed")
            tmpduckyscript = script.read()

        for key, value in moduleAttributes.items():
            output.info("Replacing <" + key + "> with " + value)
            tmpduckyscript = tmpduckyscript.replace('<' + key + '>', value)

    output.info("Writing temporary duckyscript...")
    with open('tmp.duckyscript', 'w') as w:
        w.write(tmpduckyscript)
    output.success("Writing temporary duckyscript...Done!")

    output.info("Generating inject.bin...")
    # Generate the inject.bin
    encoderPath = "encoder/encoder.jar"
    inputFlag = "-i tmp.duckyscript"
    outputFlag = "-o inject.bin"
    langFlag = "-l " + lang
    fullExecCommand = "java -jar " + encoderPath + " " + inputFlag + " " + outputFlag + " " + langFlag
    result = subprocess.check_output(fullExecCommand,
                                     stderr=subprocess.STDOUT,
                                     shell=True)
    result = result.decode("utf-8")
    print(result)
    output.success("Generating inject.bin...Done!")

    os.remove("tmp.duckyscript")

    if "folders" in loadedModule['requirements']:
        output.info("Creating the necessary folders...")

        for folder in loadedModule['requirements']['folders']:
            if os.path.exists(ducky + folder):
                shutil.rmtree(ducky + folder)
                time.sleep(2)
            os.makedirs(ducky + folder)
        output.success("Creating the necessary folders...Done!")
    else:
        output.info("No folder creation needed")

    if "files" in loadedModule['requirements']:
        output.info("Copying files...")
        for ffile in loadedModule['requirements']['files']:
            if os.path.isfile(ducky + ffile):
                os.remove(ducky + ffile)
                time.sleep(2)
            shutil.copyfile('modules/' + modulename + '/' + ffile,
                            ducky + ffile)
        output.success("Copying files...Done!")
    else:
        output.info("No file copying needed")

    output.info("Copying inject.bin to Ducky...")
    shutil.copyfile('inject.bin', ducky + "inject.bin")
    time.sleep(2)
    os.remove("inject.bin")
    output.success("Copying inject.bin to Ducky...Done!")

    print('')
    output.success("Thanks 4 shopping with PyDuckGen")
    sys.exit()
Ejemplo n.º 14
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def cmdList():
    global modules
    print('\n > Loaded Modules\n--------------------------------------')
    for module in modules:
        output.success(module)
Ejemplo n.º 15
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def reciprocity(timestamp=None):
    output.important('\nCalculating edge reciprocity' +
                     get_timestamp_sting(timestamp) + '...')
    output.success('Edge reciprocity' + get_timestamp_sting(timestamp) + ': ' +
                   str(graph_reciprocity(graph)))
Ejemplo n.º 16
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# If no file was selected, exit
if filename == '':
    output.error('No data file selected, exiting...')
    exit()

if TEST:
    # Create a random graph
    output.important('Creating a random connected graph with 100 nodes')
    graph = random_graph()
else:
    # Read the graph
    output.important('Reading graph data from "' + filename + '"...')
    graph = datafile_to_graph(filename)

# Output graph info
output.success('\nSuccessfully read graph. Info:')
output.dim(str(graph.num_edges()) + "  edges")
output.dim(str(graph.num_vertices()) + "  vertices")


# Returns the filename for a file with a given timestamp
def get_timestamp_path(path, timestamp=None, postfix='.csv'):
    if timestamp is None:
        return path + '.static' + postfix
    else:
        return path + '.' + str(timestamp) + postfix


# Generates a timestamp string depending on the existence timestamp
def get_timestamp_sting(timestamp=None):
    timestamp_string = ''