def Execute(self):
     if self.CheckHelpRequested():
         return
     if self.CheckMinimunRequiredParameters(2):
         return
     requestType = self.request[0]
     filePath = self.request[1]
     if requestType != "-r" and requestType != "-p":
         PrintRedAndLog(f"Unsupported requestType {requestType}")
         return
     if requestType == "-p":
         if filePath not in GetAllPreMadeBatchNames():
             PrintRedAndLog(f"No such PreMade batch command: '{filePath}'")
             return
         filePath = f"{PreMadeBatchCommandsPath}{filePath}"
     try:
         with open(filePath, "r") as file:
             commandLines = list(
                 filter(lambda a: not a.startswith('#'),
                        list(file.read().splitlines())))
             PrintAndLog(
                 f"Adding {len(commandLines)} Commands from {ntpath.basename(filePath)}"
             )
             self.context.CommandQueue.EnqueueCommandsNext(commandLines)
         file.close()
     except Exception as ex:
         print(
             f"Failed to load command batch file, exception encountered:\n")
         PrintRedAndLog(ex)
Exemplo n.º 2
0
    def GetCommandClass(self, request):
        if not request:
            PrintRedAndLog("Request cannot be null or empty")
            return None
        request = shlex.split(request)
        if len(request) < 1:
            PrintRedAndLog("")
            return None

        requestedCommand = str.lower(request[0])

        if requestedCommand not in CommandMapping:
            PrintRedAndLog(f"No such supported command '{requestedCommand}'")
            return None
        return CommandMapping[requestedCommand](request[1:], self.context)
def GetNewCommands(readSource, command, swaps):
    swapDictionary = {}

    for pair in swaps:
        kvp = str(pair).split("=")
        if len(kvp) != 2:
            PrintRedAndLog("Invalid syntax")
        if readSource == "-p":
            swapDictionary[kvp[0]] = GetParamArrayFromString(kvp[1])
        elif readSource == "-f":
            swapDictionary[kvp[0]] = GetParamArrayFromFile(kvp[1])
        else:
            PrintRedAndLog(f"No supported read source parameter {readSource}")
            return

    return GetCommandsFromSwapDictionary(command, swapDictionary)
Exemplo n.º 4
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def ConnectAndPerformCommands(hostname, port, username, password, commands):
    try:
        client = paramiko.SSHClient()
        client.load_system_host_keys()
        client.set_missing_host_key_policy(paramiko.AutoAddPolicy())

        client.connect(hostname=hostname,
                       port=port,
                       username=username,
                       password=password)
        PrintBlueAndLog(
            f"Successfully established ssh connection to {hostname}")
        if commands and len(commands) > 0:
            for command in commands:
                PrintAndLog(f"Running command remotely: {command}")
                stdin, stdout, stderr = client.exec_command(command)
                output = stdout.read().strip().decode().splitlines()
                responseText = "Command Executed, remote machine response:\n"
                for line in output:
                    responseText = f"{responseText}\n" \
                                   f"       {line}"
                PrintAndLog(f"{responseText}\n")
    except Exception as ex:
        PrintRedAndLog(
            f"Failed attempting to connect to remote host, exception encountered:\n"
            f"       {ex}\n")
    finally:
        PrintBlueAndLog(f"Finished running commands, close connection")
        client.close()
def RunSubProcess(commandLineInput):
    try:
        PrintBlueAndLog(f"Running shell command: {commandLineInput}")
        result = subprocess.run(commandLineInput, shell=True, check=True, stdout=subprocess.PIPE)
        PrintAndLog(result.stdout.decode('utf-8'))
    except Exception as ex:
        PrintAndLog(f"Failed execute bash command '{commandLineInput}', exception encountered:\n")
        PrintRedAndLog(ex)
 def Execute(self):
     if self.CheckHelpRequested():
         return
     if self.CheckMinimunRequiredParameters(2):
         return
     userType = self.request[0]
     if userType == "-r":
         return RunSubProcess(f"sudo useradd {self.request[0]}")
     if userType == "-a":
         return RunSubProcess(f"sudo useradd {self.request[0]} sudo")
     if userType == "-g":
         if len(self.request) < 2:
             PrintRedAndLog("Missing required parameters")
         return RunSubProcess(
             f"sudo useradd {self.request[0]} -g {self.request[1]}")
     PrintRedAndLog("Invalid parameter passed")
     return
Exemplo n.º 7
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 def Execute(self):
     if self.CheckHelpRequested():
         return
     try:
         if str.lower(GetOperatingSystemName()) != "linux":
             PrintRedAndLog(
                 "Failed to upgrade AttackAgent. Upgrade currently supported only in Linux"
             )
             return
         RunSubProcess(
             "cd /home/AriotsAttackAgent;sudo git checkout -f HEAD;sudo git pull;sudo chmod +x AttackAgent.py;"
         )
     except Exception as ex:
         PrintAndLog(
             f"Failed to upgrade AttackAgent. Upgrade currently supported only in Linux. Ensure you have"
             f"required permissions and the Attack Agent is not running in another process."
         )
         PrintRedAndLog(ex)
Exemplo n.º 8
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def WaitForInput():
    if not RunningOnPermittedMachine():
        PrintRedAndLog("Not running on non Ariots permitted machine. Exiting")
        return
    PrintAndLog(
        "Hello, Welcome to the Linux based ArIoTS Attack Agent. Type --help at any stage for more information"
    )
    while True:
        EnqueueAndRun(
            input("\nPlease enter your next command, type help for options\n"))
Exemplo n.º 9
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 def RunCommands(self):
     while self.CommandQueueNotEmpty():
         command = self.DeQueueCommand()
         try:
             command.Execute()
         except Exception as ex:
             PrintRedAndLog(
                 f"Failed running command, exception encountered:\n\n        {ex}\n"
             )
             self.EmptyCommandQueue()
             return
    def Execute(self):
        if self.CheckHelpRequested():
            return
        if self.CheckMinimunRequiredParameters(2):
            return
        requestedTimeType = self.request[0]
        waitTimeRequested = self.request[1]

        if requestedTimeType not in TimeConversionsFromSeconds.keys():
            PrintRedAndLog(
                f"Requested wait type '{requestedTimeType}' not valid type")
            return

        try:
            WaitTime = float(waitTimeRequested
                             ) * TimeConversionsFromSeconds[requestedTimeType]
        except ValueError:
            PrintRedAndLog("The Wait time entered is not a valid number")
            return

        time.sleep(WaitTime)
Exemplo n.º 11
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    def Execute(self):
        if self.CheckHelpRequested():
            return
        if self.CheckMinimunRequiredParameters(2):
            return
        deleteType = self.request[0]
        path = self.request[1]

        if deleteType == "-f":
            return RunSubProcess(f"sudo rm {path}")
        if deleteType == "-d":
            return RunSubProcess(f"sudo rm -rf {path}")

        PrintRedAndLog("Invalid parameter passed")
 def Execute(self):
     if self.CheckHelpRequested():
         return
     if self.CheckMinimunRequiredParameters(0):
         return
     requestPing = self.request[0]
     if requestPing == "google":
         return RunSubProcess("ping -c 4 google.com")
     if requestPing == "self":
         return RunSubProcess("ping -c 4 127.0.0.1")
     if requestPing == "8":
         return RunSubProcess("ping -c 4 8.8.8.8")
     if requestPing == "-c" and len(self.request) > 1:
         return RunSubProcess(f"ping -c 4 {self.request[1]}")
     PrintRedAndLog("Invalid or missing parameters")
Exemplo n.º 13
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    def Execute(self):
        if self.CheckHelpRequested():
            return
        if self.CheckMinimunRequiredParameters(3):
            return
        createType = self.request[0]
        originPath = self.request[1]
        destinationPath = self.request[2]

        if createType == "-f":
            return RunSubProcess(f"sudo cp {originPath} {destinationPath}")
        if createType == "-d":
            return RunSubProcess(
                f"sudo cp -avr {originPath} {destinationPath}")

        PrintRedAndLog("Invalid parameter passed")
Exemplo n.º 14
0
    def Execute(self):
        if self.CheckHelpRequested():
            return
        if self.CheckMinimunRequiredParameters(2):
            return
        createType = self.request[0]
        path = self.request[1]

        if createType == "-f":
            return RunSubProcess(f"sudo touch {path}")
        if createType == "-f-bus":
            return RunSubProcess(f"sudo touch d-bus {path}")
        if createType == "-d":
            return RunSubProcess(f"sudo mkdir -p {path}")

        PrintRedAndLog("Invalid parameter passed")
Exemplo n.º 15
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 def Execute(self):
     if self.CheckHelpRequested():
         return
     if self.CheckMinimunRequiredParameters(2):
         return
     killType = self.request[0]
     killName = self.request[1]
     if killType == "-p":
         return RunSubProcess(f"sudo kill -9 $(lsof -t -i:{killName})")
     if killType == "-n":
         return RunSubProcess(f"sudo killall -9 {killName}")
     if killType == "-s":
         return RunSubProcess(f"sudo pkill -9 {killName}")
     if killType == "-i":
         return RunSubProcess(f"sudo kill -9 {killName}")
     return PrintRedAndLog(f"Invalid parameter killType: {killType} passed")
def GetParamArrayFromFile(path):
    try:
        with open(path, "r") as file:
            parameters = list(file.read().splitlines())
            PrintAndLog(
                f"Adding {len(parameters)} commands using commands from {path}"
            )
        file.close()
        splitParameters = []
        for param in parameters:
            if "," in param:
                splitParameters.extend(param.split(","))
                continue
            splitParameters.append(param)
        return splitParameters
    except Exception as ex:
        print(f"Failed to load command batch file, exception encountered:\n")
        PrintRedAndLog(ex)
 def Execute(self):
     if self.CheckHelpRequested():
         return
     if self.CheckMinimunRequiredParameters(2):
         return
     iterations = self.request[0]
     command = ' '.join(self.request[1:])
     try:
         commandsList = []
         intIterations = int(iterations)
         for i in range(intIterations):
             commandsList.append(command)
         self.context.CommandQueue.EnqueueCommandsNext(commandsList)
     except Exception as ex:
         PrintAndLog(
             f"Failed to execute Loop on repetitions: {iterations}, command: {command}:\n"
         )
         PrintRedAndLog(ex)
         return
Exemplo n.º 18
0
CreatePublicEndpointMap()


def EnqueueAndRun(request):
    context = GetContext()
    context.CommandQueue.EnqueueCommand(request)
    context.CommandQueue.RunCommands()


def WaitForInput():
    if not RunningOnPermittedMachine():
        PrintRedAndLog("Not running on non Ariots permitted machine. Exiting")
        return
    PrintAndLog(
        "Hello, Welcome to the Linux based ArIoTS Attack Agent. Type --help at any stage for more information"
    )
    while True:
        EnqueueAndRun(
            input("\nPlease enter your next command, type help for options\n"))


if len(sys.argv) > 1:
    if RunningOnPermittedMachine():
        WriteToLog(f"User input: {sys.argv}")
        EnqueueAndRun(" ".join(sys.argv[1:]))
    else:
        PrintRedAndLog("Not running on non Ariots permitted machine. Exiting")
elif __name__ == '__main__':
    WaitForInput()
 def CheckMinimunRequiredParameters(self, min):
     if not self.request or len(self.request) < min:
         PrintRedAndLog("Missing required parameters")
         return True
     return False