Payload Type information must be set and pulled from python within the associated /Mythic/Payload_Types/[agent name]/mythic/agent_functions folder. The filename can be anything, but the contents should look like:

from PayloadBuilder import *


class Atlas(PayloadType):  # class name can be anything

    name = "atlas"  # name of your agent and name of your folder must match
    file_extension = "exe"
    author = "@Airzero24"
    supported_os = [
        SupportedOS.Windows
    ]
    wrapper = False
    wrapped_payloads = []
    note = """This payload uses C# to target Windows hosts with the .NET framework installed. For more information and a more detailed README, check out: https://github.com/airzero24/Atlas"""
    supports_dynamic_loading = False
    build_parameters = {
        "version": BuildParameter(name="version", parameter_type=BuildParameterType.ChooseOne, description="Choose a target .NET Framework", choices=["3.5", "4.0"]),
        "arch": BuildParameter(name="arch", parameter_type=BuildParameterType.ChooseOne, choices=["x64", "x86"], default_value="x64", description="Target architecture"),
        ...
}
    c2_profiles = ["HTTP"]
    support_browser_scripts = [
        BrowserScript(script_name="create_table", author="@its_a_feature_")
    ]
    async def build(self) -> BuildResponse:
        # this function gets called to create an instance of your payload
        resp = BuildResponse(status=BuildStatus.Error)
        current_config_name = "{}.cs".format(str(uuid.uuid4()))
        current_config_path = "{}/{}".format(self.agent_code_path, current_config_name)
        # create the payload
        ...
        return resp

There are a couple key pieces of information here:

• Line 1 imports all of basic classes needed for creating an agent

• line 4 defines the new class (our agent). This can be called whatever you want, but the important piece is that it extends the PayloadType class as shown with the ().

• Lines 6-24 defines the parameters for the payload type that you'd see throughout the UI.

  • the name is the name of the payload type

  • supported_os is an array of supported OS versions

  • supports_dynamic_loading indicates if the agent allows you to select only a subset of commands when creating an agent or not

  • build_parameters is a dictionary describing all build parameters when creating an agent

    • the "key" here and the "name" in the BuildParameter() class must match.

  • c2_profiles is an array of c2 profile names that the agent supports

  • support_browser_scripts is a list of browser script names and authors that are callable from all other scripts in your payload type

    • if the script is called "create_table", then in this payload type's browser_scripts folder, there needs to be a create_table.js file with the code for that browser script. This script and information will then be available in the UI.

• The last piece is the function that's called to build the agent based on all of the information the user provides from the web UI.

The PayloadType base class is in the PayloadBuilder.py file. This is an abstract class, so your instance needs to provide values for all these fields.

Build Parameters

Build parameters define the components shown to the user when creating a payload.

The BuildParameter class has a couple of pieces of information that you can use to customize and validate the parameters supplied to your build:

class BuildParameter:

    def __init__(self,
                 name: str,
                 parameter_type: BuildParameterType = None,
                 description: str = None,
                 required: bool = None,
                 verifier_regex: str = None,
                 default_value: str = None,
                 choices: [str] = None,
                 value: any = None,
                 verifier_func: callable = None
                 ):
        self.name = name
        self.verifier_func = verifier_func
        self.parameter_type = parameter_type if parameter_type is not None else ParameterType.String
        self.description = description if description is not None else ""
        self.required = required if required is not None else True
        self.verifier_regex = verifier_regex if verifier_regex is not None else ""
        self.default_value = default_value
        if value is None:
            self.value = default_value
        else:
            self.value = value
        self.choices = choices

• name is the name of the parameter, if you don't provide a longer description, then this is what's presented to the user when building your payload

• parameter_type describes what is presented to the user - a String or a ChooseOne dropdown list

• required indicates if there must be a value supplied. If no value is supplied by the user and no default value supplied here, then an exception is thrown before execution gets to the build function.

• verifier_regex is a regex the web UI can use to provide some information to the user about if they're providing a valid value or not

• default_value is the default value used for building if the user doesn't supply anything

• choices is where you can supply an array of options for the user to pick from if the parameter_type is ChooseOne

• value is the component you access when building your payload - this is the final value (either the default value or the value the user supplied)

• verifier_func is a function you can provide for additional checks on the value the user supplies to make sure it's what you want. This function should either return nothing or raise an exception if something isn't right

As a recap, where does this come into play? In the first section, we showed a section like:

    build_parameters = {
        "version": BuildParameter(name="version", parameter_type=BuildParameterType.ChooseOne, description="Choose a target .NET Framework", choices=["3.5", "4.0"]),
        "arch": BuildParameter(name="arch", parameter_type=BuildParameterType.ChooseOne, choices=["x64", "x86"], default_value="x64", description="Target architecture"),
        ...
}

Just make sure the key (i.e. "version" or "arch" here) matches the name in the BuildParameter

Building

You have to implement the build function and return an instance of the BuildResponse class. This response has three fields:

• status - an instance of BuildStatus (Success or Error)

  • Specifically, BuildStatus.Success or BuildStatus.Error

• payload - the raw bytes of the finished payload (if you failed to build, set this to None or empty bytes like b'' in Python.

• message - any build message you want the user to see. This can be helpful execution tips or error messages

The most basic version of the build function would be:

async def build(self) -> BuildResponse:
        # this function gets called to create an instance of your payload
        return BuildResponse(status=BuildStatus.Success)

Once the build function is called, all of your BuildParameters will already be verified (all parameters marked as required will have a value of some form (user supplied or default_value) and all of the verifier functions will be called if they exist). This allows you to know that by the time your build function is called that all of your parameters are valid.

Your build function gets a few pieces of information to help you build the agent (other than the build parameters):

From within your build function, you'll have access to the following pieces of information:

• self.uuid - the UUID associated with your payload

  • This is how your payload identifies itself to Mythic before getting a new Staging and final Callback UUID

• self.commands - a wrapper class around the names of all the commands the user selected.

  • Access this list via self.commands.get_commands()

for cmd in self.commands.get_commands():
    command_code += open(self.agent_code_path / "{}.js".format(cmd), 'r').read() + "\n"

• self.agent_code_path - a pathlib.Path object pointing to the path of the agent_code directory that holds all the code for your payload. To be more explicit, this is the path /Mythic/agent_code in the normal docker containers.

  • To access "test.js" in that "agent_code" folder, simply do: f = open(self.agent_code_path / "test.js", 'r').

  • With pathlib.Path objects, the / operator allows you to concatenate paths in an OS agnostic manner. This is the recommended way to access files so that your code can work anywhere.

• self.get_parameter("parameter name here")

  • The build parameters that are validated from the user. If you have a build_parameter with a name of "version", you can access the user supplied or default value with self.get_parameter("version")

• self.c2info - this holds a list of dictionaries of the c2 parameters and c2 class information supplied by the user. This is a list because the user can select multiple c2 profiles (maybe they want HTTP and SMB in the payload for example). For each element in self.c2info, you can access the information about the c2 profile with get_c2profile() and access to the parameters via get_parameters_dict(). Both of these return a dictionary of key-value pairs.

  • the dictionary returned by self.c2info[0].get_c2profile() contains the following:

    • name - name of the c2 profile

    • description - description of the profile

    • is_p2p - boolean of if the profile is marked as a p2p profile or not

    • is_server_routed - boolean of if the profile is server routed or not

    • sampleServer - sample server side information for the c2 profile provided by the creator of the profile

    • sampleClient - sample agent side information for the c2 profile provided by the creator of the profile

  • the dictionary returned by self.c2info[0].get_parameters_dict()contains the following:

    • key - value

    • where each key is the key value defined for the c2 profile's parameters and value is what the user supplied

  • One way to leverage this could be:

for c2 in self.c2info:
    profile = c2.get_c2profile()  # returns a dictionary
    c2_code = open(self.agent_code_path / "c2_profiles" / "{}.js".format(profile['name']), 'r').read()
    for key, val in c2.get_parameters_dict().items():
        c2_code = c2_code.replace(key, val)
        all_c2_code += c2_code

This should be all the information you need to build your agent.

agent_build_path = tempfile.TemporaryDirectory(suffix=self.uuid)
# shutil to copy payload files over
copy_tree(self.agent_code_path, agent_build_path.name)
# now agent_build_path.name maps to the root folder for your agent code

Execution flow

So, what's the actual, end-to-end execution flow that goes on?

1. PayloadType container is started, it connects to Mythic and sends over its data (by parsing all these python files)

2. An operator wants to create a payload from it, so they go to "Create Components" -> "Create Payload"

3. The operator selects an OS type that the agent supports (ex. Linux, macOS, Windows)

4. The operator selects all c2 profiles they want included

   1. and for each c2 selected, provides any c2 required parameters

5. The operator selects this payload type

6. The operator fills out/selects all of the payload type's build parameters

7. The operator selects all commands they want included in the payload

8. Mythic takes all of this information and sends it to the payload type container

The mythic_service in the Payload Type container does the following:

c2info_list = []
for c2 in message_json['c2_profile_parameters']:
    params = c2.pop('parameters', None)
    c2info_list.append(C2ProfileParameters(parameters=params, c2profile=c2))
commands = CommandList(message_json['commands'])
for cls in PayloadType.__subclasses__():
        agent_builder = cls(uuid=message_json['uuid'],
                            agent_code_path=Path(container_files_path),
                            c2info=c2info_list,
                            commands=commands,
                            wrapped_payload=message_json['wrapped_payload'])
try:
    await agent_builder.set_and_validate_build_parameters(message_json['build_parameters'])
    build_resp = await agent_builder.build()

Specifically, it takes the information that the user selected for the c2 profiles and gets them organized into a list (lines 1-4). It makes a list of all of the selected commands (line 5). It looks for a class that subclasses the PayloadType class and instantiates it (lines 6-11). It takes the user supplied parameters, sets the associated build parameter values, and verifies that all build parameters marked as "required" have values (line 13). Lastly, it calls the PayloadType's build function.

After this section, the container sends the BuildResponse message back to the Mythic server.