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Ataka

Runs exploits, fast.

See .env variable for ctf selection. See ataka/ctfconfig/ for ctf config code. This directory is mounted into the docker container, not copied. Edits can be applied via hot-reload.

Check out the cheat sheet file for the most important commands as a quick TL;DR after installing

Server

  1. Edit .env file to set:
    • DATA_STORE: Absolute path to a folder to store player exploit related files.
    • USERID: The user:group id tuple to use for ataka. Note that write access write access to both the docker socket and the data directory has to be provided. You'll want to set this to the user id of the owner of the data directory and the group id of the docker group.
    • CTF: The name of the ctfconfig to use.
  2. Edit the ctfconfig in ataka/ctfconfig/
  3. Run docker-compose up -d --build

The ctfconfig is mounted into the containers. When editing the config while ataka is running, run ./ataka-cli reload to hot-reload the ctfconfig.

Player-CLI

The player-cli is a tool written in python to help players interact with ataka and create, upload and manage exploits and targets.

Setup

The player-cli is a .pyz file (Python Zipped Executable).

This only needs to be done once.

  • Download the ataka-player-cli through a get request to port 8000 of the api container.
  • Save that in a known location (~/.local/bin/atk).
  • Mark as excecutable

Reloading Player-CLI

When the ctfconfig is modified and ./ataka-cli reload is run, the local offline copy of the ctfconfig needs to also be reloaded. For that run:

$ atk reload
Writing player-cli at <player-cli-location>

This overwrites the old player-cli with the new one.

How to write an exploit

An exploit can be any executable or script.

It will receive two environment variables:

  • TARGET_IP: the IP to attack;
  • TARGET_EXTRA: a JSON string containing extra information on the target, such as flag IDs.

Your exploit should print the captured flags. They will be matched by a regular expression, so the output doesn't have to be clean.

Local exploits

Testing a local exploit

Get the name of your service:

$ atk flag ids
[*] Flag IDs for service buffalo
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service swiss_keys
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service to_the_moon
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service kyc
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service gopher_coin
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service wall.eth
  10.99.0.2 => ["1234", "5678"]
[*] Flag IDs for service oly_consensus
  10.99.0.2 => ["1234", "5678"]

Run the exploit:

$ atk exploit runlocal exploit.py SERVICE

Where:

  • exploit.py is your exploit (must be executable);
  • SERVICE is the target service name;

This will test the exploit against the NOP team: exploit runlocal is supposed to be used for testing, not for actual attacks, which should be centralized to allow the captain to manage them.

By default, all output will be shown, to limit this, use the -l/--limit flag.

If you only want to run a fixed number of attack rounds, you can use -c/--count (e.g., -c 1 is a one-shot attack). By default, the command attacks forever until manually terminated.

Instead of an executable, you can also specify a directory containing a Dockerfile. The runner will try to execute the command from the Dockerfile (locally, outside Docker), with the specified directory as the working directory. This is useful in combination with exploit download, described in the next section.

The local runner can run exploits against the real targets (--all-targets, or subsets via -T/-N).

Centralized exploits

Deploying a centralized exploit

To run on the centralized attacker, exploits must be wrapped in a Docker container and uploaded to the server.

The CLI provides templates for common containers. For example, to get a Python (latest version) container, use:

$ atk exploit template python DIR_NAME

Where DIR_NAME is the name of the directory that will be created.

At the moment, we have templates for python (Python plus some common dependencies, such as pwntools, you can add more in requirements.txt) and ubuntu (Ubuntu with a bash exploit). You can also specify Docker tags for specific versions (e.g., python:3.9-slim, ubuntu:18.04, and so forth).

Now you need to create an "exploit history", i.e., the collection which will contain all the versions of your exploit:

$ atk exploit create NAME SERVICE

Where NAME is the name of your exploit, and SERVICE is the target service (you can list them with atk service ls).

Finally, upload your exploit directory:

$ atk exploit upload NAME AUTHOR DIR_NAME

Where NAME is the one you chose earlier, AUTHOR is your nickname, and DIR_NAME is the exploit directory.

This will take care of uploading the exploit. You can check it with atk exploit ls.

Whenever you want to update your exploit to a new version, just issue the exploit upload command again. The attacker will assign progressive numbers to the versions, such as NAME-1, NAME-2, and so forth.

Uploaded exploits can be downloaded by anyone with atk exploit download EXPLOIT_ID OUTPUT_DIR.

(De)activating exploits

You can use atk exploit activate/deactivate to activate/deactivate an exploit. The commands accepts a history ID or an exploit ID. Generally, you should use them with history IDs, and use exploit switch (see next section) for switching between different versions.

When exploit activate gets a history ID, it activates the most recent exploit version in the history. If an exploit is already active, it does nothing.

When exploit deactivate gets a history ID, it deactivates all the exploits in the history.

Switching exploit versions

List the exploits to find the exploit ID:

$ atk exploit ls
...
cool-pwn (buffalo)
    2022-06-04 14:59:11        nickname cool-pwn-1
    2022-06-04 18:15:29        nickname cool-pwn-2
    2022-06-04 18:15:31 ACTIVE nickname cool-pwn-3
...

Now switch to the desired version:

$ atk exploit switch cool-pwn-1
Deactivate cool-pwn-3
Activate cool-pwn-1

We can confirm it worked:

$ atk exploit ls
...
cool-pwn (buffalo)
    2022-06-04 14:59:11 ACTIVE nickname cool-pwn-1
    2022-06-04 18:15:29        nickname cool-pwn-2
    2022-06-04 18:15:31        nickname cool-pwn-3
...

Checking exploit logs

You can check logs (including stdout/stderr) for a centralized exploit using atk exploit logs NAME, where NAME is a history or exploit ID. If you pass an exploit ID, it will show logs for that specific version. If you pass a history ID, it will show logs for active exploits in the history. You can pass more than one ID and mix exploit and history IDs.

By default, it will show logs from the current round. You can show logs from the last NUM rounds by passing -n NUM.

Target management

Ataka supports per-history target control. By default, all targets are enabled.

To see which targets are enabled for a history, use atk exploit target ls. You can enable/disable targets for a history with atk exploit target on/off (they both support --all to mean "all known targets").

Enabling one or multiple targets also schedules a new job for immediate central execution for the specified target(s), even if said target is already enabled. You can use this to re-run a central execution if necessary.

Manual flag submission

You can manually submit flags:

$ atk flag submit 'FLAG{foo}' 'FLAG{bar}' ...

The flags can be dirty, they will be matched using the flag regex.

If you don't specify flags, flag submit will read from stdin until EOF and then submit (i.e., it is not streaming):

$ echo 'dirtyFLAG{foo}dirtyFLAG{bar}dirty' | atk flag submit

Emergency mode

Invoking the CLI as atk -b/--bypass-tools ... will bypass the centralized Ataka service and connect directly to the gameserver to get attack targets, flag IDs and to submit flags. In this mode, only

  • exploit flag ids,
  • exploit runlocal and
  • flag submit are guaranteed to work.

A typical emergency scenario will involve running exploits locally with exploit runlocal --all-targets (and/or -N/-T if finer target control is required).

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