Framework for existing attacks on trained StableBaselines3 DRL policies.
Project description
attacks-on-drl
Framework for existing attacks on trained StableBaselines3 DRL policies.
Example Usage
from attacks_on_drl.attacker import FGSMAttacker
from attacks_on_drl.runner import AttackRunner
from attacks_on_drl.victim import DQNVictim
# Defined environment (env) and SB3 policy (policy)
# SB3 policy must be wrapped in a Victim class
victim = DQNVictim(policy)
attacker = FGSMAttacker(victim)
runner = AttackRunner(env, attacker, victim, episode_max_frames=10_000)
runner.run(n_episodes=10)
Implemented Attacks
- FGSM $\ell_\infty$ Attacker [1]
- Value Function Attack [2]
- FGSM Every N Steps Attacker [2]
- Strategically Timed Attack [3]
- Critical Point Attack [4]
Adding A Custom Attack
Any attack must implement the BaseAttacker class, implementing the abstract step method. For example, suppose we introduce an attacker which attacks using FGSM every other step:
from attacks_on_drl.attacker.common import BaseAttacker
class EveryOtherStepAttacker(BaseAttacker):
def __init__(self, victim: BaseVictim) -> None:
super().__init__()
self.victim = victim
wrapped_victim = VictimModuleWrapper(self.victim)
self._perturbation_method = FGSM(wrapped_victim, eps=eps)
self.attack = True
def step(self, observation: VecEnvObs) -> tuple[VecEnvObs, bool]:
if self.attack:
actions = torch.tensor(self.victim.choose_action(observation, deterministic=True))
observation = self._perturbation_method(torch.from_numpy(observation)).numpy()
attacked = self.attack
self.attack = not self.attack
return obseration, attacked
References
[1] Huang, S., Papernot, N., Goodfellow, I., Duan, Y. and Abbeel, P., 2017. Adversarial attacks on neural network policies. arXiv preprint arXiv:1702.02284.
[2] Kos, J. and Song, D., 2017. Delving into adversarial attacks on deep policies. arXiv preprint arXiv:1705.06452.
[3] Lin, Y.C., Hong, Z.W., Liao, Y.H., Shih, M.L., Liu, M.Y. and Sun, M., 2017. Tactics of adversarial attack on deep reinforcement learning agents. arXiv preprint arXiv:1703.06748.
[4] Sun, J., Zhang, T., Xie, X., Ma, L., Zheng, Y., Chen, K. and Liu, Y., 2020, April. Stealthy and efficient adversarial attacks against deep reinforcement learning. In Proceedings of the AAAI conference on artificial intelligence (Vol. 34, No. 04, pp. 5883-5891).
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