Domain generation algorithms (DGAs) are commonly leveraged by malware to
create lists of domain names which can be used for command and control (C&C)
purposes. Approaches based on machine learning have recently been developed to
automatically detect generated domain names in real-time. In this work, we
present a novel DGA called CharBot which is capable of producing large numbers
of unregistered domain names that are not detected by state-of-the-art
classifiers for real-time detection of DGAs, including the recently published
methods FANCI (a random forest based on human-engineered features) and LSTM.MI
(a deep learning approach). CharBot is very simple, effective and requires no
knowledge of the targeted DGA classifiers. We show that retraining the
classifiers on CharBot samples is not a viable defense strategy. We believe
these findings show that DGA classifiers are inherently vulnerable to
adversarial attacks if they rely only on the domain name string to make a
decision. Designing a robust DGA classifier may, therefore, necessitate the use
of additional information besides the domain name alone. To the best of our
knowledge, CharBot is the simplest and most efficient black-box adversarial
attack against DGA classifiers proposed to date