Deprecation Warning
This repository used to contain code to circumvent Widevine L3 DRM in Chrome on Windows machines.
It's not working anymore as of May 31st 2021, but you can read the reversing writeup.
Update
Google issued a DMCA takedown request against most forks of this repository. The original contents of the repository at the time are archived below.
Widevine L3 Decryptor
Widevine is a Google-owned DRM system that's in use by many popular streaming services (Netflix, Spotify, etc.) to prevent media content from being downloaded.
But Widevine's least secure security level, L3, as used in most browsers and PCs, is implemented 100% in software (i.e no hardware TEEs), thereby making it reversible and bypassable.
This Chrome extension demonstrates how it's possible to bypass Widevine DRM by hijacking calls to the browser's Encrypted Media Extensions (EME) and decrypting all Widevine content keys transferred - effectively turning it into a clearkey DRM.
Usage
To see this concept in action, just load the extension in Developer Mode and browse to any website that plays Widevine-protected content, such as https://bitmovin.com/demos/drm [Update: link got broken?].
Keys will be logged in plaintext to the javascript console.
e.g:
WidevineDecryptor: Found key: 100b6c20940f779a4589152b57d2dacb (KID=eb676abbcb345e96bbcf616630f1a3da)
Decrypting the media itself is then just a matter of using a tool that can decrypt MPEG-CENC streams, like ffmpeg
.
e.g:
ffmpeg -decryption_key 100b6c20940f779a4589152b57d2dacb -i encrypted_media.mp4 -codec copy decrypted_media.mp4
NOTE: The extension currently supports the Windows platform only.
How
In the context of browsers the actual decryption of the media is usually done inside a proprietary binary (widevinecdm.dll
, known as the Content Decryption Module or CDM) only after receiving the license from a license server with an encrypted key in it.
This binary is usually heavily obfuscated and makes use of third-party solutions that claim to offer software "protection" such as Arxan or Whitecryption.
Some reversing job on that binary can then be done to extract the secret keys and mimic the key decryption algorithm from the license response.
Why
This PoC was done to further show that code obfuscation, anti-debugging tricks, whitebox cryptography algorithms and other methods of security-by-obscurity will eventually by defeated anyway, and are, in a way, pointless.
This is NOT intended for copyright infringement or encouraging piracy.
Legal Disclaimer
This is for educational purposes only. Downloading copyrighted materials from streaming services may violate their Terms of Service. Use at your own risk.