Advisory: This site contains documentation for the v1.12 release candidate version of Docker Engine. For the Docker Engine v1.11 docs, see https://docs.docker.com/v1.11/. Docker for Mac and Docker for Windows are currently in Beta.
Trust for an image tag is managed through the use of keys. Docker’s content trust makes use of five different types of keys:
|root key||Root of content trust for an image tag. When content trust is enabled, you create the root key once. Also known as the offline key, because it should be kept offline.|
|targets||This key allows you to sign image tags, to manage delegations including delegated keys or permitted delegation paths. Also known as the repository key, since this key determines what tags can be signed into an image repository.|
|snapshot||This key signs the current collection of image tags, preventing mix and match attacks.|
|timestamp||This key allows Docker image repositories to have freshness security guarantees without requiring periodic content refreshes on the client’s side.|
|delegation||Delegation keys are optional tagging keys and allow you to delegate signing image tags to other publishers without having to share your targets key.|
When doing a
docker push with Content Trust enabled for the first time, the
root, targets, snapshot, and timestamp keys are generated automatically for
the image repository:
The root and targets key are generated and stored locally client-side.
The timestamp and snapshot keys are safely generated and stored in a signing server that is deployed alongside the Docker registry. These keys are generated in a backend service that isn’t directly exposed to the internet and are encrypted at rest.
Delegation keys are optional, and not generated as part of the normal
workflow. They need to be
manually generated and added to the repository.
Note: Prior to Docker Engine 1.11, the snapshot key was also generated and stored locally client-side. Use the Notary CLI to manage your snapshot key locally again for repositories created with newer versions of Docker.
The passphrases you chose for both the root key and your repository key should be randomly generated and stored in a password manager. Having the repository key allow users to sign image tags on a repository. Passphrases are used to encrypt your keys at rest and ensures that a lost laptop or an unintended backup doesn’t put the private key material at risk.
All the Docker trust keys are stored encrypted using the passphrase you provide on creation. Even so, you should still take care of the location where you back them up. Good practice is to create two encrypted USB keys.
It is very important that you backup your keys to a safe, secure location. Loss of the repository key is recoverable; loss of the root key is not.
The Docker client stores the keys in the
Before backing them up, you should
tar them into an archive:
$ umask 077; tar -zcvf private_keys_backup.tar.gz ~/.docker/trust/private; umask 022
Docker Content Trust can store and sign with root keys from a Yubikey 4. The Yubikey is prioritized over keys stored in the filesystem. When you initialize a new repository with content trust, Docker Engine looks for a root key locally. If a key is not found and the Yubikey 4 exists, Docker Engine creates a root key in the Yubikey 4. Please consult the Notary documentation for more details.
Prior to Docker Engine 1.11, this feature was only in the experimental branch.
If a publisher loses keys it means losing the ability to sign trusted content for your repositories. If you lose a key, contact Docker Support (firstname.lastname@example.org) to reset the repository state.
This loss also requires manual intervention from every consumer that pulled the tagged image prior to the loss. Image consumers would get an error for content that they already downloaded:
Warning: potential malicious behavior - trust data has insufficient signatures for remote repository docker.io/my/image: valid signatures did not meet threshold
To correct this, they need to download a new image tag with that is signed with the new key.