Use the Notary client for advanced users

This page explains advanced uses of Notary client for users who are running their own Notary service. Make sure you have first read and understood how to run your own Notary service before continuing.

An important note about the examples

This document’s command examples omit the -s and -d flags. If you do not know what these options do, please read the Getting Started docs or run notary --help before continuing. Once you understand what these flags do, you must provide your own values for these options while following this document. You can also configure these options, see advanced configuration options for more information.

Initialize a Trusted Collection

Before adding and signing content to a collection, you must first initialize that collection.

$ notary init example.com/collection

No root keys found. Generating a new root key...
You are about to create a new root signing key passphrase. This passphrase
will be used to protect the most sensitive key in your signing system. Please
choose a long, complex passphrase and be careful to keep the password and the
key file itself secure and backed up. It is highly recommended that you use a
password manager to generate the passphrase and keep it safe. There will be no
way to recover this key. You can find the key in your config directory.
Enter passphrase for new root key with ID 1f54328:
Repeat passphrase for new root key with ID 1f54328:
Enter passphrase for new targets key with ID 1df39fc (example.com/collection):
Repeat passphrase for new targets key with ID 1df39fc (example.com/collection):

Initializing a trusted collection will generate the following items; all keys use asymmetric algorithms, but there is no requirement that they all use the same algorithm:

  • If no root key is found, an initial root key will be generated. This key will be used as the default root of trust for all your trusted collections.
  • A targets key and a snapshot key. The same password is used to encrypt both of these as the security profile of them (when both held by the author of the trusted collection) is identical. This is why you will not be asked for a snapshot key password.
  • A timestamp key. This is generated by the server on a request from the client, returning just the public key. The server holds the private key and will sign timestamps on behalf of the user.
  • Stub signed notary metadata. This stages the base version of the trust metadata for the collection. It will be finalized when it is published to the server.

Add and remove Targets

It’s simple to add targets to a trusted collection with notary CLI:

$ notary add example.com/collection v1 my_file.txt

The above command adds the local file my_file.txt (this file must exist relative to the current working directory) under the target name v1 to the example.com/collection collection we set up. The contents of the local file are not actually added to the collection - a “target” consists of the file path and one or more checksums of the contents.

Note that this is an offline command, and we must run a notary publish example.com/collection for the add to take effect.

To remove targets, we use the notary remove command, specifying the GUN and target name.

$ notary remove example.com/collection v1

Removing a target is also an offline command that requires a notary publish example.com/collection to take effect.

Manage keys

By default, the notary client is responsible for managing the private keys for root, targets, snapshot roles. All of these keys are generated by default when initializing a new trusted collection. The keys are located in the notary trust_dir directory. In addition, if delegation roles exist, those roles’ keys are to also managed by the notary client.

The notary server is always responsible for managing the timestamp key. However, it is possible for the notary server to manage the snapshot key, if the snapshot key is rotated from the notary client to server, as described in the following subsection.

Rotate keys

In case of potential compromise, notary provides a CLI command for rotating keys. Currently, you can use the notary key rotate command to rotate the targets or snapshot keys.

While the snapshot key is managed by the notary client by default, use the notary key rotate snapshot -r command to rotate the snapshot key to the server, such that the notary server will then sign snapshots. This is particularly useful when using delegations with a trusted collection, so that delegates will never need access to the snapshot key to push their updates to the collection.

Note that new collections created by a Docker 1.11 Engine client will have the server manage the snapshot key by default. To reclaim control of the snapshot key on the client, use the notary key rotate command without the -r flag.

The targets key must be locally managed - to rotate the targets key, for instance in case of compromise, use the notary key rotate targets command without the -r flag.

Use a Yubikey

Notary can be used with Yubikey 4 keys, via a PKCS11 interface when the Yubikey has CCID mode enabled. The Yubikey will be prioritized to store root keys, and will require user touch-input for signing. Note that Yubikey support is included with the Docker Engine 1.11 client for use with Docker Content Trust.

Yubikey support requires Yubico PIV libraries (which are bundled with the PIV tools) to be available in standard library locations.

Work with delegation roles

Delegation roles simplify collaborator workflows in notary trusted collections, and also allow for fine-grained permissions within a collection’s contents across delegations. In essence, delegation roles are restricted versions of the targets role that are only allowed to sign targets within certain filepaths.

A delegation role is given its own keys, such that each collaborator can keep his own private key without the administrator having to share the targets key or allow a collaborator write access to all targets of the collection.

Before adding any delegations, you should rotate the snapshot key to the server. Note that this is done by default for new collections created with a Docker Engine 1.11 client. This is such that delegation roles will not require the snapshot key to publish their own targets to the collection, since the server can publish the valid snapshot with the delegation targets:

$ notary key rotate example.com/collection snapshot -r

Here, -r specifies to rotate the key to the remote server.

When adding a delegation, your must acquire a x509 certificate with the public key of the user you wish to delegate to. The user who will assume this delegation role must hold the private key to sign content with notary.

Once you’ve acquired the delegate’s x509 certificate, you can add a delegation for this user:

$ notary delegation add example.com/collection targets/releases cert.pem --paths="delegation/path"

The preceding example illustrates a request to add the delegation targets/releases to the GUN example.com/collection. The delegation name must be prefixed by targets/ to be valid, since all delegations are restricted versions of the target role. The command adds the public key contained in the x509 cert cert.pem to the targets/releases delegation.

For the targets/releases delegation role to sign content, the delegation user must possess the private key corresponding to this public key. This command restricts this delegation to only publish content under pathnames prefixed by delegation/path. With the given path of “delegation/path”, the targets/releases role would be able to sign paths like “delegation/path/content.txt”, “delegation/path_file.txt” and “delegation/path.txt”. You can add more paths in a comma-separated list under --paths, or pass the --all-paths flag to allow this delegation to publish content under any pathname.

After publishing, you can view delegations using a list command:

$ notary delegation list example.com/collection

      ROLE               PATHS                                   KEY IDS                                THRESHOLD
---------------------------------------------------------------------------------------------------------------
  targets/releases   delegation/path   729c7094a8210fd1e780e7b17b7bb55c9a28a48b871b07f65d97baf93898523a   1

You can see the targets/releases with its paths and key IDs. If you wish to modify these fields, you can do so with additional notary delegation add or notary delegation remove commands on this role.

A threshold of 1 indicates that only one of the keys specified in KEY IDS is required to publish to this delegation. Thresholds other than 1 are not currently supported. To remove a delegation role entirely, or just individual keys and/or paths, use the notary delegation remove command:

$ notary delegation remove example.com/user targets/releases

Are you sure you want to remove all data for this delegation? (yes/no)
yes

Forced removal (including all keys and paths) of delegation role targets/releases to repository "example.com/user" staged for next publish.

You can remove individual keys and/or paths by passing keys as arguments, and/or paths under the --paths flag. Use --all-paths to clear all paths for this role. If you specify all key IDs currently in the delegation role, you will delete the role entirely.

To add targets to a specified delegation role, we can use the notary add command with the --roles flag.

You must have imported an appropriate delegation key for this role. To do so, you can run notary key import <KEY_FILE> --role user with the private key PEM file, or drop the private key PEM in private/tuf_keys as <KEY_ID>.key with the role PEM header set to user.

$ notary add example/collections delegation/path/target delegation_file.txt --roles=targets/releases

In the preceding example, you add the target delegation/path/target to collection example/collections staged for next publish. The file delegation_file.txt is a target delegation/path/target using the delegation role targets/releases. This target’s path is valid because it is prefixed by the delegation role’s valid path.

The notary list and notary remove commands can also take the --roles flag to specify roles to list or remove targets from. By default, this operates over the base targets role.

To remove this target from our delegation, use the notary remove command with the same flag:

$ notary remove example/collections delegation/path/target --roles=targets/releases

Use delegations with content trust

Docker Engine 1.10 and above supports the usage of the targets/releases delegation as the canonical source of a trusted image tag, if it exists.

When running docker pull with Docker Content Trust on Docker Engine 1.10, Docker will attempt to search the targets/releases role for the signed image tag, and will fall back to the default targets role if it does not exist. Please note that when searching the default targets role, Docker 1.10 may pick up on other non-targets/releases delegation roles’ signed images if they exist for this tag. In Docker 1.11, this behavior is changed such that all docker pull commands with Docker Content Trust must pull tags only signed by the targets/releases delegation role or the targets base role.

When running docker push with Docker Content Trust, Docker Engine 1.10 will attempt to sign and push with the targets/releases delegation role if it exists, otherwise falling back to the targets role. In Docker 1.11, a docker push will instead attempt to sign and push with all delegation roles directly under targets (ex: targets/role but not targets/nested/role) that the user has signing keys for. If delegation roles exist but the user does not have signing keys, the push will fail. If no delegation roles exist, the push will attempt to sign with the base targets role.

To use the targets/releases role for pushing and pulling images with content trust, follow the steps above to add and publish the delegation role with notary. When adding the delegation, the --all-paths flag should be used to allow signing all tags.

Files and state on disk

Notary stores state in its trust_dir directory, which is ~/.notary by default or usually ~/.docker/trust when enabling docker content trust. Within this directory, trusted_certificates stores certificates for bootstrapping trust in a collection, tuf stores TUF metadata and changelists to be applied to a GUN, and private stores private keys.

The root_keys subdirectory within private stores root private keys, while tuf_keys stores targets, snapshots, and delegations private keys.