Provided by: tang-common_14-2_amd64 bug

NAME

       tang - Network-Based Cryptographic Binding Server

OVERVIEW

       Tang is a service for binding cryptographic keys to network presence. It offers a secure,
       stateless, anonymous alternative to key escrow services.

       The Tang project arose as a tool to help the automation of decryption. Existing mechanisms
       predominantly use key escrow systems where a client encrypts some data with a symmetric
       key and stores the symmetric key in a remote server for later retrieval. The desired goal
       of this setup is that the client can automatically decrypt the data when it is able to
       contact the escrow server and fetch the key.

       However, escrow servers have many additional requirements, including authentication (so
       that clients can’t get keys they aren’t supposed to have) and transport encryption (so
       that attackers listening on the network can’t eavesdrop on the keys in transit).

       Tang avoids this complexity. Instead of storing a symmetric key remotely, the client
       performs an asymmetric key exchange with the Tang server. Since the Tang server doesn’t
       store or transport symmetric keys, neither authentication nor encryption are required.
       Thus, Tang is completely stateless and zero-configuration. Further, clients can be
       completely anonymous.

       Tang does not provide a client. But it does export a simple REST API and it transfers only
       standards compliant JSON Object Signing and Encryption (JOSE) objects, allowing you to
       create your own clients using off the shelf components. For an off-the-shelf automated
       encryption framework with support for Tang, see the Clevis project. For the full technical
       details of the Tang protocol, see the Tang project’s homepage.

GETTING STARTED

       Getting a Tang server up and running is simple:

           $ sudo systemctl enable tangd.socket --now

       That’s it. The server is now running with a fresh set of cryptographic keys and will
       automatically start on the next reboot.

CONFIGURATION

       Tang intends to be a minimal network service and therefore does not have any
       configuration. To adjust the network settings, you can override the tangd.socket unit file
       using the standard systemd mechanisms. See systemd.unit(5) <systemd.unit.5.adoc> and
       systemd.socket(5) <systemd.socket.5.adoc> for more information.

STANDALONE OR VIA SYSTEMD

       The Tang server can be run via systemd socket activation or standalone when the parameter
       -l is passed. The default port used is 9090 and can be changed with the -p option.

           tang -l -p 9090

KEY ROTATION

       In order to preserve the security of the system over the long run, you need to
       periodically rotate your keys. The precise interval at which you should rotate depends
       upon your application, key sizes and institutional policy. For some common
       recommendations, see: https://www.keylength.com.

       There is a convenience script to deal with this. See tangd-rotate-keys(1)
       <tangd-rotate-keys.1.adoc> for more information. This can also be performed manually as
       described below.

       To rotate keys, first we need to generate new keys in the key database directory. This is
       typically /var/db/tang. For example, you can create new signature and exchange keys with
       the following commands:

           # DB=/var/db/tang
           # jose jwk gen -i '{"alg":"ES512"}' -o $DB/new_sig.jwk
           # jose jwk gen -i '{"alg":"ECMR"}' -o $DB/new_exc.jwk

       Next, rename the old keys to have a leading . in order to hide them from advertisement:

           # mv $DB/old_sig.jwk $DB/.old_sig.jwk
           # mv $DB/old_exc.jwk $DB/.old_exc.jwk

       Tang will immediately pick up all changes. No restart is required.

       At this point, new client bindings will pick up the new keys and old clients can continue
       to utilize the old keys. Once you are sure that all the old clients have been migrated to
       use the new keys, you can remove the old keys. Be aware that removing the old keys while
       clients are still using them can result in data loss. You have been warned.

HIGH PERFORMANCE

       The Tang protocol is extremely fast. However, in the default setup we use systemd socket
       activation to start one process per connection. This imposes a performance overhead. For
       most deployments, this is still probably quick enough, given that Tang is extremely
       lightweight. But for larger deployments, greater performance can be achieved.

       Our recommendation for achieving higher throughput is to proxy traffic to Tang through
       your existing web services using a connection pool. Since there is one process per
       connection, keeping a number of connections open in this setup will enable effective
       parallelism since there are no internal locks in Tang.

       For Apache, this is possible using the ProxyPass directive of the mod_proxy module.

HIGH AVAILABILITY

       Tang provides two methods for building a high availability deployment.

        1. Client redundancy (recommended)

        2. Key sharing with DNS round-robin

       While it may be tempting to share keys between Tang servers, this method should be
       avoided. Sharing keys increases the risk of key compromise and requires additional
       automation infrastructure.

       Instead, clients should be coded with the ability to bind to multiple Tang servers. In
       this setup, each Tang server will have its own keys and clients will be able to decrypt by
       contacting a subset of these servers.

       Clevis already supports this workflow through its sss plugin.

       However, if you still feel that key sharing is the right deployment strategy, Tang will do
       nothing to stop you. Just (securely!) transfer all the contents of the database directory
       to all your servers. Make sure you don’t forget the unadvertised keys! Then set up DNS
       round-robin so that clients will be load balanced across your servers.

COMMANDS

       The Tang server provides no public commands.

AUTHOR

       Nathaniel McCallum npmccallum@redhat.com

SEE ALSO

       systemd.unit(5) <systemd.unit.5.adoc>, systemd.socket(5) <systemd.socket.5.adoc>,
       jose-jwk-gen(1) <jose-jwk-gen.1.adoc>, tang-show-keys(1) <tang-show-keys.1.adoc>,
       tangd-rotate-keys(1) <tangd-rotate-keys.1.adoc>

FURTHER READING

       •   Clevis    : https://github.com/latchset/clevis

       •   Tang      : https://github.com/latchset/tang

       •   JOSE      : https://datatracker.ietf.org/wg/jose/charter/

       •   mod_proxy : https://httpd.apache.org/docs/2.4/mod/mod_proxy.html

                                                                                          TANG(8)