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- tang(8)
- =======
- :doctype: manpage
- == 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:
- ifdef::freebsd[]
- $ sudo service tangd enable
- $ sudo service tangd start
- endif::[]
- ifndef::freebsd[]
- $ sudo systemctl enable tangd.socket --now
- endif::[]
- 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
- ifdef::freebsd[]
- variables in the */usr/local/etc/rc.d/tangd* file.
- endif::[]
- ifndef::freebsd[]
- *tangd.socket* unit file using the standard systemd mechanisms. See
- link:systemd.unit.5.adoc[*systemd.unit*(5)] and link:systemd.socket.5.adoc[*systemd.socket*(5)] for more information.
- endif::[]
- == 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
- link:tangd-rotate-keys.1.adoc[*tangd-rotate-keys*(1)] 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
- ifndef::freebsd[]
- link:systemd.unit.5.adoc[*systemd.unit*(5)],
- link:systemd.socket.5.adoc[*systemd.socket*(5)],
- endif::[]
- link:jose-jwk-gen.1.adoc[*jose-jwk-gen*(1)],
- link:tang-show-keys.1.adoc[*tang-show-keys*(1)],
- link:tangd-rotate-keys.1.adoc[*tangd-rotate-keys*(1)]
- == 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
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