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Keymaster

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Attention:

This repo is migrated to https://github.com/Cloud-Foundations/keymaster, if you have any questions, please go and ask there! Thank you!

Keymaster is usable short-term certificate based identity system. With a primary goal to be a single-sign-on (with optional second factor with Symantec VIP or U2F tokens) for CLI operations (both SSHD and TLS).

This system is easy to use, configure and administer. Keymaster has the following components:

  • keymasterd is the server-side daemon that runs the management interface, logs web interface and the functionality which generates the short term certificates.
  • keymaster is the agent used to obtain the short-term certificates from the server (keymasterd)
  • keymaster-eventmon is a daemon used to monitor a cluster of Keymaster clients. It uses GRPC to collects authentication and certificate issuing activity to a single log file that can be retrieved from a single place (combining Keymaster logs with system logs (syslog) to verify all certificates uses (for at least SSH) can be attributed back to a specific Keymaster session is on the roadmap.
  • keymaster-unlocker is use to ‘unseal’ the Keymaster when initialized with an encrypted CA. keymaster-unlocker requires a client side certificate that is signed by the adminCA.

From the user's perspective a single command is needed with no flags (after the first run). After running the client command successfully users get a 16h (or less) SSH and TLS certificates. On systems with a running ssh-agent the command also injects the certificate (with matching expiration time) so that no other interaction is needed to start using it with SSH.

For the service operators it requires adding the Keymaster certificates to the set of trusted certificates.

In general, the relationship between components is shown here:

keymaster-keymasterd interaction image

Please see the design document for more information.

Getting Started

Pre-build binaries (both RPM and DEB) can be found here: releases page or you can build it from source (please see instructions below). The RPM and DEB packages contain both server and client binaries. The tarballs only contain the client binaries.

Building from Source

Prerequisites

  • go >= 1.8
  • make
  • gcc

For Windows (both gcc and gnu-make) use: TDM-GCC (64 bit).

Building

  1. make get-deps
  2. make

The make process will build the four binaries (keymasterd, keymaster, keymaster-unlocker, and keymaster-eventmond) described above.

Running

Once you've installed (or compiled) the binaries follow the following instructions to setup a Keymaster environment

keymasterd (server)

The keymasterd service runs the following services:

  • Service Web Interface (default port 443): Access to the web interface running on port 443 (default) can be granted via LDAP or apache username/password files. For password backend Keymaster supports LDAP backends and apache password files.
  • Admin Management Interface (default port 6920): The service exposed on port 6920 allows administrators or log collection systems to collect logs generated by the keymasterd service.

To run keymasterd you will need to generate a config file. keymasterd facilitates this through the command-line arguments -generateConfig and -alsoLogToStderr. Running the keymasterd binary with these arguments will generate the following:

  • A configuration file. By default keymasterd will write this file to /etc/keymaster/config.yml.
  • The Keymaster CA key pair. The encrypted private key (masterkey.asc) is an armored PGP file. For development (or if your trust model permits it) you can decrypt the private-key and write it to the filesystem. To decrypt the key run gpg -ad $Filename. Once decrypted set the ssh_ca_filename field in the keymasterd config file to the path of the decrypted master key.
  • Server keys (for Testing Purposes only): the server.pem and server.key (self-signed for localhost)
  • Admin CA certificate and key: The admin CA certificate (adminCA.pem) and key (adminCA.key) are used to generate certificates that grant access to the control port of the keymasterd management interface (default port 443).

Notice: Keymaster has a bug where the directory locations are not written correctly to the config file. Depending on the platform you're running Keymaster on the following workaround will apply:

  • RPM (CentOS): Modify the following configuration items in your config.yml file:
    • data_directory: /var/lib/keymaster
    • shared_data_directory: /usr/share/keymasterd/.
  • DEB (Debian/Ubuntu): Modify the following configuration items in your config.yml file:
    • data_directory: /var/lib/keymaster
    • shared_data_directory: /usr/share/keymasterd/.
Supported backend authentication methods

Several authentication methods are supported by the keymasterd service. You can separately specify which authentication methods you accept for the web backend (allowed_auth_backends_for_webui) and for obtaining certificates (allowed_auth_backends_for_certs).

  • LDAP: For LDAP the bind_pattern is a printf string where %s is the place where the username will be substituted. For example for an 389ds/openldap string might be: "uid=%s,ou=People,dc=example,dc=com. To leverage LDAP authentication set the appropriate allowed_auth_* setting to ["ldap"].
  • Apache htpass: The passfile.htpass file contains the usernames and their passwords allowed to access the keymasterd web interface. New users can be added via the following command: htpasswd -B /etc/keymaster/passfile.htpass <username>. htpasswd is distributed via the httpd-tools package. Keymaster will only accept htpass files that store BCRYPT encrypted credentials. To use Apache password files to authenticate users to the web interface set the following configuration item: allowed_auth_* to ["password"]
  • U2F tokens: To enable U2F tokens set set the appropriate allowed_auth_* setting to `["U2F"]``
  • VIP Manager: To enable VIP Manager set set the appropriate allowed_auth_* setting to ["SymantecVIP"]
Credential and Token Storage

Keymaster supports SQLite and PostgreSQL to store u2f tokens or username and passwords. The storage_url field in config.yml contains the connection information for the database. If no storage_url is defined Keymaster will use an SQLite database located in the configured data directory for Keymaster. An example of a PostgreSQL url is: postgresql://dbusername:dbpassword.example.com/keymasterdbname

keymaster-unlocker

The keymaster-unlocker binary allows you to 'unseal' the Keymaster environment. This binary requires a client side certificate signed by the adminCA.

keymaster (client)

The first time you run the client it requires you to specify the Keymaster server with the option -configHost. The client will connect, retrieve and store the configuration from the server. Keymaster will always use TLS. For testing you can use the -rootCAFilename option to specify a (e.g self signed) certificate for testing. The Keymaster clients will use the running OS CA store by default.

Your certificate will be created in the home directory of the user that is running the keymaster command.

Note: Your username on your target (SSH) host and the username used to authenticate to the Keymaster server should be the same.

Contributions

Prior to receiving information from any contributor, Symantec requires that all contributors complete, sign, and submit Symantec Personal Contributor Agreement (SPCA). The purpose of the SPCA is to clearly define the terms under which intellectual property has been contributed to the project and thereby allow Symantec to defend the project should there be a legal dispute regarding the software at some future time. A signed SPCA is required to be on file before an individual is given commit privileges to the Symantec open source project. Please note that the privilege to commit to the project is conditional and may be revoked by Symantec.

If you are employed by a corporation, a Symantec Corporate Contributor Agreement (SCCA) is also required before you may contribute to the project. If you are employed by a company, you may have signed an employment agreement that assigns intellectual property ownership in certain of your ideas or code to your company. We require a SCCA to make sure that the intellectual property in your contribution is clearly contributed to the Symantec open source project, even if that intellectual property had previously been assigned by you.

Please complete the SPCA and, if required, the SCCA and return to Symantec at:

Symantec Corporation Legal Department Attention: Product Legal Support Team 350 Ellis Street Mountain View, CA 94043

Please be sure to keep a signed copy for your records.

LICENSE

Copyright 2016 Symantec Corporation.

Licensed under the Apache License, Version 2.0 (the “License”); you may not use this file except in compliance with the License.

You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.