The Federal Information Processing Standard Publication 140-2, (FIPS 140-2), is a U.S. government computer security standard used to approve cryptographic modules. {project_name} supports running in FIPS 140-2 compliant mode. In this case, {project_name} will use only FIPS approved cryptography algorithms for its functionality.
To run in FIPS 140-2, {project_name} should run on a FIPS 140-2 enabled system. This requirement usually assumes RHEL or Fedora where FIPS was enabled during installation.
See https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html-single/security_hardening/index#assembly_installing-the-system-in-fips-mode_security-hardening[RHEL documentation]
for the details. When the system is in FIPS mode, it makes sure that the underlying OpenJDK is in FIPS mode as well and would use only
If the system is not in FIPS mode, you can enable it with the following command, however it is recommended that system is in FIPS mode since the installation rather than subsequently enabling it as follows:
{project_name} internally uses the BouncyCastle library for many cryptography utilities. Please note that the default version of the BouncyCastle library that shipped with {project_name} is not FIPS compliant;
however, BouncyCastle also provides a FIPS validated version of its library. The FIPS validated BouncyCastle library cannot be shipped with {project_name} due to license constraints and
{project_name} cannot provide official support of it. Therefore, to run in FIPS compliant mode, you need to download BouncyCastle-FIPS bits and add them to the {project_name} distribution.
When {project_name} executes in fips mode, it will use the BCFIPS bits instead of the default BouncyCastle bits, which achieves FIPS compliance.
BouncyCastle FIPS can be downloaded from the https://www.bouncycastle.org/fips-java/[BouncyCastle official page]. Then you can add them to the directory
`KEYCLOAK_HOME/providers` of your distribution. Make sure to use proper versions compatible with BouncyCastle {project_name} dependencies. The supported BCFIPS bits needed are:
PKCS12 keystore can be generated with OpenJDK 21 Java on RHEL 9 in the standard way. For instance, the following command can be used to generate the keystore:
The `pkcs12` keystores in FIPS mode *do not* manage secret (symmetric) keys. This limitation is imposed by the `BCFIPS` provider which does not allow this type of keys inside the `pkcs12` keystore type.
When the system is in FIPS mode, the default `java.security` file is changed in order to use FIPS enabled security providers, so no additional configuration is needed. Additionally, in the PKCS12 keystore, you can store PBE (password-based encryption) keys simply by using the keytool command, which makes it ideal for using it with {project_name} KeyStore Vault and/or to store configuration properties in the KeyStore Config Source. For more details, see the <@links.server id="configuration"/> and the <@links.server id="vault"/>.
You can start by creating a helper file, such as `/tmp/kc.keystore-create.java.security`. The content of the file needs only to have the following property:
WARNING: Using self-signed certificates is for demonstration purposes only, so replace these certificates with proper certificates when you move to a production environment.
Similar options are needed when you are doing any other manipulation with keystore/truststore of `bcfks` type.
== Running the server.
To run the server with BCFIPS in non-approved mode, enter the following command::
NOTE: In non-approved mode, the default keystore type (as well as default truststore type) is PKCS12. Hence if you generated a BCFKS keystore as described above,
it is also required to use the command `--https-key-store-type=bcfks`. A similar command might be needed for the truststore as well if you want to use it.
NOTE: You can disable logging in production if everything works as expected.
== Strict mode
There is the `fips-mode` option, which is automatically set to `non-strict` when the `fips` feature is enabled. This means to run BCFIPS in the "non-approved mode".
The more secure alternative is to use `--features=fips --fips-mode=strict` in which case BouncyCastle FIPS will use "approved mode".
Using that option results in stricter security requirements on cryptography and security algorithms.
NOTE: In strict mode, the default keystore type (as well as default truststore type) is BCFKS. If you want to use a different keystore type
it is required to use the option `--https-key-store-type` with appropriate type. A similar command might be needed for the truststore as well if you want to use it.
* As mentioned in the previous section, strict mode may not work with `pkcs12` keystore. It is required to use another keystore (like `bcfks`) as mentioned earlier. Also `jks` and `pkcs12` keystores are not
supported in {project_name} when using strict mode. Some examples are importing or generating a keystore of an OIDC or SAML client in the Admin Console or for a `java-keystore` provider in the realm keys.
* User passwords must be 14 characters or longer. {project_name} uses PBKDF2 based password encoding by default. BCFIPS approved mode requires passwords to be at least 112 bits
(effectively 14 characters) with PBKDF2 algorithm. If you want to allow a shorter password, set the property `max-padding-length` of provider `pbkdf2-sha256` of SPI `password-hashing`
to value 14 to provide additional padding when verifying a hash created by this algorithm. This setting is also backwards compatible with previously stored passwords.
For example, if the user's database is in a non-FIPS environment and you have shorter passwords and you want to verify them now with {project_name} using BCFIPS in approved mode, the passwords should work.
NOTE: Using the option above does not break FIPS compliance. However, note that longer passwords are good practice anyway. For example, passwords auto-generated by modern browsers match this
requirement as they are longer than 14 characters.
* RSA keys of 1024 bits do not work (2048 is the minimum). This applies for keys used by the {project_name} realm itself (Realm keys from the `Keys` tab in the admin console), but also client keys and IDP keys
* HMAC SHA-XXX keys must be at least 112 bits (or 14 characters long). For example if you use OIDC clients with the client authentication `Signed Jwt with Client Secret` (or `client-secret-jwt` in
the OIDC notation), then your client secrets should be at least 14 characters long. Note that for good security, it is recommended to use client secrets generated by the {project_name} server, which
* The bc-fips version 1.0.2.4 deals with the end of the transition period for PKCS 1.5 RSA encryption. Therefore JSON Web Encryption (JWE) with algorithm `RSA1_5` is not allowed in strict mode by default (BC provides the system property `-Dorg.bouncycastle.rsa.allow_pkcs15_enc=true` as backward compatibility option for the moment). `RSA-OAEP` and `RSA-OAEP-256` are still available as before.
To have SAML working, make sure that a `XMLDSig` security provider is available in your security providers.
To have Kerberos working, make sure that a `SunJGSS` security provider is available. In FIPS enabled RHEL 9 in OpenJDK 17.0.6, these
security providers are not present in the `java.security`, which means that they effectively cannot work.
To have SAML working, you can manually add the provider into `JAVA_HOME/conf/security/java.security` into the list fips providers. For example, add the line such as the following:
Adding this security provider should work well. In fact, it is FIPS compliant and likely will be added by default in the future OpenJDK 17 micro version.
Details are in the https://bugzilla.redhat.com/show_bug.cgi?id=1940064[bugzilla].
NOTE: It is recommended to look at `JAVA_HOME/conf/security/java.security` and check all configured providers here and make sure that the number matches. In other words, `fips.provider.7`
assumes that there are already 6 providers configured with prefix like `fips.provider.N` in this file.
If you prefer not to edit your `java.security` file inside java itself, you can create a custom java security file (for example named `kc.java.security`) and add only the single
For Kerberos/SPNEGO, the security provider `SunJGSS` is not yet fully FIPS compliant. Hence it is not recommended to add it to your list of security providers
if you want to be FIPS compliant. The `KERBEROS` feature is disabled by default in {project_name} when it is executed on FIPS platform and when security provider is not
The algorithm `EdDSA` cannot be used in FIPS mode. Although the current `BCFIPS` provider supports `Ed25519` and `Ed448` curves, the resulting keys do not implement the standard JDK interfaces to manage them (`EdECKey`, `EdECPublicKey`, `EdECPrivateKey`,...), and {project_name} cannot use them for signatures.
the CLI must also use the BouncyCastle FIPS dependencies instead of plain BouncyCastle dependencies. To achieve this, you may copy the
jars to the CLI library folder and that is enough. CLI tool will automatically use BCFIPS dependencies instead of plain BC when
it detects that corresponding BCFIPS jars are present (see above for the versions used). For example, use command such as the following before running the CLI:
NOTE: When trying to use BCFKS truststore/keystore with CLI, you may see issues due this truststore is not the default java keystore type. It can be good to specify it as default in java
security properties. For example run this command on unix based systems before doing any operation with kcadm|kcreg clients:
will then "inherit" FIPS mode from the parent host.
See https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/security_hardening/using-the-system-wide-cryptographic-policies_security-hardening#enabling-fips-mode-in-a-container_using-the-system-wide-cryptographic-policies[this section]
Then build FIPS as an optimized Docker image and start it as described in the <@links.server id="containers"/>. These steps require that you use arguments as described above when starting the image.
If you previously used {project_name} in a non-fips environment, it is possible to migrate it to a FIPS environment including its data. However, restrictions and considerations exist as
* Make sure all the {project_name} functionality relying on keystores uses only supported keystore types. This differs based on whether strict or non-strict mode is used.
* Kerberos authentication may not work. If your authentication flow uses `Kerberos` authenticator, this authenticator will be automatically switched to `DISABLED` when migrated to FIPS
environment. It is recommended to remove any `Kerberos` user storage providers from your realm and disable `Kerberos` related functionality in LDAP providers before switching to FIPS environment.
In addition to the preceding requirements, be sure to doublecheck this before switching to FIPS strict mode:
* Make sure that clients relying on `Signed JWT with Client Secret` use at least 14 characters long secrets (ideally generated secrets)
* Password length restriction as described earlier. In case your users have shorter passwords, be sure to start the server with the max padding length set to 14 of PBKDF2 provider as mentioned
earlier. If you prefer to avoid this option, you can for instance ask all your users to reset their password (for example by the `Forgot password` link) during the first authentication in the new environment.
{project_name} is supported and tested on a FIPS enabled RHEL 8 system and `ubi8` image. It is supported with RHEL 9 (and `ubi9` image) as well. Running on
the non-RHEL compatible platform or on the non-FIPS enabled platform, the FIPS compliance cannot be strictly guaranteed and cannot be officially supported.
If you are still restricted to running {project_name} on such a system, you can at least update your security providers configured in `java.security` file. This update does not amount to FIPS compliance, but
at least the setup is closer to it. It can be done by providing a custom security file with only an overridden list of security providers as described earlier. For a list of recommended providers,
see the https://access.redhat.com/documentation/en-us/red_hat_build_of_openjdk/21/html/configuring_red_hat_build_of_openjdk_21_on_rhel_with_fips[OpenJDK 21 documentation].
You can check the {project_name} server log at startup to see if the correct security providers are used. TRACE logging should be enabled for crypto-related {project_name} packages as described in the Keycloak startup command earlier.