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ADR about the usage of the TLS registry in client extensions establis…
…hing TLS connection
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= Using the TLS registry for clients | ||
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* Status: accepted | ||
* Date: 2024-06-12 by @cescoffier, @geoand, @gsmet | ||
// * Revised: | ||
== Context and Problem Statement | ||
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With https://github.com/quarkusio/quarkus/pull/39825[#39825], we introduced the concept of a TLS registry in Quarkus. | ||
The TLS registry is a way to configure TLS settings in a central place and reuse them across the application and extensions. | ||
This is particularly useful when an application needs to connect to multiple services using TLS. | ||
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Until now, each extension has _maintained_ its own way to configure TLS settings. This leads to a lot of duplication and inconsistencies. | ||
It's also difficult for the user to understand how to configure TLS settings in Quarkus. | ||
The TLS registry is a way to solve this problem. | ||
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The goal of this ADR is to explain how the registry should be used by client establishing a connection to a server using TLS. | ||
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It should be noted that TLS is a sensitive and complex topic. | ||
The TLS registry is not a silver bullet and does not solve all the problems related to TLS. | ||
It is a way to simplify the configuration of TLS settings in Quarkus applications. | ||
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== The TLS registry | ||
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The TLS registry is an extension processing the `quarkus.tls` configuration and proposing a runtime API to access it. | ||
Note that the configuration and the runtime API are different. | ||
The configuration is used to define the TLS settings, while the runtime API is used to access these pre-processed settings. | ||
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hen using the options directly under `quarkus.tls.`, one configures the default (_unamed_) configuration, while using options under `quarkus.tls.<name>.` configures a _named_ configuration. | ||
For each configuration, trust stores and key stores can be defined, as well as the default protocol, cipher suites, etc. | ||
More details can be found in the https://quarkus.io/version/main/guides/tls-registry-reference[documentation] and in the https://github.com/quarkusio/quarkus/blob/main/extensions/tls-registry/runtime/src/main/java/io/quarkus/tls/runtime/config/TlsBucketConfig.java[code]. | ||
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At runtime, the https://github.com/quarkusio/quarkus/blob/main/extensions/tls-registry/runtime/src/main/java/io/quarkus/tls/TlsConfigurationRegistry.java[TlsConfigurationRegistry] CDI bean gives access to the default and named _TlsConfiguration_. | ||
These configurations have been verified during the application startup (password, alias, validity...) and are ready to be used. | ||
https://github.com/quarkusio/quarkus/blob/main/extensions/tls-registry/runtime/src/main/java/io/quarkus/tls/TlsConfiguration.java[TLSConfiguration] gives access to the key store, trust store, Vert.x options, tailored `SSLContext`... | ||
It also supports reloading the certificates. | ||
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== Configuring clients with the TLS registry | ||
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When configuring a _client_ establishing a connection to a server using TLS, the TLS registry should be used to configure the TLS settings. | ||
The TLS settings must be defined in the `quarkus.tls.<name>.` configuration. | ||
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WARNING: Using the default configuration is going to create conflict with the server configuration, and it's is generally not a good idea to use the same configuration for the client and the server. | ||
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The client extension should use the TLS registry to retrieve the _TlsConfiguration_ and use it to configure the connection. | ||
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Thus, the client configuration must be extended with a new configuration item: `tlsConfigurationName`: | ||
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[source, java] | ||
---- | ||
/** | ||
* The name of the TLS configuration to use. | ||
* <p> | ||
* If a name is configured, it uses the configuration from {@code quarkus.tls.<name>.*} | ||
* If a name is configured, but no TLS configuration is found with that name then an error will be thrown. | ||
* <p> | ||
* The default TLS configuration is <strong>not</strong> used by default. | ||
*/ | ||
Optional<String> tlsConfigurationName(); | ||
---- | ||
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Clients must not use the default TLS configuration, except for one case. | ||
For backward compatibility purpose, `quarkus.tls.trust-all` should be honored when configuring clients. | ||
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== Using the TLS registry from client extensions | ||
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=== Retrieving the registry from an extension | ||
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The TLS registry is a CDI bean and can be injected in other beans. | ||
The TLS registry is a _singleton_ CDI bean. | ||
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However, before configuring the client, you need to make sure the TLS registry is properly initialized. | ||
The recommended approach is to inject the `TlsConfigurationRegistry tlsConfigurationRegistry` bean in a `recorder`: | ||
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[source, java] | ||
---- | ||
BasicWebSocketConnectorImpl(Vertx vertx, Codecs codecs, ClientConnectionManager connectionManager, | ||
WebSocketsClientRuntimeConfig config, TlsConfigurationRegistry tlsConfigurationRegistry) { | ||
// ... | ||
} | ||
---- | ||
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Another approach is to use the `TlsRegistryBuildItem` in a _processor_: | ||
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[source, java] | ||
---- | ||
@Record(ExecutionTime.RUNTIME_INIT) | ||
@BuildStep | ||
public SyntheticBeanBuildItem setup(OidcBuildTimeConfig oidcBuildTimeConfig, OidcConfig oidcRunTimeConfig, | ||
KeycloakPolicyEnforcerConfig keycloakConfig, KeycloakPolicyEnforcerRecorder recorder, | ||
HttpConfiguration httpConfiguration, TlsRegistryBuildItem tlsRegistryBuildItem) { | ||
if (oidcBuildTimeConfig.enabled) { | ||
return SyntheticBeanBuildItem.configure(PolicyEnforcerResolver.class).unremovable() | ||
.types(PolicyEnforcerResolver.class) | ||
.supplier(recorder.setup(oidcRunTimeConfig, keycloakConfig, httpConfiguration, | ||
tlsRegistryBuildItem.registry())) // Get the registry runtime value | ||
.scope(Singleton.class) | ||
.setRuntimeInit() | ||
.done(); | ||
} | ||
return null; | ||
} | ||
---- | ||
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=== Finding the named TLS configuration | ||
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Once the TLS registry is properly passed, the client extension can use it to retrieve the named TLS configuration: | ||
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[source, java] | ||
---- | ||
TlsConfiguration configuration = null; | ||
Optional<TlsConfiguration> maybeTlsConfiguration = TlsConfiguration.from(tlsConfigurationRegistry, | ||
config.tlsConfigurationName()); | ||
if (config.tlsConfigurationName.isPresent()) { | ||
configuration = maybeConfiguration.get(); | ||
} else if (tlsRegistry.getDefault().isPresent() && tlsRegistry.getDefault().get().isTrustAll()) { | ||
defaultTrustAll = tlsRegistry.getDefault().get().isTrustAll(); | ||
if (defaultTrustAll) { | ||
LOGGER.warn("The default TLS configuration is set to trust all certificates. This is a security risk." | ||
+ "Please use a named TLS configuration for the mailer " + name + " to avoid this warning."); | ||
} | ||
} | ||
---- | ||
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Also, using the _default_ `trust-all` should be avoided, and a warning should be logged if it's used. | ||
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=== Configuring a Vert.x client | ||
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When configuring a Vert.x client (HTTP client, SMTP client, gRPC client, etc.), the `TlsConfiguration` should be used to configure the client: | ||
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- The `trustStore` and `keyStore` should be set on the `options.setTrustOptions(config.getTrustStoreOptions())` and `options.setKeyCertOptions(config.getKeyStoreOptions())`. Setting the keystore enables mutual TLS (`mTLS`). | ||
- `trustAll` can be set using `options.setTrustAll(true)`. | ||
- The hostname verification algorithm should be configured to a sensible default (`HTTPS` for every HTTP based protocol). | ||
To disable the hostname verification, the `NONE` value should be used. | ||
- `TlsConfigure.getSSLOptions()` allows configuring various TLS aspect like the protocol, cipher suites, handshake, ALPN, certificate revocation lists, etc: | ||
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[source, java] | ||
---- | ||
SSLOptions sslOptions = configuration.getSSLOptions(); | ||
if (sslOptions != null) { | ||
cfg.setSslHandshakeTimeout(sslOptions.getSslHandshakeTimeout()); | ||
cfg.setSslHandshakeTimeoutUnit(sslOptions.getSslHandshakeTimeoutUnit()); | ||
for (String suite : sslOptions.getEnabledCipherSuites()) { | ||
cfg.addEnabledCipherSuite(suite); | ||
} | ||
for (Buffer buffer : sslOptions.getCrlValues()) { | ||
cfg.addCrlValue(buffer); | ||
} | ||
cfg.setEnabledSecureTransportProtocols(sslOptions.getEnabledSecureTransportProtocols()); | ||
} | ||
---- | ||
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- For protocol supporting SNI, the SNI should be configured using `options.setSNI(tlsConfiguration.usesSNI())`. | ||
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=== Configuring non-Vert.x clients | ||
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When configuring a non-Vert.x client, the `TLSConfiguration` provides: | ||
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- `KeyStore` objects for the key store and trust store | ||
- A `SSLContext` object to configure the SSL context. | ||
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== Considered options | ||
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=== Continuing with the current approach | ||
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The current approach is to let each extension manage its TLS settings. | ||
This approach leads to a lot of duplication and inconsistencies. | ||
It's also difficult for the user to understand how to configure TLS settings in Quarkus. | ||
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Note that the TLS registry does **NOT** replace the extension-specific configuration. | ||
It's a way to simplify the configuration of TLS settings in Quarkus applications. | ||
The extension-specific configuration should be considered _deprecated_ and users should be invited to use the TLS registry. | ||
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== Consequences | ||
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=== Positive | ||
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* A centralized way to configure TLS settings in Quarkus applications. | ||
* A homogenization of the TLS configuration across Quarkus extensions. | ||
* A more complete and consistent TLS configuration. | ||
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=== Negative | ||
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* Dealing with 2 different ways to configure TLS settings in Quarkus applications until the extension-specific configurations are removed. | ||
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