Client-Side HTTPS Support
Akka HTTP supports TLS encryption on the client-side as well as on the server-side.
The central vehicle for configuring encryption is the HttpsConnectionContext
HttpsConnectionContext
, which can be created using the static methods on ConnectionContext
ConnectionContext
:
- Scala
-
source
/** * Creates an HttpsConnectionContext for client-side use from the given SSLContext. */ def httpsClient(context: SSLContext): HttpsConnectionContext = // ...
- Java
-
source
/** * Creates an HttpsConnectionContext for client-side use from the given SSLContext. */ def httpsClient(sslContext: SSLContext): HttpsConnectionContext = // ...
In addition to the outgoingConnection
, newHostConnectionPool
and cachedHostConnectionPool
methods the akka.http.scaladsl.Http
akka.http.javadsl.Http
extension also defines outgoingConnectionHttps
, newHostConnectionPoolHttps
and cachedHostConnectionPoolHttps
. These methods work identically to their counterparts without the -Https
suffix, with the exception that all connections will always be encrypted.
The singleRequest
and superPool
methods determine the encryption state via the scheme of the incoming request, i.e. requests to an “https” URI will be encrypted, while requests to an “http” URI won’t.
The encryption configuration for all HTTPS connections, i.e. the HttpsContext
is determined according to the following logic:
- If the optional
httpsContext
method parameter is defined it contains the configuration to be used (and thus takes precedence over any potentially set default client-sideHttpsContext
). - If the optional
httpsContext
method parameter is undefined (which is the default) the default client-sideHttpsContext
is used, which can be set via thesetDefaultClientHttpsContext
on theHttp
Http
extension. - If no default client-side
HttpsContext
has been set via thesetDefaultClientHttpsContext
on theHttp
Http
extension the default system configuration is used.
Usually the process is, if the default system TLS configuration is not good enough for your application’s needs, that you configure a custom HttpsContext
instance and set it via Http().setDefaultClientHttpsContext
Http.get(system).setDefaultClientHttpsContext
. Afterwards you simply use outgoingConnectionHttps
, newHostConnectionPoolHttps
, cachedHostConnectionPoolHttps
, superPool
or singleRequest
without a specific httpsContext
argument, which causes encrypted connections to rely on the configured default client-side HttpsConnectionContext
HttpsConnectionContext
.
If no custom HttpsContext
is defined the default context uses Java’s default TLS settings. Customizing the HttpsContext
can make the Https client less secure. Understand what you are doing!
Detailed configuration and workarounds
While it is possible to disable certain checks, we strongly recommend to instead attempt to solve these issues by properly configuring TLS–for example by adding trusted keys to the keystore.
If however certain checks really need to be disabled because of misconfigured (or legacy) servers that your application has to speak to, instead of disabling the checks globally (by using setDefaultClientHttpsContext
) we suggest configuring the loose settings for specific connections that are known to need them disabled (and trusted for some other reason). The pattern of doing so is documented in the following sub-sections.
Disabling hostname verification
Hostname verification proves that the Akka HTTP client is actually communicating with the server it intended to communicate with. Without this check a man-in-the-middle attack is possible. In the attack scenario, an alternative certificate would be presented which was issued for another host name. Checking the host name in the certificate against the host name the connection was opened against is therefore vital.
When you create your HttpsConnectionContext
HttpsConnectionContext
with ConnectionContext.httpsClient
ConnectionContext.httpsClient
enables hostname verification. The following shows an example of disabling hostname verification for a given connection:
- Scala
-
source
implicit val system = ActorSystem() def createInsecureSslEngine(host: String, port: Int): SSLEngine = { val engine = SSLContext.getDefault.createSSLEngine(host, port) engine.setUseClientMode(true) // WARNING: this creates an SSL Engine without enabling endpoint identification/verification procedures // Disabling host name verification is a very bad idea, please don't unless you have a very good reason to. // When in doubt, use the `ConnectionContext.httpsClient` that takes an `SSLContext` instead, or enable with: // engine.setSSLParameters({ // val params = engine.getSSLParameters // params.setEndpointIdentificationAlgorithm("https") // params // ) engine } val badCtx = ConnectionContext.httpsClient(createInsecureSslEngine _) Http().outgoingConnectionHttps(unsafeHost, connectionContext = badCtx)
- Java
-
source
final ActorSystem system = ActorSystem.create(); final Http http = Http.get(system); final HttpsConnectionContext badCtx = ConnectionContext.httpsClient((host, port) -> { SSLEngine engine = SSLContext.getDefault().createSSLEngine(host, port); engine.setUseClientMode(true); // WARNING: this creates an SSL Engine without enabling endpoint identification/verification procedures // Disabling host name verification is a very bad idea, please don't unless you have a very good reason to. // When in doubt, use the `ConnectionContext.httpsClient` that takes an `SSLContext` instead, or enable // with: // SSLParameters params = engine.getSSLParameters(); // params.setEndpointIdentificationAlgorithm("https"); // engine.setSSLParameters(params); return engine; }); http.connectionTo(unsafeHost).withCustomHttpsConnectionContext(badCtx).https();