pekko/akka-docs/rst/java/http/client-side/connection-level.rst

.. _connection-level-api-java:

Connection-Level Client-Side API
================================

The connection-level API is the lowest-level client-side API Akka HTTP provides. It gives you full control over when
HTTP connections are opened and closed and how requests are to be send across which connection. As such it offers the
highest flexibility at the cost of providing the least convenience.


Opening HTTP Connections
------------------------
With the connection-level API you open a new HTTP connection to a target endpoint by materializing a ``Flow``
returned by the ``Http.get(system).outgoingConnection(...)`` method. Here is an example:

.. includecode:: ../../code/docs/http/javadsl/HttpClientExampleDocTest.java#outgoing-connection-example

Apart from the host name and port the ``Http.get(system).outgoingConnection(...)`` method also allows you to specify socket options
and a number of configuration settings for the connection.

Note that no connection is attempted until the returned flow is actually materialized! If the flow is materialized
several times then several independent connections will be opened (one per materialization).
If the connection attempt fails, for whatever reason, the materialized flow will be immediately terminated with a
respective exception.


Request-Response Cycle
----------------------

Once the connection flow has been materialized it is ready to consume ``HttpRequest`` instances from the source it is
attached to. Each request is sent across the connection and incoming responses dispatched to the downstream pipeline.
Of course and as always, back-pressure is adequately maintained across all parts of the
connection. This means that, if the downstream pipeline consuming the HTTP responses is slow, the request source will
eventually be slowed down in sending requests.

Any errors occurring on the underlying connection are surfaced as exceptions terminating the response stream (and
canceling the request source).

Note that, if the source produces subsequent requests before the prior responses have arrived, these requests will be
pipelined__ across the connection, which is something that is not supported by all HTTP servers.
Also, if the server closes the connection before responses to all requests have been received this will result in the
response stream being terminated with a truncation error.

__ http://en.wikipedia.org/wiki/HTTP_pipelining


Closing Connections
-------------------

Akka HTTP actively closes an established connection upon reception of a response containing ``Connection: close`` header.
The connection can also be closed by the server.

An application can actively trigger the closing of the connection by completing the request stream. In this case the
underlying TCP connection will be closed when the last pending response has been received.


Timeouts
--------

Currently Akka HTTP doesn't implement client-side request timeout checking itself as this functionality can be regarded
as a more general purpose streaming infrastructure feature.
However, akka-stream should soon provide such a feature.


.. _http-client-layer-java:

Stand-Alone HTTP Layer Usage
----------------------------

Due to its Reactive-Streams-based nature the Akka HTTP layer is fully detachable from the underlying TCP
interface. While in most applications this "feature" will not be crucial it can be useful in certain cases to be able
to "run" the HTTP layer (and, potentially, higher-layers) against data that do not come from the network but rather
some other source. Potential scenarios where this might be useful include tests, debugging or low-level event-sourcing
(e.g by replaying network traffic).

On the client-side the stand-alone HTTP layer forms a ``BidiFlow<HttpRequest, SslTlsOutbound, SslTlsInbound, HttpResponse, BoxedUnit>``,
that is a stage that "upgrades" a potentially encrypted raw connection to the HTTP level.

You create an instance of the layer by calling one of the two overloads of the ``Http.get(system).clientLayer`` method,
which also allows for varying degrees of configuration.
+str,doc #18012 adds missing docs on client-side http in java 2015-07-16 17:37:34 +02:00			`.. _connection-level-api-java:`
=doc port over some http documentation from the scala side 2015-07-10 19:13:56 +02:00
			`Connection-Level Client-Side API`
			`================================`
=doc add lots of documentation about java-side routing API, some detail and further examples still missing 2015-07-10 19:10:29 +02:00
+str,doc #18012 adds missing docs on client-side http in java 2015-07-16 17:37:34 +02:00			`The connection-level API is the lowest-level client-side API Akka HTTP provides. It gives you full control over when`
			`HTTP connections are opened and closed and how requests are to be send across which connection. As such it offers the`
			`highest flexibility at the cost of providing the least convenience.`
=doc add lots of documentation about java-side routing API, some detail and further examples still missing 2015-07-10 19:10:29 +02:00
+str,doc #18012 adds missing docs on client-side http in java 2015-07-16 17:37:34 +02:00
			`Opening HTTP Connections`
			`------------------------`
			With the connection-level API you open a new HTTP connection to a target endpoint by materializing a ``Flow``
			returned by the ``Http.get(system).outgoingConnection(...)`` method. Here is an example:

			`.. includecode:: ../../code/docs/http/javadsl/HttpClientExampleDocTest.java#outgoing-connection-example`

			Apart from the host name and port the ``Http.get(system).outgoingConnection(...)`` method also allows you to specify socket options
			`and a number of configuration settings for the connection.`

			`Note that no connection is attempted until the returned flow is actually materialized! If the flow is materialized`
			`several times then several independent connections will be opened (one per materialization).`
			`If the connection attempt fails, for whatever reason, the materialized flow will be immediately terminated with a`
			`respective exception.`


			`Request-Response Cycle`
			`----------------------`

			Once the connection flow has been materialized it is ready to consume ``HttpRequest`` instances from the source it is
			`attached to. Each request is sent across the connection and incoming responses dispatched to the downstream pipeline.`
			`Of course and as always, back-pressure is adequately maintained across all parts of the`
			`connection. This means that, if the downstream pipeline consuming the HTTP responses is slow, the request source will`
			`eventually be slowed down in sending requests.`

			`Any errors occurring on the underlying connection are surfaced as exceptions terminating the response stream (and`
			`canceling the request source).`

			`Note that, if the source produces subsequent requests before the prior responses have arrived, these requests will be`
			`pipelined__ across the connection, which is something that is not supported by all HTTP servers.`
			`Also, if the server closes the connection before responses to all requests have been received this will result in the`
			`response stream being terminated with a truncation error.`

			`__ http://en.wikipedia.org/wiki/HTTP_pipelining`


			`Closing Connections`
			`-------------------`

			Akka HTTP actively closes an established connection upon reception of a response containing ``Connection: close`` header.
			`The connection can also be closed by the server.`

			`An application can actively trigger the closing of the connection by completing the request stream. In this case the`
			`underlying TCP connection will be closed when the last pending response has been received.`


			`Timeouts`
			`--------`

			`Currently Akka HTTP doesn't implement client-side request timeout checking itself as this functionality can be regarded`
			`as a more general purpose streaming infrastructure feature.`
			`However, akka-stream should soon provide such a feature.`


+htc #18027 add the missing javadsl.clientLayer and serverLayer 2015-07-24 10:57:54 +02:00			`.. _http-client-layer-java:`

+str,doc #18012 adds missing docs on client-side http in java 2015-07-16 17:37:34 +02:00			`Stand-Alone HTTP Layer Usage`
			`----------------------------`

+htc #18027 add the missing javadsl.clientLayer and serverLayer 2015-07-24 10:57:54 +02:00			`Due to its Reactive-Streams-based nature the Akka HTTP layer is fully detachable from the underlying TCP`
			`interface. While in most applications this "feature" will not be crucial it can be useful in certain cases to be able`
			`to "run" the HTTP layer (and, potentially, higher-layers) against data that do not come from the network but rather`
			`some other source. Potential scenarios where this might be useful include tests, debugging or low-level event-sourcing`
			`(e.g by replaying network traffic).`

			On the client-side the stand-alone HTTP layer forms a ``BidiFlow<HttpRequest, SslTlsOutbound, SslTlsInbound, HttpResponse, BoxedUnit>``,
			`that is a stage that "upgrades" a potentially encrypted raw connection to the HTTP level.`

			You create an instance of the layer by calling one of the two overloads of the ``Http.get(system).clientLayer`` method,
			`which also allows for varying degrees of configuration.`