doc/internals/entities.txt - haproxy - Gitiles

 2011/02/25 - Description of the different entities in haproxy - w@1wt.eu


 1) Definitions
 --------------

 Listener
 --------

 A listener is the entity which is part of a frontend and which accepts
 connections. There are as many listeners as there are ip:port couples.
 There is at least one listener instantiated for each "bind" entry, and
 port ranges will lead to as many listeners as there are ports in the
 range. A listener just has a listening file descriptor ready to accept
 incoming connections and to dispatch them to upper layers.


 Initiator
 ---------

 An initiator is instantiated for each incoming connection on a listener. It may
 also be instantiated by a task pretending to be a client. An initiator calls
 the next stage's accept() callback to present it with the parameters of the
 incoming connection.


 Session
 -------

 A session is the only entity located between an initiator and a connector.
 This is the last stage which offers an accept() callback, and all of its
 processing will continue with the next stage's connect() callback. It holds
 the buffers needed to forward the protocol data between each side. This entity
 sees the native protocol, and is able to call analysers on these buffers. As it
 is used in both directions, it always has two buffers.

 When transformations are required, some of them may be done on the initiator
 side and other ones on the connector side. If additional buffers are needed for
 such transforms, those buffers cannot replace the session's buffers, but they
 may complete them.

 A session only needs to be instantiated when forwarding of data is required
 between two sides. Accepting and filtering on layer 4 information only does not
 require a session.

 For instance, let's consider the case of a proxy which receives and decodes
 HTTPS traffic, processes it as HTTP and recodes it as HTTPS before forwarding
 it. We'd have 3 layers of buffers, where the middle ones are used for
 forwarding of the protocol data (HTTP here) :

             <-- ssl dec --> <-forwarding-> <-- ssl enc -->

               ,->[||||]--.   ,->[||||]--.   ,->[||||]--.
    client  (|)            (|)            (|)            (|)  server
               ^--[||||]<-'   ^--[||||]<-'   ^--[||||]<-'

                   HTTPS          HTTP          HTTPS

 The session handling code is only responsible for monitoring the forwarding
 buffers here. It may declare the end of the session once those buffers are
 closed and no analyser wants to re-open them. The session is also the entity
 which applies the load balancing algorithm and decides the server to use.

 The other sides are responsible for propagating the state up to the session
 which takes decisions.


 Connector
 ---------

 A connector is the entity which permits to instantiate a connection to a known
 destination. It presents a connect() callback, and as such appears on the right
 side of diagrams.


 Connection
 ----------

 A connection is the entity instantiated by a connector. It may be composed of
 multiple stages linked together. Generally it is the part of the stream
 interface holding a file descriptor, but it can also be a processing block or a
 transformation block terminated by a connection. A connection presents a
 server-side interface.


 2) Sequencing
 -------------

 Upon startup, listeners are instantiated by the configuration. When an incoming
 connection reaches a listening file descriptor, its read() callback calls the
 corresponding listener's accept() function which instantiates an initiator and
 in turn recursively calls upper layers' accept() callbacks until
 accept_session() is called. accept_session() instantiates a new session which
 starts protocol analysis via process_session(). When all protocol analysis is
 done, process_session() calls the connect() callback of the connector in order
 to get a connection.
	2011/02/25 - Description of the different entities in haproxy - w@1wt.eu


	1) Definitions
	--------------

	Listener
	--------

	A listener is the entity which is part of a frontend and which accepts
	connections. There are as many listeners as there are ip:port couples.
	There is at least one listener instantiated for each "bind" entry, and
	port ranges will lead to as many listeners as there are ports in the
	range. A listener just has a listening file descriptor ready to accept
	incoming connections and to dispatch them to upper layers.


	Initiator
	---------

	An initiator is instantiated for each incoming connection on a listener. It may
	also be instantiated by a task pretending to be a client. An initiator calls
	the next stage's accept() callback to present it with the parameters of the
	incoming connection.


	Session
	-------

	A session is the only entity located between an initiator and a connector.
	This is the last stage which offers an accept() callback, and all of its
	processing will continue with the next stage's connect() callback. It holds
	the buffers needed to forward the protocol data between each side. This entity
	sees the native protocol, and is able to call analysers on these buffers. As it
	is used in both directions, it always has two buffers.

	When transformations are required, some of them may be done on the initiator
	side and other ones on the connector side. If additional buffers are needed for
	such transforms, those buffers cannot replace the session's buffers, but they
	may complete them.

	A session only needs to be instantiated when forwarding of data is required
	between two sides. Accepting and filtering on layer 4 information only does not
	require a session.

	For instance, let's consider the case of a proxy which receives and decodes
	HTTPS traffic, processes it as HTTP and recodes it as HTTPS before forwarding
	it. We'd have 3 layers of buffers, where the middle ones are used for
	forwarding of the protocol data (HTTP here) :

	<-- ssl dec --> <-forwarding-> <-- ssl enc -->

	,->[\|\|\|\|]--. ,->[\|\|\|\|]--. ,->[\|\|\|\|]--.
	client (\|) (\|) (\|) (\|) server
	^--[\|\|\|\|]<-' ^--[\|\|\|\|]<-' ^--[\|\|\|\|]<-'

	HTTPS HTTP HTTPS

	The session handling code is only responsible for monitoring the forwarding
	buffers here. It may declare the end of the session once those buffers are
	closed and no analyser wants to re-open them. The session is also the entity
	which applies the load balancing algorithm and decides the server to use.

	The other sides are responsible for propagating the state up to the session
	which takes decisions.


	Connector
	---------

	A connector is the entity which permits to instantiate a connection to a known
	destination. It presents a connect() callback, and as such appears on the right
	side of diagrams.


	Connection
	----------

	A connection is the entity instantiated by a connector. It may be composed of
	multiple stages linked together. Generally it is the part of the stream
	interface holding a file descriptor, but it can also be a processing block or a
	transformation block terminated by a connection. A connection presents a
	server-side interface.


	2) Sequencing
	-------------

	Upon startup, listeners are instantiated by the configuration. When an incoming
	connection reaches a listening file descriptor, its read() callback calls the
	corresponding listener's accept() function which instantiates an initiator and
	in turn recursively calls upper layers' accept() callbacks until
	accept_session() is called. accept_session() instantiates a new session which
	starts protocol analysis via process_session(). When all protocol analysis is
	done, process_session() calls the connect() callback of the connector in order
	to get a connection.