- PUBLISHED INPUT EVENTS
- PUBLISHED OUTPUT EVENTS
POE::Component::Jabber - A POE Component for communicating over Jabber
PCJ is a communications component that fits within the POE framework and provides the raw low level footwork of initiating a connection, negotiatating various protocol layers, and authentication necessary for the end developer to focus more on the business end of implementing a client or service.
Accepts many named, required arguments which are listed below. new() will return a reference to the newly created reference to a PCJ object and should be stored. There are many useful methods that can be called on the object to gather various bits of information such as your negotiated JID.
The IP address in dotted quad, or the FQDN for the server.
The remote port of the server to connect.
The hostname of the server. Used in addressing.
The username to be used in authentication (OPTIONAL for jabberd14 service connections).
The password to be used in authentication.
The resource that will be used for binding and session establishment (OPTIONAL: resources aren't necessary for initialization of service oriented connections, and if not provided for client connections will be automagically generated).
The alias the component should register for use within POE. Defaults to the class name.
This is the type of connection you wish to esablish. There four possible types available for use. One must be selected. Each item is exported by default.
- XMPP (XMPP.pm)
This connection type is for use with XMPP 1.0 compliant servers. It implements all of the necessary functionality for TLS, binding, and session negotiation.
- LEGACY (Legacy.pm)
LEGACY is for use with pre-XMPP Jabber servers. It uses the old style authentication and non-secured socket communication.
- JABBERD14_COMPONENT (J14.pm)
Use this connection type if designing a backbone level component for a server that implements XEP-114 for router level communication.
- JABBERD20_COMPONENT (J2.pm)
If making a router level connection to the jabberd2 server, use this connection type. It implements the modified XMPP protocol, which does most of it except the session negotiation.
Each connection type has a corresponding module. See their respective documentation for more information each protocol dialect.
If for whatever reason you want to override the protocol version gathered from your ConnectionType, this is the place to do it. Please understand that this value SHOULD NOT be altered, but it is documented here just in case.
If for whatever reason you want to override the protocol's default XML namespace that is gathered from your ConnectionType, use this variable. Please understand that this value SHOULD NOT be altered, but is documented here just in case.
If for whatever reason you want to override the xmlns:stream attribute in the <stream:stream/> this is the argument to use. This SHOULD NOT ever need to be altered, but it is available and documented just in case.
If bool true, will enable debugging and tracing within the component. All XML sent or received through the component will be printed to STDERR
- wheel() [Protected]
wheel() returns the currently stored POE::Wheel reference. If provided an argument, that argument will replace the current POE::Wheel stored.
- sock() [Protected]
sock() returns the current socket being used for communication. If provided an argument, that argument will replace the current socket stored.
- sid() [Protected]
sid() returns the session ID that was given by the server upon the initial connection. If provided an argument, that argument will replace the current session id stored.
- config() [Protected]
config() returns the configuration structure (HASH reference) of PCJ that is used internally. It contains values that are either defaults or were calculated based on arguments provided in the constructor. If provided an argument, that argument will replace the current configuration.
- pending() [Protected]
pending() returns a hash reference to the currently pending return_to_sender transactions keyed by the 'id' attribute of the XML node. If provided an argument, that argument will replace the pending queue.
- queue() [Protected]
queue() returns an array reference containing the Nodes sent when there was no suitable initialized connection available. Index zero is the first Node placed into the queue with index one being the second, and so on. See under the EVENTS section, 'purge_queue' for more information.
- _reset() [Private]
_reset() returns PCJ back to its initial state and returns nothing.
- _gather_options() [Private]
_gather_options() takes an array reference of the arguments provided to new() (ie. \@_) and populates its internal configuration with the values (the same configuration returned by config()).
- relinquish_states() [Protected]
relinquish_states() is used by Protocol subclasses to return control of the events back to the core of PCJ. It is typically called when the event PCJ_READY is fired to the events handler.
This is the event that you use to push data over the wire. It accepts only one argument, a reference to a POE::Filter::XML::Node.
This event takes (1) a POE::Filter::XML::Node and gives it a unique id, and (2) a return event and places it in the state machine. Upon receipt of response to the request, the return event is fired with the response packet.
POE::Component::Jabber will publish the return event upon receipt, and rescind the event once the the return event is fired.
In the context POE::Component::PubSub, this means that a subscription must exist to the return event. Subscriptions can be made prior to publishing.
Please note that return_to_sender short circuits before XPATH filter and normal node received events.
This event takes (1) a command of either 'add' or 'remove', (2) and event name to be called upon a successful match, and (3) an XPATH expression.
With 'add', all three arguments are required. With 'remove', only the event name is required.
Like return_to_sender, POE::Component::Jabber will publish the return event upon receipt, but will NOT rescind once the filter matches something. This allows for persistent filters and event dispatching.
Every filter is evaluated for every packet (if not applicable to return_to_sender processing), allowing multiple overlapping filters. And event names are not checked to be unique, so be careful when adding filters that go to the same event, because 'remove' will remove all instances of that particular event.
The shutdown event terminates the XML stream which in turn will trigger the end of the socket's life.
- 'connect' and 'reconnect'
This event can take (1) the ip address of a new server and (2) the port. This event may also be called without any arguments and it will force the component to [re]connect.
This event must be posted before the component will initiate a connection.
If Nodes are sent to the output event when there isn't a fully initialized connection, the Nodes are placed into a queue. PCJ will not automatically purge this queue when a suitable connection DOES become available because there is no way to tell if the packets are still valid or not. It is up to the end developer to decide this and fire this event. Packets will be sent in the order in which they were received.
Please see POE::Component::Jabber::Events for a list of published events to which subscriptions can be made.
From the 2.X branch, several changes have been made improve event management.
The guts are now based around POE::Component::PubSub. This enables very specific subscriptions to status events rather than all of the status events being delivered to a single event.
Also, using the new POE::Filter::XML means that the underlying XML parser and Node implementation has changed for the better but also introduced API incompatibilities. For the most part, a simple search-and-replace will suffice. Well worth it for the power to apply XPATH expressions to nodes.
This is a connection broker. This should not be considered a first class client or service. This broker basically implements whatever core functionality is required to get the end developer to the point of writing upper level functionality quickly.
For example implementations using all four current aspects, please see the examples/ directory in the distribution.
Copyright (c) 2003-2009 Nicholas Perez. Distributed under the GPL.