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130 lines
4.0 KiB
ReStructuredText
130 lines
4.0 KiB
ReStructuredText
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.. _example_handler:
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Fundamentals
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================
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This basic example shows how to create simple python module which will pass on the requests to the iterator.
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How to enable python module
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----------------------------
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If you look into unbound configuration file, you can find the option `module-config` which specifies the names and the order of modules to be used.
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Example configuration::
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module-config: "validator python iterator"
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As soon as the DNS query arrives, Unbound calls modules starting from leftmost - the validator *(it is the first module on the list)*.
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The validator does not know the answer *(it can only validate)*, thus it will pass on the event to the next module.
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Next module is python which can
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a) generate answer *(response)*
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When python module generates the response unbound calls validator. Validator grabs the answer and determines the security flag.
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b) pass on the event to the iterator.
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When iterator resolves the query, Unbound informs python module (event :data:`module_event_moddone`). In the end, when the python module is done, validator is called.
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Note that the python module is called with :data:`module_event_pass` event, because new DNS event was already handled by validator.
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Another situation occurs when we use the following configuration::
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module-config: "python validator iterator"
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Python module is the first module here, so it's invoked with :data:`module_event_new` event *(new query)*.
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On Python module initialization, module loads script from `python-script` option::
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python-script: "/unbound/test/ubmodule.py"
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Simple python module step by step
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---------------------------------
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Script file must contain four compulsory functions:
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.. function:: init(id, cfg)
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Initialize module internals, like database etc.
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Called just once on module load.
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:param id: module identifier (integer)
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:param cfg: :class:`config_file` configuration structure
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::
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def init(id, cfg):
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log_info("pythonmod: init called, module id is %d port: %d script: %s" % (id, cfg.port, cfg.python_script))
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return True
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.. function:: deinit(id)
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Deinitialize module internals.
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Called just once on module unload.
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:param id: module identifier (integer)
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::
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def deinit(id):
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log_info("pythonmod: deinit called, module id is %d" % id)
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return True
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.. function:: inform_super(id, qstate, superqstate, qdata)
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Inform super querystate about the results from this subquerystate.
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Is called when the querystate is finished.
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:param id: module identifier (integer)
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:param qstate: :class:`module_qstate` Query state
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:param superqstate: :class:`pythonmod_qstate` Mesh state
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:param qdata: :class:`query_info` Query data
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::
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def inform_super(id, qstate, superqstate, qdata):
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return True
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.. function:: operate(id, event, qstate, qdata)
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Perform action on pending query. Accepts a new query, or work on pending query.
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You have to set qstate.ext_state on exit.
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The state informs unbound about result and controls the following states.
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:param id: module identifier (integer)
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:param qstate: :class:`module_qstate` query state structure
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:param qdata: :class:`query_info` per query data, here you can store your own data
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::
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def operate(id, event, qstate, qdata):
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log_info("pythonmod: operate called, id: %d, event:%s" % (id, strmodulevent(event)))
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if event == MODULE_EVENT_NEW:
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qstate.ext_state[id] = MODULE_WAIT_MODULE
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return True
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if event == MODULE_EVENT_MODDONE:
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qstate.ext_state[id] = MODULE_FINISHED
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return True
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if event == MODULE_EVENT_PASS:
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qstate.ext_state[id] = MODULE_ERROR
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return True
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log_err("pythonmod: BAD event")
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qstate.ext_state[id] = MODULE_ERROR
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return True
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Complete source code
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--------------------
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.. literalinclude:: example0-1.py
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:language: python
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As you can see, the source code is much more flexible in contrast to C modules.
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Moreover, compulsory functions called on appropriate module events allows to handle almost
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anything from web control to query analysis.
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