3dd379cdf1
This reverts commit 7265682a4d
.
723 lines
30 KiB
Python
723 lines
30 KiB
Python
"""
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SleekXMPP: The Sleek XMPP Library
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Implementation of xeps for Internet of Things
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http://wiki.xmpp.org/web/Tech_pages/IoT_systems
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Copyright (C) 2013 Sustainable Innovation, Joachim.lindborg@sust.se, bjorn.westrom@consoden.se
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This file is part of SleekXMPP.
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See the file LICENSE for copying permission.
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"""
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import logging
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import time
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import datetime
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from threading import Thread, Lock, Timer
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from sleekxmpp.plugins.xep_0323.timerreset import TimerReset
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from sleekxmpp.xmlstream import JID
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from sleekxmpp.xmlstream.handler import Callback
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from sleekxmpp.xmlstream.matcher import StanzaPath
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from sleekxmpp.plugins.base import BasePlugin
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from sleekxmpp.plugins.xep_0323 import stanza
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from sleekxmpp.plugins.xep_0323.stanza import Sensordata
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log = logging.getLogger(__name__)
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class XEP_0323(BasePlugin):
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"""
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XEP-0323: IoT Sensor Data
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This XEP provides the underlying architecture, basic operations and data
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structures for sensor data communication over XMPP networks. It includes
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a hardware abstraction model, removing any technical detail implemented
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in underlying technologies.
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Also see <http://xmpp.org/extensions/xep-0323.html>
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Configuration Values:
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threaded -- Indicates if communication with sensors should be threaded.
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Defaults to True.
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Events:
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Sensor side
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-----------
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Sensordata Event:Req -- Received a request for data
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Sensordata Event:Cancel -- Received a cancellation for a request
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Client side
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-----------
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Sensordata Event:Accepted -- Received a accept from sensor for a request
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Sensordata Event:Rejected -- Received a reject from sensor for a request
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Sensordata Event:Cancelled -- Received a cancel confirm from sensor
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Sensordata Event:Fields -- Received fields from sensor for a request
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This may be triggered multiple times since
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the sensor can split up its response in
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multiple messages.
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Sensordata Event:Failure -- Received a failure indication from sensor
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for a request. Typically a comm timeout.
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Attributes:
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threaded -- Indicates if command events should be threaded.
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Defaults to True.
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sessions -- A dictionary or equivalent backend mapping
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session IDs to dictionaries containing data
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relevant to a request's session. This dictionary is used
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both by the client and sensor side. On client side, seqnr
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is used as key, while on sensor side, a session_id is used
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as key. This ensures that the two will not collide, so
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one instance can be both client and sensor.
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Sensor side
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-----------
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nodes -- A dictionary mapping sensor nodes that are serviced through
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this XMPP instance to their device handlers ("drivers").
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Client side
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-----------
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last_seqnr -- The last used sequence number (integer). One sequence of
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communication (e.g. -->request, <--accept, <--fields)
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between client and sensor is identified by a unique
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sequence number (unique between the client/sensor pair)
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Methods:
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plugin_init -- Overrides base_plugin.plugin_init
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post_init -- Overrides base_plugin.post_init
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plugin_end -- Overrides base_plugin.plugin_end
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Sensor side
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-----------
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register_node -- Register a sensor as available from this XMPP
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instance.
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Client side
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-----------
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request_data -- Initiates a request for data from one or more
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sensors. Non-blocking, a callback function will
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be called when data is available.
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"""
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name = 'xep_0323'
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description = 'XEP-0323 Internet of Things - Sensor Data'
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dependencies = set(['xep_0030'])
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stanza = stanza
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default_config = {
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'threaded': True
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# 'session_db': None
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}
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def plugin_init(self):
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""" Start the XEP-0323 plugin """
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self.xmpp.register_handler(
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Callback('Sensordata Event:Req',
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StanzaPath('iq@type=get/req'),
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self._handle_event_req))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Accepted',
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StanzaPath('iq@type=result/accepted'),
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self._handle_event_accepted))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Rejected',
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StanzaPath('iq@type=error/rejected'),
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self._handle_event_rejected))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Cancel',
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StanzaPath('iq@type=get/cancel'),
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self._handle_event_cancel))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Cancelled',
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StanzaPath('iq@type=result/cancelled'),
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self._handle_event_cancelled))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Fields',
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StanzaPath('message/fields'),
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self._handle_event_fields))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Failure',
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StanzaPath('message/failure'),
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self._handle_event_failure))
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self.xmpp.register_handler(
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Callback('Sensordata Event:Started',
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StanzaPath('message/started'),
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self._handle_event_started))
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# Server side dicts
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self.nodes = {};
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self.sessions = {};
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self.last_seqnr = 0;
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self.seqnr_lock = Lock();
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## For testning only
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self.test_authenticated_from = ""
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def post_init(self):
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""" Init complete. Register our features in Serivce discovery. """
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BasePlugin.post_init(self)
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self.xmpp['xep_0030'].add_feature(Sensordata.namespace)
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self.xmpp['xep_0030'].set_items(node=Sensordata.namespace, items=tuple())
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def _new_session(self):
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""" Return a new session ID. """
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return str(time.time()) + '-' + self.xmpp.new_id()
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def session_bind(self, jid):
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logging.debug("setting the Disco discovery for %s" % Sensordata.namespace)
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self.xmpp['xep_0030'].add_feature(Sensordata.namespace)
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self.xmpp['xep_0030'].set_items(node=Sensordata.namespace, items=tuple())
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def plugin_end(self):
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""" Stop the XEP-0323 plugin """
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self.sessions.clear();
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self.xmpp.remove_handler('Sensordata Event:Req')
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self.xmpp.remove_handler('Sensordata Event:Accepted')
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self.xmpp.remove_handler('Sensordata Event:Rejected')
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self.xmpp.remove_handler('Sensordata Event:Cancel')
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self.xmpp.remove_handler('Sensordata Event:Cancelled')
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self.xmpp.remove_handler('Sensordata Event:Fields')
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self.xmpp['xep_0030'].del_feature(feature=Sensordata.namespace)
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# =================================================================
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# Sensor side (data provider) API
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def register_node(self, nodeId, device, commTimeout, sourceId=None, cacheType=None):
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"""
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Register a sensor/device as available for serving of data through this XMPP
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instance.
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The device object may by any custom implementation to support
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specific devices, but it must implement the functions:
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has_field
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request_fields
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according to the interfaces shown in the example device.py file.
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Arguments:
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nodeId -- The identifier for the device
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device -- The device object
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commTimeout -- Time in seconds to wait between each callback from device during
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a data readout. Float.
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sourceId -- [optional] identifying the data source controlling the device
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cacheType -- [optional] narrowing down the search to a specific kind of node
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"""
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self.nodes[nodeId] = {"device": device,
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"commTimeout": commTimeout,
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"sourceId": sourceId,
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"cacheType": cacheType};
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def _set_authenticated(self, auth=''):
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""" Internal testing function """
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self.test_authenticated_from = auth;
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def _handle_event_req(self, iq):
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"""
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Event handler for reception of an Iq with req - this is a request.
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Verifies that
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- all the requested nodes are available
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- at least one of the requested fields is available from at least
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one of the nodes
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If the request passes verification, an accept response is sent, and
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the readout process is started in a separate thread.
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If the verification fails, a reject message is sent.
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"""
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seqnr = iq['req']['seqnr'];
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error_msg = '';
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req_ok = True;
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# Authentication
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if len(self.test_authenticated_from) > 0 and not iq['from'] == self.test_authenticated_from:
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# Invalid authentication
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req_ok = False;
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error_msg = "Access denied";
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# Nodes
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process_nodes = [];
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if len(iq['req']['nodes']) > 0:
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for n in iq['req']['nodes']:
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if not n['nodeId'] in self.nodes:
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req_ok = False;
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error_msg = "Invalid nodeId " + n['nodeId'];
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process_nodes = [n['nodeId'] for n in iq['req']['nodes']];
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else:
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process_nodes = self.nodes.keys();
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# Fields - if we just find one we are happy, otherwise we reject
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process_fields = [];
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if len(iq['req']['fields']) > 0:
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found = False
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for f in iq['req']['fields']:
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for node in self.nodes:
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if self.nodes[node]["device"].has_field(f['name']):
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found = True;
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break;
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if not found:
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req_ok = False;
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error_msg = "Invalid field " + f['name'];
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process_fields = [f['name'] for n in iq['req']['fields']];
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req_flags = iq['req']._get_flags();
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request_delay_sec = None
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if 'when' in req_flags:
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# Timed request - requires datetime string in iso format
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# ex. 2013-04-05T15:00:03
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dt = None
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try:
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dt = datetime.datetime.strptime(req_flags['when'], "%Y-%m-%dT%H:%M:%S")
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except ValueError:
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req_ok = False;
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error_msg = "Invalid datetime in 'when' flag, please use ISO format (i.e. 2013-04-05T15:00:03)."
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if not dt is None:
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# Datetime properly formatted
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dtnow = datetime.datetime.now()
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dtdiff = dt - dtnow
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request_delay_sec = dtdiff.seconds + dtdiff.days * 24 * 3600
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if request_delay_sec <= 0:
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req_ok = False;
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error_msg = "Invalid datetime in 'when' flag, cannot set a time in the past. Current time: " + dtnow.isoformat();
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if req_ok:
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session = self._new_session();
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self.sessions[session] = {"from": iq['from'], "to": iq['to'], "seqnr": seqnr};
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self.sessions[session]["commTimers"] = {};
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self.sessions[session]["nodeDone"] = {};
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#print("added session: " + str(self.sessions))
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iq.reply();
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iq['accepted']['seqnr'] = seqnr;
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if not request_delay_sec is None:
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iq['accepted']['queued'] = "true"
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iq.send(block=False);
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self.sessions[session]["node_list"] = process_nodes;
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if not request_delay_sec is None:
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# Delay request to requested time
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timer = Timer(request_delay_sec, self._event_delayed_req, args=(session, process_fields, req_flags))
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self.sessions[session]["commTimers"]["delaytimer"] = timer;
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timer.start();
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return
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if self.threaded:
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#print("starting thread")
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tr_req = Thread(target=self._threaded_node_request, args=(session, process_fields, req_flags))
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tr_req.start()
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#print("started thread")
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else:
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self._threaded_node_request(session, process_fields, req_flags);
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else:
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iq.reply();
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iq['type'] = 'error';
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iq['rejected']['seqnr'] = seqnr;
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iq['rejected']['error'] = error_msg;
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iq.send(block=False);
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def _threaded_node_request(self, session, process_fields, flags):
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"""
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Helper function to handle the device readouts in a separate thread.
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Arguments:
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session -- The request session id
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process_fields -- The fields to request from the devices
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flags -- [optional] flags to pass to the devices, e.g. momentary
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Formatted as a dictionary like { "flag name": "flag value" ... }
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"""
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for node in self.sessions[session]["node_list"]:
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self.sessions[session]["nodeDone"][node] = False;
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for node in self.sessions[session]["node_list"]:
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timer = TimerReset(self.nodes[node]['commTimeout'], self._event_comm_timeout, args=(session, node));
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self.sessions[session]["commTimers"][node] = timer;
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#print("Starting timer " + str(timer) + ", timeout: " + str(self.nodes[node]['commTimeout']))
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timer.start();
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self.nodes[node]['device'].request_fields(process_fields, flags=flags, session=session, callback=self._device_field_request_callback);
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def _event_comm_timeout(self, session, nodeId):
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"""
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Triggered if any of the readout operations timeout.
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Sends a failure message back to the client, stops communicating
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with the failing device.
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Arguments:
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session -- The request session id
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nodeId -- The id of the device which timed out
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"""
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msg = self.xmpp.Message();
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msg['from'] = self.sessions[session]['to'];
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msg['to'] = self.sessions[session]['from'];
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msg['failure']['seqnr'] = self.sessions[session]['seqnr'];
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msg['failure']['error']['text'] = "Timeout";
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msg['failure']['error']['nodeId'] = nodeId;
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msg['failure']['error']['timestamp'] = datetime.datetime.now().replace(microsecond=0).isoformat();
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# Drop communication with this device and check if we are done
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self.sessions[session]["nodeDone"][nodeId] = True;
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if (self._all_nodes_done(session)):
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msg['failure']['done'] = 'true';
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msg.send();
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# The session is complete, delete it
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#print("del session " + session + " due to timeout")
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del self.sessions[session];
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def _event_delayed_req(self, session, process_fields, req_flags):
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"""
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Triggered when the timer from a delayed request fires.
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Arguments:
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session -- The request session id
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process_fields -- The fields to request from the devices
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flags -- [optional] flags to pass to the devices, e.g. momentary
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Formatted as a dictionary like { "flag name": "flag value" ... }
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"""
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msg = self.xmpp.Message();
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msg['from'] = self.sessions[session]['to'];
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msg['to'] = self.sessions[session]['from'];
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msg['started']['seqnr'] = self.sessions[session]['seqnr'];
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msg.send();
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if self.threaded:
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tr_req = Thread(target=self._threaded_node_request, args=(session, process_fields, req_flags))
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tr_req.start()
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else:
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self._threaded_node_request(session, process_fields, req_flags);
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def _all_nodes_done(self, session):
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"""
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Checks wheter all devices are done replying to the readout.
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Arguments:
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session -- The request session id
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"""
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for n in self.sessions[session]["nodeDone"]:
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if not self.sessions[session]["nodeDone"][n]:
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return False;
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return True;
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def _device_field_request_callback(self, session, nodeId, result, timestamp_block, error_msg=None):
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"""
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Callback function called by the devices when they have any additional data.
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Composes a message with the data and sends it back to the client, and resets
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the timeout timer for the device.
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Arguments:
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session -- The request session id
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nodeId -- The device id which initiated the callback
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result -- The current result status of the readout. Valid values are:
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"error" - Readout failed.
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"fields" - Contains readout data.
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"done" - Indicates that the readout is complete. May contain
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readout data.
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timestamp_block -- [optional] Only applies when result != "error"
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The readout data. Structured as a dictionary:
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{
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timestamp: timestamp for this datablock,
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fields: list of field dictionary (one per readout field).
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readout field dictionary format:
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{
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type: The field type (numeric, boolean, dateTime, timeSpan, string, enum)
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name: The field name
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value: The field value
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unit: The unit of the field. Only applies to type numeric.
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dataType: The datatype of the field. Only applies to type enum.
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flags: [optional] data classifier flags for the field, e.g. momentary
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Formatted as a dictionary like { "flag name": "flag value" ... }
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}
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}
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error_msg -- [optional] Only applies when result == "error".
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Error details when a request failed.
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"""
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if not session in self.sessions:
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# This can happend if a session was deleted, like in a cancellation. Just drop the data.
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return
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if result == "error":
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self.sessions[session]["commTimers"][nodeId].cancel();
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msg = self.xmpp.Message();
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msg['from'] = self.sessions[session]['to'];
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msg['to'] = self.sessions[session]['from'];
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msg['failure']['seqnr'] = self.sessions[session]['seqnr'];
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msg['failure']['error']['text'] = error_msg;
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msg['failure']['error']['nodeId'] = nodeId;
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msg['failure']['error']['timestamp'] = datetime.datetime.now().replace(microsecond=0).isoformat();
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# Drop communication with this device and check if we are done
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self.sessions[session]["nodeDone"][nodeId] = True;
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if (self._all_nodes_done(session)):
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msg['failure']['done'] = 'true';
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# The session is complete, delete it
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# print("del session " + session + " due to error")
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del self.sessions[session];
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msg.send();
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else:
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msg = self.xmpp.Message();
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msg['from'] = self.sessions[session]['to'];
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msg['to'] = self.sessions[session]['from'];
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msg['fields']['seqnr'] = self.sessions[session]['seqnr'];
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if timestamp_block is not None and len(timestamp_block) > 0:
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node = msg['fields'].add_node(nodeId);
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ts = node.add_timestamp(timestamp_block["timestamp"]);
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for f in timestamp_block["fields"]:
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data = ts.add_data( typename=f['type'],
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name=f['name'],
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value=f['value'],
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unit=f['unit'],
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dataType=f['dataType'],
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flags=f['flags']);
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if result == "done":
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self.sessions[session]["commTimers"][nodeId].cancel();
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self.sessions[session]["nodeDone"][nodeId] = True;
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msg['fields']['done'] = 'true';
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if (self._all_nodes_done(session)):
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# The session is complete, delete it
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# print("del session " + session + " due to complete")
|
|
del self.sessions[session];
|
|
else:
|
|
# Restart comm timer
|
|
self.sessions[session]["commTimers"][nodeId].reset();
|
|
|
|
msg.send();
|
|
|
|
def _handle_event_cancel(self, iq):
|
|
""" Received Iq with cancel - this is a cancel request.
|
|
Delete the session and confirm. """
|
|
|
|
seqnr = iq['cancel']['seqnr'];
|
|
# Find the session
|
|
for s in self.sessions:
|
|
if self.sessions[s]['from'] == iq['from'] and self.sessions[s]['to'] == iq['to'] and self.sessions[s]['seqnr'] == seqnr:
|
|
# found it. Cancel all timers
|
|
for n in self.sessions[s]["commTimers"]:
|
|
self.sessions[s]["commTimers"][n].cancel();
|
|
|
|
# Confirm
|
|
iq.reply();
|
|
iq['type'] = 'result';
|
|
iq['cancelled']['seqnr'] = seqnr;
|
|
iq.send(block=False);
|
|
|
|
# Delete session
|
|
del self.sessions[s]
|
|
return
|
|
|
|
# Could not find session, send reject
|
|
iq.reply();
|
|
iq['type'] = 'error';
|
|
iq['rejected']['seqnr'] = seqnr;
|
|
iq['rejected']['error'] = "Cancel request received, no matching request is active.";
|
|
iq.send(block=False);
|
|
|
|
# =================================================================
|
|
# Client side (data retriever) API
|
|
|
|
def request_data(self, from_jid, to_jid, callback, nodeIds=None, fields=None, flags=None):
|
|
"""
|
|
Called on the client side to initiade a data readout.
|
|
Composes a message with the request and sends it to the device(s).
|
|
Does not block, the callback will be called when data is available.
|
|
|
|
Arguments:
|
|
from_jid -- The jid of the requester
|
|
to_jid -- The jid of the device(s)
|
|
callback -- The callback function to call when data is availble.
|
|
|
|
The callback function must support the following arguments:
|
|
|
|
from_jid -- The jid of the responding device(s)
|
|
result -- The current result status of the readout. Valid values are:
|
|
"accepted" - Readout request accepted
|
|
"queued" - Readout request accepted and queued
|
|
"rejected" - Readout request rejected
|
|
"failure" - Readout failed.
|
|
"cancelled" - Confirmation of request cancellation.
|
|
"started" - Previously queued request is now started
|
|
"fields" - Contains readout data.
|
|
"done" - Indicates that the readout is complete.
|
|
|
|
nodeId -- [optional] Mandatory when result == "fields" or "failure".
|
|
The node Id of the responding device. One callback will only
|
|
contain data from one device.
|
|
timestamp -- [optional] Mandatory when result == "fields".
|
|
The timestamp of data in this callback. One callback will only
|
|
contain data from one timestamp.
|
|
fields -- [optional] Mandatory when result == "fields".
|
|
List of field dictionaries representing the readout data.
|
|
Dictionary format:
|
|
{
|
|
typename: The field type (numeric, boolean, dateTime, timeSpan, string, enum)
|
|
name: The field name
|
|
value: The field value
|
|
unit: The unit of the field. Only applies to type numeric.
|
|
dataType: The datatype of the field. Only applies to type enum.
|
|
flags: [optional] data classifier flags for the field, e.g. momentary.
|
|
Formatted as a dictionary like { "flag name": "flag value" ... }
|
|
}
|
|
|
|
error_msg -- [optional] Mandatory when result == "rejected" or "failure".
|
|
Details about why the request is rejected or failed.
|
|
"rejected" means that the request is stopped, but note that the
|
|
request will continue even after a "failure". "failure" only means
|
|
that communication was stopped to that specific device, other
|
|
device(s) (if any) will continue their readout.
|
|
|
|
nodeIds -- [optional] Limits the request to the node Ids in this list.
|
|
fields -- [optional] Limits the request to the field names in this list.
|
|
flags -- [optional] Limits the request according to the flags, or sets
|
|
readout conditions such as timing.
|
|
|
|
Return value:
|
|
session -- Session identifier. Client can use this as a reference to cancel
|
|
the request.
|
|
"""
|
|
iq = self.xmpp.Iq();
|
|
iq['from'] = from_jid;
|
|
iq['to'] = to_jid;
|
|
iq['type'] = "get";
|
|
seqnr = self._get_new_seqnr();
|
|
iq['id'] = seqnr;
|
|
iq['req']['seqnr'] = seqnr;
|
|
if nodeIds is not None:
|
|
for nodeId in nodeIds:
|
|
iq['req'].add_node(nodeId);
|
|
if fields is not None:
|
|
for field in fields:
|
|
iq['req'].add_field(field);
|
|
|
|
iq['req']._set_flags(flags);
|
|
|
|
self.sessions[seqnr] = {"from": iq['from'], "to": iq['to'], "seqnr": seqnr, "callback": callback};
|
|
iq.send(block=False);
|
|
|
|
return seqnr;
|
|
|
|
def cancel_request(self, session):
|
|
"""
|
|
Called on the client side to cancel a request for data readout.
|
|
Composes a message with the cancellation and sends it to the device(s).
|
|
Does not block, the callback will be called when cancellation is
|
|
confirmed.
|
|
|
|
Arguments:
|
|
session -- The session id of the request to cancel
|
|
"""
|
|
seqnr = session
|
|
iq = self.xmpp.Iq();
|
|
iq['from'] = self.sessions[seqnr]['from']
|
|
iq['to'] = self.sessions[seqnr]['to'];
|
|
iq['type'] = "get";
|
|
iq['id'] = seqnr;
|
|
iq['cancel']['seqnr'] = seqnr;
|
|
iq.send(block=False);
|
|
|
|
def _get_new_seqnr(self):
|
|
""" Returns a unique sequence number (unique across threads) """
|
|
self.seqnr_lock.acquire();
|
|
self.last_seqnr = self.last_seqnr + 1;
|
|
self.seqnr_lock.release();
|
|
return str(self.last_seqnr);
|
|
|
|
def _handle_event_accepted(self, iq):
|
|
""" Received Iq with accepted - request was accepted """
|
|
seqnr = iq['accepted']['seqnr'];
|
|
result = "accepted"
|
|
if iq['accepted']['queued'] == 'true':
|
|
result = "queued"
|
|
|
|
callback = self.sessions[seqnr]["callback"];
|
|
callback(from_jid=iq['from'], result=result);
|
|
|
|
def _handle_event_rejected(self, iq):
|
|
""" Received Iq with rejected - this is a reject.
|
|
Delete the session. """
|
|
seqnr = iq['rejected']['seqnr'];
|
|
callback = self.sessions[seqnr]["callback"];
|
|
callback(from_jid=iq['from'], result="rejected", error_msg=iq['rejected']['error']);
|
|
# Session terminated
|
|
del self.sessions[seqnr];
|
|
|
|
def _handle_event_cancelled(self, iq):
|
|
"""
|
|
Received Iq with cancelled - this is a cancel confirm.
|
|
Delete the session.
|
|
"""
|
|
#print("Got cancelled")
|
|
seqnr = iq['cancelled']['seqnr'];
|
|
callback = self.sessions[seqnr]["callback"];
|
|
callback(from_jid=iq['from'], result="cancelled");
|
|
# Session cancelled
|
|
del self.sessions[seqnr];
|
|
|
|
def _handle_event_fields(self, msg):
|
|
"""
|
|
Received Msg with fields - this is a data reponse to a request.
|
|
If this is the last data block, issue a "done" callback.
|
|
"""
|
|
seqnr = msg['fields']['seqnr'];
|
|
callback = self.sessions[seqnr]["callback"];
|
|
for node in msg['fields']['nodes']:
|
|
for ts in node['timestamps']:
|
|
fields = [];
|
|
for d in ts['datas']:
|
|
field_block = {};
|
|
field_block["name"] = d['name'];
|
|
field_block["typename"] = d._get_typename();
|
|
field_block["value"] = d['value'];
|
|
if not d['unit'] == "": field_block["unit"] = d['unit'];
|
|
if not d['dataType'] == "": field_block["dataType"] = d['dataType'];
|
|
flags = d._get_flags();
|
|
if not len(flags) == 0:
|
|
field_block["flags"] = flags;
|
|
fields.append(field_block);
|
|
|
|
callback(from_jid=msg['from'], result="fields", nodeId=node['nodeId'], timestamp=ts['value'], fields=fields);
|
|
|
|
if msg['fields']['done'] == "true":
|
|
callback(from_jid=msg['from'], result="done");
|
|
# Session done
|
|
del self.sessions[seqnr];
|
|
|
|
def _handle_event_failure(self, msg):
|
|
"""
|
|
Received Msg with failure - our request failed
|
|
Delete the session.
|
|
"""
|
|
seqnr = msg['failure']['seqnr'];
|
|
callback = self.sessions[seqnr]["callback"];
|
|
callback(from_jid=msg['from'], result="failure", nodeId=msg['failure']['error']['nodeId'], timestamp=msg['failure']['error']['timestamp'], error_msg=msg['failure']['error']['text']);
|
|
|
|
# Session failed
|
|
del self.sessions[seqnr];
|
|
|
|
def _handle_event_started(self, msg):
|
|
"""
|
|
Received Msg with started - our request was queued and is now started.
|
|
"""
|
|
seqnr = msg['started']['seqnr'];
|
|
callback = self.sessions[seqnr]["callback"];
|
|
callback(from_jid=msg['from'], result="started");
|
|
|
|
|