Beispiel #1
0
 def cb_get_unspent(self, response):
     # TODO - refactor this!
     if not isinstance(response, list):
         (address, unspent) = response
         if unspent == -1:
             print "Warning: BTC processor unable to get unspent outputs for address " + str(
                 address) + ", giving up for now"
             response_msg = queue_task(0, 'btc_update_unspent', {
                 'address': address,
                 'unspent_outputs': -1
             })
         else:
             response_msg = queue_task(0, 'btc_update_unspent', {
                 'address': address,
                 'unspent_outputs': unspent
             })
         self.response_queue.put(response_msg)
     else:
         for response_item in response:
             (address, unspent) = response_item
             if unspent == -1:
                 print "Warning: BTC processor unable to get unspent outputs for address " + str(
                     address) + ", giving up for now"
                 response_msg = queue_task(0, 'btc_update_unspent', {
                     'address': address,
                     'unspent_outputs': -1
                 })
             else:
                 response_msg = queue_task(0, 'btc_update_unspent', {
                     'address': address,
                     'unspent_outputs': unspent
                 })
             self.response_queue.put(response_msg)
Beispiel #2
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 def cb_get_stratum_peers(self, response):
     if response:  # If get peers returned data then process it
         peers = []
         for peer in response:
             #print peer
             for item in peer[2]:
                 if item[0] == 'p':
                     port = item[1:]
                 if item[0] == 's':
                     ssl = True
                     sport = item[1:]
             if sport:  # prefer the ssl port if specified
                 port = sport
             if ssl:  # only use servers that support ssl
                 peers.append(
                     (peer[1] + ':' + port + ':s', ))  # why the tuple?
                 #print peers[-1]
         response_msg = queue_task(0, 'btc_update_stratum_peers',
                                   {'peers': peers})
         # Update our list of peers # TODO - this could be checked and merged with a known-good electrum server list
         self.stratum_servers = peers  # update the local list of peers
         self.response_queue.put(
             response_msg
         )  # also update the backend thread with the current peers so that the config database can be updated
         # TODO: implement dead host checking, especially needed for access through Tor
     else:
         print "Warning: BTC processor unable to refresh list of stratum peers, giving up for now"
Beispiel #3
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 def cb_get_unspent(self,response):
     # TODO - refactor this!
     if not isinstance(response,list):
         (address,unspent) = response
         if unspent == -1:
             print "Warning: BTC processor unable to get unspent outputs for address " + str(address) + ", giving up for now"
             response_msg = queue_task(0,'btc_update_unspent',{'address':address,'unspent_outputs':-1})
         else:
             response_msg = queue_task(0,'btc_update_unspent',{'address':address,'unspent_outputs':unspent})
         self.response_queue.put(response_msg)
     else:
         for response_item in response:
             (address,unspent) = response_item
             if unspent == -1:
                 print "Warning: BTC processor unable to get unspent outputs for address " + str(address) + ", giving up for now"
                 response_msg = queue_task(0,'btc_update_unspent',{'address':address,'unspent_outputs':-1})
             else:
                 response_msg = queue_task(0,'btc_update_unspent',{'address':address,'unspent_outputs':unspent})
             self.response_queue.put(response_msg)
Beispiel #4
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 def cb_get_balance(self,response):
     # TODO - refactor this!
     if not isinstance(response,list):
         (address,balance) = response
         if balance == -1:
             print "Warning: BTC processor unable to get balance for address " + str(address) + ", giving up for now"
             response_msg = queue_task(0,'btc_update_balance',{'address':address,'balance_confirmed':-1,'balance_unconfirmed':-1})
         else:
             response_msg = queue_task(0,'btc_update_balance',{'address':address,'balance_confirmed':balance['confirmed'],'balance_unconfirmed':balance['unconfirmed']})
         self.response_queue.put(response_msg)
     else:
         for response_item in response:
             (address,balance) = response_item
             if balance == -1:
                 print "Warning: BTC processor unable to get balance for address " + str(address) + ", giving up for now"
                 response_msg = queue_task(0,'btc_update_balance',{'address':address,'balance_confirmed':-1,'balance_unconfirmed':-1})
             else:
                 response_msg = queue_task(0,'btc_update_balance',{'address':address,'balance_confirmed':balance['confirmed'],'balance_unconfirmed':balance['unconfirmed']})
             self.response_queue.put(response_msg)
Beispiel #5
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 def cb_get_balance(self, response):
     # TODO - refactor this!
     if not isinstance(response, list):
         (address, balance) = response
         if balance == -1:
             print "Warning: BTC processor unable to get balance for address " + str(
                 address) + ", giving up for now"
             response_msg = queue_task(
                 0, 'btc_update_balance', {
                     'address': address,
                     'balance_confirmed': -1,
                     'balance_unconfirmed': -1
                 })
         else:
             response_msg = queue_task(
                 0, 'btc_update_balance', {
                     'address': address,
                     'balance_confirmed': balance['confirmed'],
                     'balance_unconfirmed': balance['unconfirmed']
                 })
         self.response_queue.put(response_msg)
     else:
         for response_item in response:
             (address, balance) = response_item
             if balance == -1:
                 print "Warning: BTC processor unable to get balance for address " + str(
                     address) + ", giving up for now"
                 response_msg = queue_task(
                     0, 'btc_update_balance', {
                         'address': address,
                         'balance_confirmed': -1,
                         'balance_unconfirmed': -1
                     })
             else:
                 response_msg = queue_task(
                     0, 'btc_update_balance', {
                         'address': address,
                         'balance_confirmed': balance['confirmed'],
                         'balance_unconfirmed': balance['unconfirmed']
                     })
             self.response_queue.put(response_msg)
Beispiel #6
0
 def process_queued_task_request(self, queue_msg, queue):
     if queue_msg.command == 'make_mqtt_pgp_auth':
         logger.info(
             'Received authentication ticket request from messaging transport service for broker %s',
             queue_msg.data)
         password = self.make_pgp_auth(queue_msg.data)
         queue_msg_pgp_reply = queue_task(id=queue_msg.id,
                                          command=queue_msg.command,
                                          msg_type=queue_task.REPLY,
                                          rc=queue_task.OK,
                                          data=password)
         self.mts_in_queue.put(queue_msg_pgp_reply)
    def mqtt_publish_message (self, msg=None, mqtt_topic=None, qos=1, queue_task_id=None, publish=False):

        rc,mid = self.transport.publish(topic=mqtt_topic,payload=msg,qos=1,retain=publish)
        if not rc == MQTT_ERR_SUCCESS:
            # Not delivered
            queue_reply_msg = queue_task(id=queue_task_id,
                                         rc=queue_task.NOT_OK,
                                         msg_type=queue_task.REPLY)
            self.queue_from_message_transport_service.put(queue_reply_msg)
            logger.warning('Could not deliver MQTT message to %s requested by task queue ID %s',mqtt_topic,queue_task_id)
        else:
            self.mqtt_mid_queue_task_map[mid]=queue_task_id  # Store the returned MID and associate it with the queue message id
 def flush_unfinished_mqtt_operations(self):
     logger.info('Checking for incomplete MQTT tasks')
     for mid,task_id in self.mqtt_mid_queue_task_map.items():
         queue_reply_msg = queue_task(task_id,
                          command=None,
                          data=None,
                          rc=queue_task.NOT_OK,
                          msg_type=queue_task.REPLY)
         self.queue_from_message_transport_service.put(queue_reply_msg)
         logger.warning('Failing and purging incomplete MQTT task %s',task_id)
     self.mqtt_mid_queue_task_map.clear()
     self.mqtt_sub_topic_queue_task_map.clear()
     self.inbound_msg_hashes.clear()
 def on_publish(self, client, userdata, mid):
     logger.info('Message published sucessfuly on %s using %s', self.current_broker, self.current_network)
     try:
         queue_msg_id = self.mqtt_mid_queue_task_map[mid]
         self.mqtt_mid_queue_task_map.__delitem__(mid)
     except KeyError:
         logger.error('Could not associate outbound MQTT message ID with a queue task ID')
         return
     # Delivered
     queue_reply_msg = queue_task(queue_msg_id,
                                  command=None,
                                  data=None,
                                  rc=queue_task.OK,
                                  msg_type=queue_task.REPLY)
     self.queue_from_message_transport_service.put(queue_reply_msg)
    def on_message(self, client, userdata, msg):
        logger.info('Message received on %s using %s', msg.topic, self.current_broker)
        # Send incoming message to messaging system
        hash = hashlib.sha1(msg.payload)
        if hash.hexdigest() in self.inbound_msg_hashes:
            logger.warning('Duplicate message on %s dropped', msg.topic)
            return
        else:
            self.inbound_msg_hashes.add(hash.hexdigest())

        queue_update_msg = queue_task(id='mts_mqtt:0',
                                     command='inbound_message',
                                     data={'payload':msg.payload,'location':msg.topic},
                                     msg_type=queue_task.UPDATE)
        self.queue_from_message_transport_service.put(queue_update_msg)
    def mqtt_subscribe_message (self, mqtt_topic=None, qos=0, queue_task_id=None, persistent=False):

        rc,mid = self.transport.subscribe(topic=mqtt_topic,qos=qos)

        if not rc == MQTT_ERR_SUCCESS:
            # Could not subscribe to get message
            queue_reply_msg = queue_task(id=queue_task_id,
                                         rc=queue_task.NOT_OK,
                                         msg_type=queue_task.REPLY)
            self.queue_from_message_transport_service.put(queue_reply_msg)
            logger.warning('Could not subscribe to MQTT topic %s requested by task queue ID %s',mqtt_topic,queue_task_id)
        else:
            if not persistent:
                # Only store the mid if the request is for a single retained message - if a mid is present during on_subscribe() then we will unsubscribe
                self.mqtt_mid_queue_task_map[mid] = queue_task_id               # Store the returned MID and associate it with the queue message id
                self.mqtt_sub_topic_queue_task_map[queue_task_id] = mqtt_topic      # Store the desired topic associted withe the queue_task_id
 def on_unsubscribe(self, client, userdata, mid):
     logger.info('Topic unsubscribed on broker %s using %s', self.current_broker, self.current_network)
     try:
         queue_msg_id = self.mqtt_mid_queue_task_map[mid]
         subscribed_topic = self.mqtt_sub_topic_queue_task_map[queue_msg_id]
         logger.info('Now unsubscribed from %s (originally requested for %s)',subscribed_topic,queue_msg_id)
         # TODO - if no message was received for this subscription by now then it is now safe to assume that no message exists - deal with that here or in messaging?
         self.mqtt_mid_queue_task_map.__delitem__(mid)
         self.mqtt_sub_topic_queue_task_map.__delitem__(queue_msg_id)
         # get_message has completed sucessfully in any case
         queue_reply_msg = queue_task(id=queue_msg_id,
                                      command=None,
                                      data=None,
                                      rc=queue_task.OK,
                                      msg_type=queue_task.REPLY)
         self.queue_from_message_transport_service.put(queue_reply_msg)
     except KeyError:
         logger.info('Unsubscribed from persistent connection (probably)')
Beispiel #13
0
 def cb_get_stratum_peers(self,response):
     if response: # If get peers returned data then process it
         peers=[]
         for peer in response:
             #print peer
             for item in peer[2]:
                 if item[0] == 'p':
                     port = item[1:]
                 if item[0] == 's':
                     ssl = True
                     sport = item[1:]
             if sport: # prefer the ssl port if specified
                 port = sport
             if ssl: # only use servers that support ssl
                 peers.append((peer[1]+':' + port + ':s',)) # why the tuple?
                 #print peers[-1]
         response_msg = queue_task(0,'btc_update_stratum_peers',{'peers':peers})
         # Update our list of peers # TODO - this could be checked and merged with a known-good electrum server list
         self.stratum_servers = peers # update the local list of peers
         self.response_queue.put(response_msg) # also update the backend thread with the current peers so that the config database can be updated
         # TODO: implement dead host checking, especially needed for access through Tor
     else:
         print "Warning: BTC processor unable to refresh list of stratum peers, giving up for now"
    def run(self):
        print "BTC Exchange rate thread started using SOCKS proxy " + self.socks_proxy + ":" + self.socks_port
        # Make the request look like it came from a browser TODO - define the browser headers elsewhere so they can be easily updated
        headers = [('User-Agent','Mozilla/5.0 (Windows NT 6.1; rv:31.0) Gecko/20100101 Firefox/31.0'),
                   ('Accept','text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8'),
                   ('Accept-Language','en-us,en;q=0.5')]
        opener = urllib2.build_opener(SocksiPyHandler(socks.SOCKS5, self.socks_proxy, int(self.socks_port)))
        opener.addheaders = headers
        while self.running:
            try:
                response = opener.open('http://bitpay.com/api/rates',None,30).read()
                print "Response" + str(response)
            except:
                print "Warning: Failed to retrieve current exchange rates via https/socks"
                sleep (60) # try again in a minute TODO try other exchange api sources
            else:
                data = json.loads(response)
                task = queue_task(1, 'update_exchange_rates', data)
                print "Exchange rates updated"
                self.queue.put(task)
                sleep(900) # default 15 minutes TODO: Randomize this slightly (between 10 - 30 minutes)

        print "Exchange rate collector shutting down"
 def request_auth_ticket(self,broker):
     # Request an authentication ticket from the main messaging system
     self.broker_password = None
     logger.info('Requesting authentication ticket from messaging service for broker %s', self.current_broker)
     auth_req_task = queue_task(id='mts_mqtt:1',command='make_mqtt_pgp_auth',data=broker,msg_type=queue_task.REQUEST)
     self.queue_from_message_transport_service.put (auth_req_task)
Beispiel #16
0
    def run(self):
        print "Info: BTC Exchange rate thread started using SOCKS proxy " + self.socks_proxy + ":" + self.socks_port
        # Make the request look like it came from a browser TODO - define the browser headers elsewhere so they can be easily updated
        headers = [
            ('User-Agent',
             'Mozilla/5.0 (Windows NT 6.1; rv:31.0) Gecko/20100101 Firefox/31.0'
             ),
            ('Accept',
             'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8'
             ), ('Accept-Language', 'en-us,en;q=0.5')
        ]

        os.environ[
            'no_proxy'] = '127.0.0.1'  # This needs to be set to avoid a hard crash on OSX when using urllib or requests

        opener = urllib2.build_opener(
            SocksiPyHandler(socks.SOCKS5, self.socks_proxy,
                            int(self.socks_port)))
        opener.addheaders = headers

        BTC_API_BITPAY = 'http://bitpay.com/api/rates'
        BTC_API_BITCOINCHARTS = 'http://api.bitcoincharts.com/v1/weighted_prices.json'
        BTC_API_BITCOINAVERAGE = 'https://api.bitcoinaverage.com/ticker/global/all'
        sources = [BTC_API_BITPAY, BTC_API_BITCOINCHARTS]
        source_index = 0
        while self.running:
            source = sources[source_index]  # BTC_API_BITCOINCHARTS
            try:
                response = opener.open(source, None, 30).read()
                #print "Response" + str(response)
                data_list = json.loads(response)
                # Process based on source
                if source == BTC_API_BITPAY:
                    data = data_list  # we can use these results as they come
                elif source == BTC_API_BITCOINCHARTS:
                    data = []
                    for code in data_list:
                        if not (
                                code == 'CHF' or code == 'timestamp'
                        ):  # For some reasson CHF is broken in the bitcoincharts api
                            data.append({
                                'code': code,
                                'rate': data_list[code]['24h']
                            })
                elif source == BTC_API_BITCOINAVERAGE:  # TODO - Process bitcoinaverage api output
                    print "BTC_API_BITCOINAVERAGE NOT IMPLEMENTED"
                    data = []
                    for code in data_list:
                        data.append({
                            'code': code,
                            'rate': data_list[code]['24h_avg']
                        })

                task = queue_task(1, 'update_exchange_rates', data)
                print "Info: Exchange rates updated OK using " + source
                self.queue.put(task)
                sleep(600 + random.randint(0, 1200)
                      )  # refresh every 10 - 30 minutes - randomize period
            except:
                print "Warning: Failed to retrieve current exchange rates from " + source
                if source_index < len(sources) - 1:
                    source_index += 1
                else:
                    source_index = 0
                sleep(10)  # try again in 10 seconds

        print "Exchange rate collector shutting down"