class azure_service_bus_listener(object):
	
    def __init__(self, azure_settings):
        self.bus_service = ServiceBusService(
            service_namespace= azure_settings['name_space'],
            shared_access_key_name = azure_settings['key_name'],
            shared_access_key_value = azure_settings['key_value'])
		
        self.queue_name = azure_settings['queue_name']
	
    def wait_for_message(self, on_receive_target, on_timeout_target):
		# just in case it isn't there
        self.create_queue()
		
        message = self.bus_service.receive_queue_message(self.queue_name, peek_lock=False)
        
        if (message.body == None):
            print("[ASB_Listener]: No Message Received")
            on_timeout_target()
        else:
            message_string = message.body.decode('utf-8')
            on_receive_target(message_string)
		
    def create_queue(self):
        q_opt = Queue()
        q_opt.max_size_in_megabytes = '1024'
        q_opt.default_message_time_to_live = 'PT1M'
        self.bus_service.create_queue(self.queue_name, q_opt)
    def test_two_identities(self):
        # In order to run this test, 2 service bus service identities are created using
        # the sbaztool available at:
        # http://code.msdn.microsoft.com/windowsazure/Authorization-SBAzTool-6fd76d93
        #
        # Use the following commands to create 2 identities and grant access rights.
        # Replace <servicebusnamespace> with the namespace specified in the test .json file
        # Replace <servicebuskey> with the key specified in the test .json file
        # This only needs to be executed once, after the service bus namespace is created.
        #
        # sbaztool makeid user1 NoHEoD6snlvlhZm7yek9Etxca3l0CYjfc19ICIJZoUg= -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Send /path1 user1 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Listen /path1 user1 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Manage /path1 user1 -n <servicebusnamespace> -k <servicebuskey>

        # sbaztool makeid user2 Tb6K5qEgstyRBwp86JEjUezKj/a+fnkLFnibfgvxvdg= -n <servicebusnamespace> -k <servicebuskey> 
        # sbaztool grant Send /path2 user2 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Listen /path2 user2 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Manage /path2 user2 -n <servicebusnamespace> -k <servicebuskey>

        sbs1 = ServiceBusService(credentials.getServiceBusNamespace(), 
                                 'NoHEoD6snlvlhZm7yek9Etxca3l0CYjfc19ICIJZoUg=', 
                                 'user1')
        sbs2 = ServiceBusService(credentials.getServiceBusNamespace(), 
                                 'Tb6K5qEgstyRBwp86JEjUezKj/a+fnkLFnibfgvxvdg=', 
                                 'user2')

        queue1_name = 'path1/queue' + str(random.randint(1, 10000000))
        queue2_name = 'path2/queue' + str(random.randint(1, 10000000))

        try:
            # Create queues, success
            sbs1.create_queue(queue1_name)
            sbs2.create_queue(queue2_name)

            # Receive messages, success
            msg = sbs1.receive_queue_message(queue1_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs1.receive_queue_message(queue1_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs2.receive_queue_message(queue2_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs2.receive_queue_message(queue2_name, True, 1)
            self.assertIsNone(msg.body)

            # Receive messages, failure
            with self.assertRaises(HTTPError):
                msg = sbs1.receive_queue_message(queue2_name, True, 1)
            with self.assertRaises(HTTPError):
                msg = sbs2.receive_queue_message(queue1_name, True, 1)
        finally:
            try:
                sbs1.delete_queue(queue1_name)
            except: pass
            try:
                sbs2.delete_queue(queue2_name)
            except: pass
Esempio n. 3
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 def _ensureServiceBusQueuesExist(self):
     """
     Creates Azure service bus queues required by the service.
     """
     logger.info("Checking for existence of Service Bus Queues.")
     namespace = self.sbms.get_namespace(self.config.getServiceBusNamespace())
     sbs = ServiceBusService(namespace.name, namespace.default_key, issuer='owner')
     queue_names = ['jobresponsequeue', 'windowscomputequeue', 'linuxcomputequeue']
     for name in queue_names:
         logger.info("Checking for existence of Queue %s.", name)
         sbs.create_queue(name, fail_on_exist=False)
         logger.info("Queue %s is ready.", name)
Esempio n. 4
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def main(argv):
   print '##################################################################'
   print '#           Test Azure Service bus queue connection              #'
   print '##################################################################'

   configFileName = os.path.dirname(os.path.abspath(__file__)) + '/config.json'

   print 'Start Parameters:'
   print '  configFileName:', configFileName 

   json_data=open(configFileName)
   config_data = json.load(json_data)
   json_data.close()

   print '      Company ID:', config_data["Server"]["id"]
   print '      Gateway ID:', config_data["Server"]["Deviceid"]
   print '     Service Bus:', config_data["Servicebus"]["namespace"]

   queue_name = 'custom_' + config_data["Server"]["id"] + '_' + config_data["Server"]["Deviceid"]
   bus_service = ServiceBusService( service_namespace=config_data["Servicebus"]["namespace"], 
                                    shared_access_key_name=config_data["Servicebus"]["shared_access_key_name"], 
                                    shared_access_key_value=config_data["Servicebus"]["shared_access_key_value"])
   try:
      bus_service.receive_queue_message(queue_name, peek_lock=False)
      print '  Actuator queue: ' + queue_name
   except:
      queue_options = Queue()
      queue_options.max_size_in_megabytes = '1024'
      queue_options.default_message_time_to_live = 'PT15M'
      bus_service.create_queue(queue_name, queue_options)
      print '  Actuator queue: ' + queue_name + ' (Created)'	   
	   
   # List to hold all commands that was send no ACK received
   localCommandSendAckWaitList = []
   while True:
      cloudCommand = bus_service.receive_queue_message(queue_name, peek_lock=False)

      if cloudCommand.body is not None:
          stringCommand = str(cloudCommand.body)
          print 'C: Received "' + stringCommand + '" => ',

          #Tranlate External/Cloud ID to local network ID 
          temp = stringCommand.split("-")
          #print 'stringCommand.split = ', temp
          localNetworkDeviceID = config_data["Devices"].keys()[config_data["Devices"].values().index(temp[0])]
          print 'for DeviceId=' + localNetworkDeviceID

      time.sleep(10)
class azure_service_bus_listener(object):
	
	def __init__(self, azure_settings):
		self.bus_service = ServiceBusService(
			service_namespace= azure_settings.name_space,
			shared_access_key_name = azure_settings.key_name,
			shared_access_key_value = azure_settings.key_value)
		
		self.queue_name = azure_settings(queue_name)
	
	def wait_for_message(self, on_receive_target):
		message = self.bus_service.receive_queue_message(self.queue_name, peek_lock=False)
		message_string = message.body.decode('utf-8')
		on_receive_target(message_string)
		
	def create_queue(self):
		q_opt = Queue()
		q_opt.max_size_in_megabytes = '1024'
		q_opt.default_message_time_to_live = 'PT1M'
		self.bus_service.create_queue(self.queue_name, q_opt)
Esempio n. 6
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class AzureConnection():
    def __init__(self):
        self.bus_service = ServiceBusService(
            service_namespace='msgtestsb',
            shared_access_key_name='RootManageSharedAccessKey',
            shared_access_key_value='Ar9fUCZQdTL7cVWgerdNOB7sbQp0cWEeQyTRYUjKwpk=')
        queue_options = Queue()
        queue_options.max_size_in_megabytes = '5120'
        queue_options.default_message_time_to_live = 'PT96H'

        self.bus_service.create_queue('process_incoming', queue_options)
        self.bus_service.create_queue('whatsapp_sender', queue_options)
        self.bus_service.create_queue('myapp_sender', queue_options)
 

    def receive(self):
        msg = self.bus_service.receive_queue_message('process_incoming', peek_lock=False)
        
        if msg != None and msg.body:
                logger.info(  msg.body)
                return json.loads(msg.body)
        else:
                return None

    def send(self, jsondict):
        t = json.dumps(jsondict)
        msg = Message(t)
        logger.info(  t)
        Q = jsondict['medium'] + '_sender'
            
        self.bus_service.send_queue_message(Q, msg)
Esempio n. 7
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class ServiceBusQueue(object):
    def __init__(self, namespace, access_key_name, access_key_value, q_name, q_max_size="5120", msg_ttl="PT1M"):
        self.bus_svc = ServiceBusService(
            service_namespace=namespace,
            shared_access_key_name=access_key_name,
            shared_access_key_value=access_key_value,
        )
        self.queue_options = Queue()
        self.queue_options.max_size_in_megabytes = q_max_size
        self.queue_options.default_message_time_to_live = msg_ttl

        self.queue_name = q_name
        self.bus_svc.create_queue(self.queue_name, self.queue_options)

    def send(self, msg):
        message = bytes(msg)
        message = Message(message)
        self.bus_svc.send_queue_message(self.queue_name, message)

    def receive(self):
        msg = self.bus_svc.receive_queue_message(self.queue_name, peek_lock=False)
        data = ast.literal_eval(msg.body)
        return data
Esempio n. 8
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def watchAzureQueue():
        global Counter
        if AZURE_RECEIVING == False:
            return 

        bus_service = ServiceBusService(
            service_namespace='msgtestsb',
            shared_access_key_name='RootManageSharedAccessKey',
            shared_access_key_value='Ar9fUCZQdTL7cVWgerdNOB7sbQp0cWEeQyTRYUjKwpk=')
        queue_options = Queue()
        queue_options.max_size_in_megabytes = '5120'
        queue_options.default_message_time_to_live = 'PT96H'

        bus_service.create_queue('process_incoming', queue_options)
        bus_service.create_queue('whatsapp_sender', queue_options)
 
        while not isfile('/home/bitnami1/whatsapp/.stopwhatsapp') and Counter > 1:
            msg = bus_service.receive_queue_message('whatsapp_sender', peek_lock=False)
            if msg != None and msg.body:
                logging.info( '%s ' % datetime.now() +  msg.body)
                SendQueue.put(msg.body)
            else:
                logging.info( '%s ' % datetime.now() +  "Empty Azure Queue")
    	        time.sleep(4.6)
Esempio n. 9
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import string
import json
import threading
import asyncio
from azure.servicebus import ServiceBusService, Message, Queue
from azure.storage.table import TableService, Entity


table_service = TableService(account_name='gregseon4e059a98c11c',\
    account_key='yE7Kuy0xVxUDR+wHGoWPjSpOhFO9WLd9b+t3+RI9C8tuBNbuLwEtWSQGERiO7LJRE1cFTGB0/TT4+CYGhtMfww==')
if not table_service.exists('Transactions'):
    table_service.create_table('Transactions')
bus_service = ServiceBusService(service_namespace='gregseon4e059a98c11c',\
    shared_access_key_name='RootManageSharedAccessKey',\
    shared_access_key_value='d8PrqA7to95t0wUFywAfhNDcbUwvh2sIpiHqvUdbPSQ=')
bus_service.create_queue('test4scaling')

products = [
    "Financial Trap", "Insurance", "Bitcoin", "Timeshares", "Food", "Clothes"
]


def enqueue(start, stop):
    for x in range(start, stop):
        userid = "A" + str(random.randint(1, 1000))
        sellerid = "S" + str(random.randint(1, 1000))
        data = {"TransactionID":int(time.time()),"UserId":userid,'SellerID':sellerid,'ProductName':random.choice(products),"SalePrice":random.randint(1000,1000000),\
            'TransactionDate':time.strftime("%Y-%m-%d")}
        msg = Message(json.dumps(data))
        bus_service.send_queue_message('test4scaling', msg)
Esempio n. 10
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def main(argv):
   print '##################################################################'
   print '#                         NRF24 gateway                          #'
   print '##################################################################'


   # Wait while internet appear
   import urllib2 
   loop_value = 1
   while (loop_value < 10):
      try:
           urllib2.urlopen("http://google.com")
      except:
           print( "Network: currently down." )
           time.sleep( 10 )
           loop_value = loop_value + 1
      else:
           print( "Network: Up and running." )
           loop_value = 10


   pipes = [[0xf0, 0xf0, 0xf0, 0xf0, 0xd2], [0xf0, 0xf0, 0xf0, 0xf0, 0xe1]]
   configFileName = os.path.dirname(os.path.abspath(__file__)) + '/config.json'
   debugMode = 0

   try:
      opts, args = getopt.getopt(argv,"hd:f:",["debug=","configFile="])
   except getopt.GetoptError:
      print 'smart_gateway.py -d <debugMode:0/1>'
      sys.exit(2)
   for opt, arg in opts:
      if opt == '-h':
         print 'Example for call it in debug mode: smart_gateway.py -d 1 -f config.json'
         sys.exit()
      elif opt in ("-d", "--debug"):
         debugMode = arg
      elif opt in ("-f", "--configFile"):
         configFileName = arg

   print 'Start Parameters:'
   print '       debugMode:', debugMode
   print '  configFileName:', configFileName 

   json_data=open(configFileName)
   config_data = json.load(json_data)
   json_data.close()

   print '      Server URL:', config_data["Server"]["url"]
   print '      Company ID:', config_data["Server"]["id"]
   print '      Gateway ID:', config_data["Server"]["Deviceid"]
   print '     Service Bus:', config_data["Servicebus"]["namespace"]

   print ''
   nowPI = datetime.now().strftime("%Y-%m-%dT%H:%M:%S")

   href = config_data["Server"]["url"] + 'API/Device/GetServerDateTime'
   token = config_data["Server"]["key"]
   authentication = config_data["Server"]["id"] + ':' + token
   headers = {'Content-Type': 'application/json; charset=utf-8', 'Accept': 'application/json', 'Authentication': authentication}
   #r = requests.get(href, headers=headers, verify=False)
   r = requests.get(href, headers=headers)
   if r.status_code == 200:
       nowPI = r.json()
       print ("Setting up time to: " + nowPI)
       os.popen('sudo -S date -s "' + nowPI + '"', 'w').write("123")
   else:
       print 'Error in setting time. Server response code: %i' % r.status_code

   queue_name = 'custom_' + config_data["Server"]["id"] + '_' + config_data["Server"]["Deviceid"]
   bus_service = ServiceBusService( service_namespace=config_data["Servicebus"]["namespace"], 
                                    shared_access_key_name=config_data["Servicebus"]["shared_access_key_name"], 
                                    shared_access_key_value=config_data["Servicebus"]["shared_access_key_value"])
   try:
      bus_service.receive_queue_message(queue_name, peek_lock=False)
      print '  Actuator queue: ' + queue_name
   except:
      queue_options = Queue()
      queue_options.max_size_in_megabytes = '1024'
      queue_options.default_message_time_to_live = 'PT15M'
      bus_service.create_queue(queue_name, queue_options)
      print '  Actuator queue: ' + queue_name + ' (Created)'	   
	   
   href = config_data["Server"]["url"] + 'api/Device/DeviceConfigurationUpdate'
   token = config_data["Server"]["key"]
   authentication = config_data["Server"]["id"] + ":" + token


   if debugMode==1: print(authentication)
   headers = {'Content-Type': 'application/json; charset=utf-8', 'Accept': 'application/json', 'Timestamp': nowPI, 'Authentication': authentication}
    
   deviceDetail = {}
   deviceDetail["DeviceIdentifier"] = config_data["Server"]["Deviceid"]
   deviceDetail["DeviceType"] = "Custom"
   deviceDetail["DeviceConfigurations"] = [{'Key':'IPPrivate','Value':[(s.connect(('8.8.8.8', 80)), s.getsockname()[0], s.close()) for s in [socket.socket(socket.AF_INET, socket.SOCK_DGRAM)]][0][1]},
                                           {'Key':'IPPublic','Value': requests.get('http://icanhazip.com/').text},
                                           {'Key': 'Configuration', 'Value': json.dumps(config_data) },
                                           {'Key':'MAC','Value': ':'.join(("%012X" % get_mac())[i:i+2] for i in range(0, 12, 2))}
                                          ]

   payload = {'Device': deviceDetail}
   if debugMode == 1: print 'Request Content: {0}'.format(json.dumps(payload))
   #r = requests.post(href, headers=headers, data=json.dumps(payload), verify=False)
   r = requests.post(href, headers=headers, data=json.dumps(payload))


   if r.status_code == 200:
      if debugMode == 1: print 'Configuration Response Content: {0}'.format(r.content)
      data = json.loads(r.text)    
      for entry in data['Device']['DeviceConfigurations']:
          if entry['Key'] == 'Configuration':     
             with open(configFileName, 'w') as outfile:
                json.dump(json.loads(entry['Value']), outfile)
      print 'Device configuration Successfully updated'
   else:
      print 'Error in Device configuration update. Server response code: {0} {1}'.format(r.status_code, r.content)


   GPIO.setwarnings(False)

   radio = NRF24()
   radio.begin(0, 0, 25, 18) #set gpio 25 as CE pin
   radio.setRetries(15,15)
   radio.setPayloadSize(32)
   radio.setChannel(0x4c)
   radio.setDataRate(NRF24.BR_250KBPS)
   radio.setPALevel(NRF24.PA_MAX)
   radio.setAutoAck(1)
   radio.openWritingPipe(pipes[1])
   radio.openReadingPipe(1, pipes[0])

   radio.startListening()
   radio.stopListening()

   print ''
   print 'NRF24 Module Configuration Details:'
   radio.printDetails()
   radio.startListening()

   print ''
   cloudCommandLastCheck = datetime.now()

   # List to hold all commands that was send no ACK received
   localCommandSendAckWaitList = []
   while True:
       pipe = [0]
       cloudCommand = ''
       nowPI = datetime.now()
       while not radio.available(pipe, True):
           radioTime = datetime.now()
           tdelta = nowPI-radioTime
           time.sleep(1)
           if (abs(tdelta.total_seconds()) > 10): break

       recv_buffer = []
       radio.read(recv_buffer)
       out = ''.join(chr(i) for i in recv_buffer)

       nowPI = datetime.now()

       if debugMode == 1: print localCommandSendAckWaitList

       if out.find(';')>0:
          out = out.split(';')[0]
          print 'L: Received: ' + out

          temp =out.split("_")
          if debugMode == 1: print (temp)
    
          if temp[0] in config_data["Devices"]:
             if temp[1] == 'ack':
               # Clean list once ACK from SN is received
                localCommandSendAckWaitList= [x for x in localCommandSendAckWaitList if x != temp[2]]
                print '<- Broadcast complete, ACK received for: ' + temp[2]
             else:
                sendMeasure(config_data, nowPI.strftime("%Y-%m-%dT%H:%M:%S"), temp[1], temp[2], config_data["Devices"][temp[0]], debugMode)
                print 'L: Generated selfok'
                sendMeasure(config_data, nowPI.strftime("%Y-%m-%dT%H:%M:%S"), 'live', 1, config_data["Server"]["Deviceid"], debugMode)
          else:
             if temp[0] == '???':
                 print 'New Device Registration, HandshakeID=' + temp[2]
                 localId = sendSensorRegistration(config_data,  nowPI.strftime("%Y-%m-%dT%H:%M:%S"), 'new custom device (' + temp[2] + ')')
                 if localId != 0:
                      localCommandSendAckWaitList.append('???_v02_' + temp[2] + '_' + localId) 
                      # Reload config data as we succesfully registered new device
                      json_data=open(configFileName)
                      config_data = json.load(json_data)
                      json_data.close()
             else:
                 print '-> ignore'

       if queue_name <> '':
          # if check timeout is gone go to Azure and grab command to execute
          tdelta = nowPI-cloudCommandLastCheck
          if (abs(tdelta.total_seconds()) > 10):
             cloudCommandLastCheck = datetime.now()
             thread = Thread(target=checkCloudCommand, args=(bus_service, queue_name, localCommandSendAckWaitList, config_data))
             thread.start()

          if debugMode == 1: print localCommandSendAckWaitList
          # Repeat sending/span commands while list is not empty
          for localCommand in localCommandSendAckWaitList:
             radio.stopListening()
             buf = list(localCommand)
             radio.write(buf)
             print 'L: Broadcast Command: ' + localCommand 
             time.sleep(1)
             radio.startListening()
Esempio n. 11
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import azurecfg
from azure.servicebus import ServiceBusService, Message, Queue

bus_service = ServiceBusService(
        service_namespace='atdblasphemy',
        shared_access_key_name=azurecfg.servicebus['name'],
        shared_access_key_value=azurecfg.servicebus['key'])

bus_service.create_queue('atd')
Esempio n. 12
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block_blob_service = storage_account.create_block_blob_service()

# Create container
from azure.storage.blob import PublicAccess
block_blob_service.create_container('images',
                                    public_access=PublicAccess.Container)

# Create service bus service
from azure.servicebus import ServiceBusService, Message, Queue
bus_service = ServiceBusService(
    service_namespace=app.config['SERVICEBUS_NAMESPACE'],
    shared_access_key_name=app.config['SERVICEBUS_ACCESS_KEYNAME'],
    shared_access_key_value=app.config['SERVICEBUS_ACCESS_KEYVALUE'])

# Create queue
bus_service.create_queue('adqueue', None, False)


def CreateAdBlob(file):
    filename = RandomString(12) + splitext((file.filename))[1]
    block_blob_service.create_blob_from_stream('images', filename, file.stream)
    imageURL = 'https://' + app.config[
        'STORAGE_ACCOUNT_NAME'] + '.blob.core.windows.net/images/' + filename
    return imageURL


def DeleteAdBlob(ad):
    if ad.imageURL:
        block_blob_service.delete_blob('images', basename(ad.imageURL))
    if ad.thumbnailURL:
        block_blob_service.delete_blob('images', basename(ad.thumbnailURL))
Esempio n. 13
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from azure.servicebus import ServiceBusService, Message, Queue

os.system('modprobe w1-gpio')
os.system('modprobe w1-therm')

base_dir = '/sys/bus/w1/devices/'
device1_file = glob.glob(base_dir + '28*')[0] + '/w1_slave'
device2_file = glob.glob(base_dir + '28*')[1] + '/w1_slave'

key_name = "RootManageSharedAccessKey"
key_value = "MFIHIYoS7QmgaATst7IXAn272URV71y8+XT66GJZBiY="

sbs = ServiceBusService("BraneyBI",
                        shared_access_key_name=key_name,
                        shared_access_key_value=key_value)
sbs.create_queue("piQueue")


def read_temp_raw(dfile):
    f = open(dfile, 'r')
    lines = f.readlines()
    f.close()
    return lines


def read_temp(dfile):
    lines = read_temp_raw(dfile)
    while lines[0].strip()[-3:] != 'YES':
        time.sleep(0.2)
        lines = read_temp_raw(dfile)
    equals_pos = lines[1].find('t=')
from azure.servicebus import ServiceBusService, Message, Queue

bus_service = ServiceBusService(
    service_namespace='cloudassignment34ed0',
    shared_access_key_name='RootManageSharedAccessKey',
    shared_access_key_value='P6TUMCQVFg8ZIG8Z5KiPAIFaAHzvTcX9g7n8fNYAbZ0=')

bus_service.create_queue('taskqueue')
msg = Message('Test for today Message')
bus_service.send_queue_message('taskqueue', msg)

# bus_service_r = ServiceBusService(
#     service_namespace='cloudassignment34ed0',
#     shared_access_key_name='RootManageSharedAccessKey',
#     shared_access_key_value='P6TUMCQVFg8ZIG8Z5KiPAIFaAHzvTcX9g7n8fNYAbZ0=')

# msg = bus_service.receive_queue_message('taskqueue', peek_lock=False)
# print(msg.body)
class AzureConnector():

    def __init__(self, config):

        tree = ET.parse('SharedConfig.xml')
        self.myMachineName = tree.find('.//Instance').get("id")

        self.sms = ServiceManagementService(
            subscription_id=config.get("azure", "subscription_id"),
            cert_file=config.get("azure", "cert_file")
        );

        self.bus_service = ServiceBusService(
            service_namespace=config.get("azure", "bus_namespace"),
            shared_access_key_name=config.get("azure", "bus_shared_access_key_name"),
            shared_access_key_value=config.get("azure", "bus_shared_access_key_value"))

        self.command_queue = config.get("azure", "commandQueuePath")
        for tries in range(1,10):
            try:
                self.bus_service.create_queue(self.command_queue)
                break
            except:
                print "Esperando"
            
        self.status_topic = config.get("azure", "statusTopicPath")
        self.bus_service.create_queue(self.status_topic)

        self.storage = BlobService(account_name=config.get("azure", "account_name"),
                                   account_key=config.get("azure", "account_key"))

        self.algo_storage_name = config.get("azure", "algorithm_storage_name")
        self.storage.create_container(self.algo_storage_name, fail_on_exist=False)

        self.proj_storage_name = config.get("azure", "project_storage_name")
        self.storage.create_container(self.proj_storage_name, fail_on_exist=False)

    def check_new_tasks(self):

        for tries in range(1,2):
            try:
                message = self.bus_service.receive_queue_message(self.command_queue, peek_lock=False, timeout=60)
                break
            except:
                message = None

        if message is None or message.body is None:
            return None

        job_description = json.loads(message.body.replace('/AzureBlobStorage/', ''))

        command = CommandMetadata(
            command_id = job_description["command_id"],
            algorithm_directory = job_description["algorithm_prfx"],
            project_prfx = job_description["project_prfx"],
            project_input_files = job_description["project_input_files"],
            algorithm_executable_name = job_description["algorithm_executable_name"],
            algorithm_parameters = job_description["algorithm_parameters"],
            sent_timestamp = datetime.datetime.strptime(job_description["sent_timestamp"], "%d/%m/%Y %H:%M:%S"),
            machine_size=job_description["machine_size"])

        # Retornar dados sobre o comando consumido da fila
        return command

        # Não há nada na fila
        return None

    def list_algo_files(self, prfx):

        list = self.storage.list_blobs(container_name=self.algo_storage_name, prefix=prfx)
        result = []
        for blob in list:
            result.append(blob.name)
        return result

    def download_algo_zip(self, algorithm_bin_file, tmp_file):
        print "download_algo_zip(algorithm_bin_file="+algorithm_bin_file+", tmp_file="+tmp_file+")"
        for tries in range(1,5):
            try:
                self.storage.get_blob_to_path(self.algo_storage_name, algorithm_bin_file, tmp_file,
                                 open_mode='wb', snapshot=None, x_ms_lease_id=None,
                                 progress_callback=None)
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())

    def download_file_to_project(self, project_name, blob_name, dir):
        print "download_file_to_project(project_name="+project_name+", blob_name="+blob_name+", dir="+dir+")"
        for tries in range(1,5):
            try:
                self.storage.get_blob_to_path(self.proj_storage_name,
                                              os.path.join(project_name,blob_name),
                                              os.path.join(dir,os.path.join(project_name,blob_name)),
                                              open_mode='wb', snapshot=None, x_ms_lease_id=None,
                                              progress_callback=None)
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())

    def download_file_to_project(self, project_name, blob_name, dir):
        print "download_file_to_project(project_name="+project_name+", blob_name="+blob_name+", dir="+dir+")"
        for tries in range(1,5):
            try:
                self.storage.get_blob_to_path(self.proj_storage_name,
                                              os.path.join(project_name,blob_name),
                                              os.path.join(dir,os.path.join(project_name,blob_name)),
                                              open_mode='wb', snapshot=None, x_ms_lease_id=None,
                                              progress_callback=None)
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())

    def upload_proj_file(self, project_name, blob_name, dir):
        print "upload_proj_file(project_name="+project_name+", blob_name="+blob_name+", dir="+dir+")"
        if blob_name[0] == '/':
            blob_name = blob_name[1:]
        for tries in range(1,5):
            try:
                self.storage.put_block_blob_from_path(self.proj_storage_name,
                                              os.path.join(project_name,blob_name),
                                              os.path.join(dir,os.path.join(project_name,blob_name)))
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())

    def download_file_to_algo(self, blob_name, dir):
        print "download_file_to_algo(blob_name="+blob_name+", dir="+dir+")"

        for tries in range(1,5):
            try:
                self.storage.get_blob_to_path(container_name=self.algo_storage_name,
                                              blob_name=os.path.join(blob_name),
                                              file_path=os.path.join(dir,blob_name),
                                              open_mode='wb', snapshot=None, x_ms_lease_id=None,
                                              progress_callback=None)
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())


    def send_status(self, main_status):
        for tries in range(1,5):
            try:
                self.bus_service.send_topic_message(topic_name=self.status_topic,
                                                    message=Message(main_status.encode('utf-8')))
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())

    def shutdown_myself(self):

        # A máquina virtual irá cometer suicídio.
        print("Removendo máquina virtual da nuvem...")
        for tries in range(1,5):
            try:
                self.sms.delete_deployment(
                    service_name=self.myMachineName,
                    deployment_name=self.myMachineName, delete_vhd=True)
                exit(0)
                break

            except Exception as e:

                if tries == 5:
                    print("Muitos erros de conexão. Operação abortada.")
                else:
                    print("Erro de conexão com serviço. Retentando..." + e.__str__())
Esempio n. 16
0
import sys
import os
from azure.servicebus import ServiceBusService

queueName = sys.argv[1]
sbs = ServiceBusService(
    "magicButtonMB",
    shared_access_key_name="RootManageSharedAccessKey",
    shared_access_key_value="SNZewWOTdOkaVShECrp+OCKmSFqW5JCEjEM52slp5TM=")

sbs.create_queue(queueName)
Esempio n. 17
0
File: ipaddr.py Progetto: nikkh/pi
    def __init__(self):
        self.devicename = "Not Set"
        self.ipaddr = "Not Set"


print(os.getcwd())

service_namespace = 'nixpitest'
with open('private/keys.txt', 'r') as myfile:
    keyval = myfile.read().replace('\n', '')
key_name = 'RootManageSharedAccessKey'  # SharedAccessKeyName from Azure portal
key_value = keyval  # SharedAccessKey from Azure portal
sbs = ServiceBusService(service_namespace,
                        shared_access_key_name=key_name,
                        shared_access_key_value=key_value)
sbs.create_queue('ippublishqueue')

myip = (([
    ip for ip in socket.gethostbyname_ex(socket.gethostname())[2]
    if not ip.startswith("127.")
] or [[(s.connect(("8.8.8.8", 53)), s.getsockname()[0], s.close())
       for s in [socket.socket(socket.AF_INET, socket.SOCK_DGRAM)]][0][1]]) +
        ["no IP found"])[0]
initMessage = InitMessage()
initMessage.devicename = "fred"
initMessage.ipaddr = myip
s = json.dumps(initMessage.__dict__)  # s set to: {"x":1, "y":2}
print(s)
msg = Message(s)
sbs.send_queue_message('ippublishqueue', msg)
print(myip, 'published to service bus queue')
Esempio n. 18
0
from sastoken import get_auth_token
from config import queuename, tablename, failqueue
from azure.storage.table import TableService
from azure.servicebus import ServiceBusService

# make Table if it doesn't exist
table_service = TableService(account_name='gregseon4e059a98c11c',\
    account_key='yE7Kuy0xVxUDR+wHGoWPjSpOhFO9WLd9b+t3+RI9C8tuBNbuLwEtWSQGERiO7LJRE1cFTGB0/TT4+CYGhtMfww==')
if not table_service.exists(tablename):
    table_service.create_table(tablename)

# make queues if they dont exist
bus_service = ServiceBusService(service_namespace='gregseon4e059a98c11c',\
    shared_access_key_name='RootManageSharedAccessKey',\
    shared_access_key_value='d8PrqA7to95t0wUFywAfhNDcbUwvh2sIpiHqvUdbPSQ=')
bus_service.create_queue(queuename)
bus_service.create_queue(failqueue)

#generate token for https comms
sas = get_auth_token("gregseon4e059a98c11c", queuename,
                     "RootManageSharedAccessKey",
                     "d8PrqA7to95t0wUFywAfhNDcbUwvh2sIpiHqvUdbPSQ=")
sas2 = get_auth_token("gregseon4e059a98c11c", failqueue,
                      "RootManageSharedAccessKey",
                      "d8PrqA7to95t0wUFywAfhNDcbUwvh2sIpiHqvUdbPSQ=")


async def tblwrite(msg, session):
    ''' Write message to table '''
    uri = "https://gregseon4e059a98c11c.table.core.windows.net/" + tablename + "?sv=2017-04-17&ss=bfqt&srt=sco&sp=rwdlacup&se=2017-11-30T08:49:46Z&st=2017-11-18T00:49:46Z&spr=https&sig=XL0n1GIAFRslWdTOZY8ivSqK7hQqW7SZXpLHCWrUSmw%3D"
    tid = str(msg["TransactionID"])
Esempio n. 19
0
def main(argv):
   print '##################################################################'
   print '#                         NRF24 gateway                          #'
   print '##################################################################'


   # Wait while internet appear
   import urllib2 
   loop_value = 1
   while (loop_value < 10):
      try:
           urllib2.urlopen("http://google.com")
      except:
           print( "Network: currently down." )
           time.sleep( 10 )
           loop_value = loop_value + 1
      else:
           print( "Network: Up and running." )
           loop_value = 10


   pipes = [[0xf0, 0xf0, 0xf0, 0xf0, 0xd2], [0xf0, 0xf0, 0xf0, 0xf0, 0xe1]]
   configFileName = os.path.dirname(os.path.abspath(__file__)) + '/config.json'
   debugMode = 0

   try:
      opts, args = getopt.getopt(argv,"hd:f:",["debug=","configFile="])
   except getopt.GetoptError:
      print 'smart_gateway.py -d <debugMode:0/1>'
      sys.exit(2)
   for opt, arg in opts:
      if opt == '-h':
         print 'Example for call it in debug mode: smart_gateway.py -d 1 -f config.json'
         sys.exit()
      elif opt in ("-d", "--debug"):
         debugMode = arg
      elif opt in ("-f", "--configFile"):
         configFileName = arg

   print 'Start Parameters:'
   print '       debugMode:', debugMode
   print '  configFileName:', configFileName 

   json_data=open(configFileName)
   config_data = json.load(json_data)
   json_data.close()

   print '      Server URL:', config_data["Server"]["url"]
   print '      Company ID:', config_data["Server"]["id"]
   print '      Gateway ID:', config_data["Server"]["Deviceid"]
   print '     Service Bus:', config_data["Servicebus"]["namespace"]

   print ''
   nowPI = datetime.now().strftime("%Y-%m-%dT%H:%M:%S")

   href = config_data["Server"]["url"] + 'API/Device/GetServerDateTime'
   token = config_data["Server"]["key"]
   authentication = config_data["Server"]["id"] + ':' + token
   headers = {'Content-Type': 'application/json; charset=utf-8', 'Accept': 'application/json', 'Authentication': authentication}
   #r = requests.get(href, headers=headers, verify=False)
   r = requests.get(href, headers=headers)
   if r.status_code == 200:
       nowPI = r.json()
       print ("Setting up time to: " + nowPI)
       os.popen('sudo -S date -s "' + nowPI + '"', 'w').write("123")
   else:
       print 'Error in setting time. Server response code: %i' % r.status_code
	   
   href = config_data["Server"]["url"] + 'api/Device/DeviceConfigurationUpdate'
   token = config_data["Server"]["key"]
   authentication = config_data["Server"]["id"] + ":" + token


   if debugMode==1: print(authentication)
   headers = {'Content-Type': 'application/json; charset=utf-8', 'Accept': 'application/json', 'Timestamp': nowPI, 'Authentication': authentication}
    
   deviceDetail = {}
   deviceDetail["DeviceIdentifier"] = config_data["Server"]["Deviceid"]
   deviceDetail["DeviceType"] = "Custom"
   deviceDetail["DeviceConfigurations"] = [{'Key':'IPPrivate','Value':[(s.connect(('8.8.8.8', 80)), s.getsockname()[0], s.close()) for s in [socket.socket(socket.AF_INET, socket.SOCK_DGRAM)]][0][1]},
                                           {'Key':'IPPublic','Value': requests.get('http://icanhazip.com/').text},
                                           {'Key': 'Configuration', 'Value': json.dumps(config_data) },
                                           {'Key':'MAC','Value': ':'.join(("%012X" % get_mac())[i:i+2] for i in range(0, 12, 2))}
                                          ]

   payload = {'Device': deviceDetail}
   if debugMode == 1: print 'Request Content: {0}'.format(json.dumps(payload))
   #r = requests.post(href, headers=headers, data=json.dumps(payload), verify=False)
   r = requests.post(href, headers=headers, data=json.dumps(payload))


   if r.status_code == 200:
      if debugMode == 1: print 'Configuration Response Content: {0}'.format(r.content)
      data = json.loads(r.text)    
      for entry in data['Device']['DeviceConfigurations']:
          if entry['Key'] == 'Configuration':     
             with open(configFileName, 'w') as outfile:
                json.dump(json.loads(entry['Value']), outfile)
      print 'Device configuration Successfully updated'
   else:
      print 'Error in Device configuration update. Server response code: {0} {1}'.format(r.status_code, r.content)

   
   queue_name = 'custom_' + config_data["Server"]["id"] + '_' + config_data["Server"]["Deviceid"]
   bus_service = ServiceBusService( service_namespace=config_data["Servicebus"]["namespace"], 
                                    shared_access_key_name=config_data["Servicebus"]["shared_access_key_name"], 
                                    shared_access_key_value=config_data["Servicebus"]["shared_access_key_value"])
   try:
      bus_service.receive_queue_message(queue_name, peek_lock=True)
      print '  Succesfully connected to queue'
      print '  Actuator queue: ' + queue_name
   except:
      queue_options = Queue()
      queue_options.max_size_in_megabytes = '1024'
      queue_options.default_message_time_to_live = 'PT15M'
      bus_service.create_queue(queue_name, queue_options)
      print '  Succesfully created queue'
      print '  Actuator queue: ' + queue_name + ' (Created)'

   GPIO.setwarnings(False)

   radio = NRF24()
   radio.begin(0, 0, 25, 18) #set gpio 25 as CE pin
   radio.setRetries(15,15)
   radio.setPayloadSize(32)
   radio.setChannel(0x4c)
   radio.setDataRate(NRF24.BR_250KBPS)
   radio.setPALevel(NRF24.PA_MAX)
   radio.setAutoAck(1)
   radio.openWritingPipe(pipes[1])
   radio.openReadingPipe(1, pipes[0])

   radio.startListening()
   radio.stopListening()

   print ''
   print 'NRF24 Module Configuration Details:'
   radio.printDetails()
   radio.startListening()

   print ''
   cloudCommandLastCheck = datetime.now()

   # List to hold all commands that was send no ACK received
   localCommandSendAckWaitList = []
   while True:
       pipe = [0]
       cloudCommand = ''
       nowPI = datetime.now()
       while not radio.available(pipe, True):
           radioTime = datetime.now()
           tdelta = nowPI-radioTime
           time.sleep(1)
           if (abs(tdelta.total_seconds()) > 10): break

       recv_buffer = []
       radio.read(recv_buffer)
       out = ''.join(chr(i) for i in recv_buffer)

       nowPI = datetime.now()

       if debugMode == 1: print localCommandSendAckWaitList

       if out.find(';')>0:
          out = out.split(';')[0]
          print 'L: Received: ' + out

          temp =out.split("_")
          if debugMode == 1: print (temp)
    
          if temp[0] in config_data["Devices"]:
             if temp[1] == 'ack':
               # Clean list once ACK from SN is received
                localCommandSendAckWaitList= [x for x in localCommandSendAckWaitList if x != temp[2]]
                print '<- Broadcast complete, ACK received for: ' + temp[2]
             else:
                sendMeasure(config_data, nowPI.strftime("%Y-%m-%dT%H:%M:%S"), temp[1], temp[2], config_data["Devices"][temp[0]], debugMode)
                print 'L: Generated selfok'
                sendMeasure(config_data, nowPI.strftime("%Y-%m-%dT%H:%M:%S"), 'live', 1, config_data["Server"]["Deviceid"], debugMode)
          else:
             if temp[0] == '???':
                 print 'New Device Registration, HandshakeID=' + temp[2]
                 localId = sendSensorRegistration(config_data,  nowPI.strftime("%Y-%m-%dT%H:%M:%S"), 'new custom device (' + temp[2] + ')')
                 if localId != 0:
                      localCommandSendAckWaitList.append('???_v02_' + temp[2] + '_' + localId) 
                      # Reload config data as we succesfully registered new device
                      json_data=open(configFileName)
                      config_data = json.load(json_data)
                      json_data.close()
             else:
                 print '-> ignore'

       if queue_name <> '':
          # if check timeout is gone go to Azure and grab command to execute
          tdelta = nowPI-cloudCommandLastCheck
          manager = ThreadManager(bus_service, queue_name, localCommandSendAckWaitList, config_data)
          thread = manager.new_thread()
          if (abs(tdelta.total_seconds()) > 10) and thread is not None:
             cloudCommandLastCheck = datetime.now()
             thread.run()

          if debugMode == 1: print localCommandSendAckWaitList
          # Repeat sending/span commands while list is not empty
          for localCommand in localCommandSendAckWaitList:
             radio.stopListening()
             buf = list(localCommand)
             radio.write(buf)
             print 'L: Broadcast Command: ' + localCommand 
             time.sleep(1)
             radio.startListening()
Esempio n. 20
0
        time.sleep(0.001)
    return


set_brightness(0.1)
print('Nicks Raspberry Pi Python Service Bus Client version 0.1')
service_namespace = 'nixpitest'
key_name = 'RootManageSharedAccessKey'  # SharedAccessKeyName from Azure portal
with open('private/keys.txt', 'r') as myfile:
    keyval = myfile.read().replace('\n', '')

key_value = keyval  # SharedAccessKey from Azure portal
sbs = ServiceBusService(service_namespace,
                        shared_access_key_name=key_name,
                        shared_access_key_value=key_value)
sbs.create_queue('testpythonqueue1')
while True:
    newmsg = None
    newmsg = sbs.receive_queue_message('testpythonqueue1', peek_lock=False)

    if newmsg.body is not None:
        print("message: ", newmsg.body, "\n")
        p = Payload(newmsg.body)
        if p.device: print(p.device)
        if p.effect: print(p.effect)
        if p.led: print(p.led)
        if p.colour: print(p.colour)
        if p.state: print(p.state)
        if p.effect == 'snake':
            if p.colour == 'red':
                snake(255, 0, 0)
class ServiceBusTest(AzureTestCase):

    def setUp(self):
        self.sbs = ServiceBusService(credentials.getServiceBusNamespace(),
                                     credentials.getServiceBusKey(),
                                     'owner')

        self.sbs.set_proxy(credentials.getProxyHost(),
                           credentials.getProxyPort(),
                           credentials.getProxyUser(),
                           credentials.getProxyPassword())

        __uid = getUniqueTestRunID()

        queue_base_name = u'mytestqueue%s' % (__uid)
        topic_base_name = u'mytesttopic%s' % (__uid)

        self.queue_name = getUniqueNameBasedOnCurrentTime(queue_base_name)
        self.topic_name = getUniqueNameBasedOnCurrentTime(topic_base_name)

        self.additional_queue_names = []
        self.additional_topic_names = []

    def tearDown(self):
        self.cleanup()
        return super(ServiceBusTest, self).tearDown()

    def cleanup(self):
        try:
            self.sbs.delete_queue(self.queue_name)
        except:
            pass

        for name in self.additional_queue_names:
            try:
                self.sbs.delete_queue(name)
            except:
                pass

        try:
            self.sbs.delete_topic(self.topic_name)
        except:
            pass

        for name in self.additional_topic_names:
            try:
                self.sbs.delete_topic(name)
            except:
                pass

    #--Helpers-----------------------------------------------------------------
    def _create_queue(self, queue_name):
        self.sbs.create_queue(queue_name, None, True)

    def _create_queue_and_send_msg(self, queue_name, msg):
        self._create_queue(queue_name)
        self.sbs.send_queue_message(queue_name, msg)

    def _create_topic(self, topic_name):
        self.sbs.create_topic(topic_name, None, True)

    def _create_topic_and_subscription(self, topic_name, subscription_name):
        self._create_topic(topic_name)
        self._create_subscription(topic_name, subscription_name)

    def _create_subscription(self, topic_name, subscription_name):
        self.sbs.create_subscription(topic_name, subscription_name, None, True)

    #--Test cases for service bus service -------------------------------------
    def test_create_service_bus_missing_arguments(self):
        # Arrange
        if os.environ.has_key(AZURE_SERVICEBUS_NAMESPACE):
            del os.environ[AZURE_SERVICEBUS_NAMESPACE]
        if os.environ.has_key(AZURE_SERVICEBUS_ACCESS_KEY):
            del os.environ[AZURE_SERVICEBUS_ACCESS_KEY]
        if os.environ.has_key(AZURE_SERVICEBUS_ISSUER):
            del os.environ[AZURE_SERVICEBUS_ISSUER]

        # Act
        with self.assertRaises(WindowsAzureError):
            sbs = ServiceBusService()

        # Assert

    def test_create_service_bus_env_variables(self):
        # Arrange
        os.environ[
            AZURE_SERVICEBUS_NAMESPACE] = credentials.getServiceBusNamespace()
        os.environ[
            AZURE_SERVICEBUS_ACCESS_KEY] = credentials.getServiceBusKey()
        os.environ[AZURE_SERVICEBUS_ISSUER] = 'owner'

        # Act
        sbs = ServiceBusService()

        if os.environ.has_key(AZURE_SERVICEBUS_NAMESPACE):
            del os.environ[AZURE_SERVICEBUS_NAMESPACE]
        if os.environ.has_key(AZURE_SERVICEBUS_ACCESS_KEY):
            del os.environ[AZURE_SERVICEBUS_ACCESS_KEY]
        if os.environ.has_key(AZURE_SERVICEBUS_ISSUER):
            del os.environ[AZURE_SERVICEBUS_ISSUER]

        # Assert
        self.assertIsNotNone(sbs)
        self.assertEquals(sbs.service_namespace,
                          credentials.getServiceBusNamespace())
        self.assertEquals(sbs.account_key, credentials.getServiceBusKey())
        self.assertEquals(sbs.issuer, 'owner')

    #--Test cases for queues --------------------------------------------------
    def test_create_queue_no_options(self):
        # Arrange

        # Act
        created = self.sbs.create_queue(self.queue_name)

        # Assert
        self.assertTrue(created)

    def test_create_queue_no_options_fail_on_exist(self):
        # Arrange

        # Act
        created = self.sbs.create_queue(self.queue_name, None, True)

        # Assert
        self.assertTrue(created)

    def test_create_queue_with_options(self):
        # Arrange

        # Act
        queue_options = Queue()
        queue_options.default_message_time_to_live = 'PT1M'
        queue_options.duplicate_detection_history_time_window = 'PT5M'
        queue_options.enable_batched_operations = False
        queue_options.dead_lettering_on_message_expiration = False
        queue_options.lock_duration = 'PT1M'
        queue_options.max_delivery_count = 15
        queue_options.max_size_in_megabytes = 5120
        queue_options.message_count = 0
        queue_options.requires_duplicate_detection = False
        queue_options.requires_session = False
        queue_options.size_in_bytes = 0
        created = self.sbs.create_queue(self.queue_name, queue_options)

        # Assert
        self.assertTrue(created)
        queue = self.sbs.get_queue(self.queue_name)
        self.assertEquals('PT1M', queue.default_message_time_to_live)
        self.assertEquals(
            'PT5M', queue.duplicate_detection_history_time_window)
        self.assertEquals(False, queue.enable_batched_operations)
        self.assertEquals(False, queue.dead_lettering_on_message_expiration)
        self.assertEquals('PT1M', queue.lock_duration)
        self.assertEquals(15, queue.max_delivery_count)
        self.assertEquals(5120, queue.max_size_in_megabytes)
        self.assertEquals(0, queue.message_count)
        self.assertEquals(False, queue.requires_duplicate_detection)
        self.assertEquals(False, queue.requires_session)
        self.assertEquals(0, queue.size_in_bytes)

    def test_create_queue_with_already_existing_queue(self):
        # Arrange

        # Act
        created1 = self.sbs.create_queue(self.queue_name)
        created2 = self.sbs.create_queue(self.queue_name)

        # Assert
        self.assertTrue(created1)
        self.assertFalse(created2)

    def test_create_queue_with_already_existing_queue_fail_on_exist(self):
        # Arrange

        # Act
        created = self.sbs.create_queue(self.queue_name)
        with self.assertRaises(WindowsAzureError):
            self.sbs.create_queue(self.queue_name, None, True)

        # Assert
        self.assertTrue(created)

    def test_get_queue_with_existing_queue(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        queue = self.sbs.get_queue(self.queue_name)

        # Assert
        self.assertIsNotNone(queue)
        self.assertEquals(queue.name, self.queue_name)

    def test_get_queue_with_non_existing_queue(self):
        # Arrange

        # Act
        with self.assertRaises(WindowsAzureError):
            resp = self.sbs.get_queue(self.queue_name)

        # Assert

    def test_list_queues(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        queues = self.sbs.list_queues()
        for queue in queues:
            name = queue.name

        # Assert
        self.assertIsNotNone(queues)
        self.assertNamedItemInContainer(queues, self.queue_name)

    def test_list_queues_with_special_chars(self):
        # Arrange
        # Name must start and end with an alphanumeric and can only contain
        # letters, numbers, periods, hyphens, forward slashes and underscores.
        other_queue_name = self.queue_name + 'foo/.-_123'
        self.additional_queue_names = [other_queue_name]
        self._create_queue(other_queue_name)

        # Act
        queues = self.sbs.list_queues()

        # Assert
        self.assertIsNotNone(queues)
        self.assertNamedItemInContainer(queues, other_queue_name)

    def test_delete_queue_with_existing_queue(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        deleted = self.sbs.delete_queue(self.queue_name)

        # Assert
        self.assertTrue(deleted)
        queues = self.sbs.list_queues()
        self.assertNamedItemNotInContainer(queues, self.queue_name)

    def test_delete_queue_with_existing_queue_fail_not_exist(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        deleted = self.sbs.delete_queue(self.queue_name, True)

        # Assert
        self.assertTrue(deleted)
        queues = self.sbs.list_queues()
        self.assertNamedItemNotInContainer(queues, self.queue_name)

    def test_delete_queue_with_non_existing_queue(self):
        # Arrange

        # Act
        deleted = self.sbs.delete_queue(self.queue_name)

        # Assert
        self.assertFalse(deleted)

    def test_delete_queue_with_non_existing_queue_fail_not_exist(self):
        # Arrange

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.delete_queue(self.queue_name, True)

        # Assert

    def test_send_queue_message(self):
        # Arrange
        self._create_queue(self.queue_name)
        sent_msg = Message('send message')

        # Act
        self.sbs.send_queue_message(self.queue_name, sent_msg)

        # Assert

    def test_receive_queue_message_read_delete_mode(self):
        # Assert
        sent_msg = Message('receive message')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_queue_message_read_delete_mode_throws_on_delete(self):
        # Assert
        sent_msg = Message('receive message')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, False)
        with self.assertRaises(WindowsAzureError):
            received_msg.delete()

        # Assert

    def test_receive_queue_message_read_delete_mode_throws_on_unlock(self):
        # Assert
        sent_msg = Message('receive message')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, False)
        with self.assertRaises(WindowsAzureError):
            received_msg.unlock()

        # Assert

    def test_receive_queue_message_peek_lock_mode(self):
        # Arrange
        sent_msg = Message('peek lock message')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, True)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_queue_message_delete(self):
        # Arrange
        sent_msg = Message('peek lock message delete')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, True)
        received_msg.delete()

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_queue_message_unlock(self):
        # Arrange
        sent_msg = Message('peek lock message unlock')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, True)
        received_msg.unlock()

        # Assert
        received_again_msg = self.sbs.receive_queue_message(
            self.queue_name, True)
        received_again_msg.delete()
        self.assertIsNotNone(received_msg)
        self.assertIsNotNone(received_again_msg)
        self.assertEquals(sent_msg.body, received_msg.body)
        self.assertEquals(received_again_msg.body, received_msg.body)

    def test_send_queue_message_with_custom_message_type(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        sent_msg = Message(
            '<text>peek lock message custom message type</text>', type='text/xml')
        self.sbs.send_queue_message(self.queue_name, sent_msg)
        received_msg = self.sbs.receive_queue_message(self.queue_name, True, 5)
        received_msg.delete()

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals('text/xml', received_msg.type)

    def test_send_queue_message_with_custom_message_properties(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        props = {'hello': 'world',
                 'foo': 42,
                 'active': True,
                 'deceased': False,
                 'large': 8555111000,
                 'floating': 3.14,
                 'dob': datetime(2011, 12, 14)}
        sent_msg = Message('message with properties', custom_properties=props)
        self.sbs.send_queue_message(self.queue_name, sent_msg)
        received_msg = self.sbs.receive_queue_message(self.queue_name, True, 5)
        received_msg.delete()

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(received_msg.custom_properties['hello'], 'world')
        self.assertEquals(received_msg.custom_properties['foo'], 42)
        self.assertEquals(received_msg.custom_properties['active'], True)
        self.assertEquals(received_msg.custom_properties['deceased'], False)
        self.assertEquals(received_msg.custom_properties['large'], 8555111000)
        self.assertEquals(received_msg.custom_properties['floating'], 3.14)
        self.assertEquals(
            received_msg.custom_properties['dob'], datetime(2011, 12, 14))

    def test_receive_queue_message_timeout_5(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        start = time.clock()
        received_msg = self.sbs.receive_queue_message(self.queue_name, True, 5)
        duration = time.clock() - start

        # Assert
        self.assertTrue(duration > 3 and duration < 7)
        self.assertIsNotNone(received_msg)
        self.assertIsNone(received_msg.body)

    def test_receive_queue_message_timeout_50(self):
        # Arrange
        self._create_queue(self.queue_name)

        # Act
        start = time.clock()
        received_msg = self.sbs.receive_queue_message(
            self.queue_name, True, 50)
        duration = time.clock() - start

        # Assert
        self.assertTrue(duration > 48 and duration < 52)
        self.assertIsNotNone(received_msg)
        self.assertIsNone(received_msg.body)

    #--Test cases for topics/subscriptions ------------------------------------
    def test_create_topic_no_options(self):
        # Arrange

        # Act
        created = self.sbs.create_topic(self.topic_name)

        # Assert
        self.assertTrue(created)

    def test_create_topic_no_options_fail_on_exist(self):
        # Arrange

        # Act
        created = self.sbs.create_topic(self.topic_name, None, True)

        # Assert
        self.assertTrue(created)

    def test_create_topic_with_options(self):
        # Arrange

        # Act
        topic_options = Topic()
        topic_options.default_message_time_to_live = 'PT1M'
        topic_options.duplicate_detection_history_time_window = 'PT5M'
        topic_options.enable_batched_operations = False
        topic_options.max_size_in_megabytes = 5120
        topic_options.requires_duplicate_detection = False
        topic_options.size_in_bytes = 0
        # TODO: MaximumNumberOfSubscriptions is not supported?
        created = self.sbs.create_topic(self.topic_name, topic_options)

        # Assert
        self.assertTrue(created)
        topic = self.sbs.get_topic(self.topic_name)
        self.assertEquals('PT1M', topic.default_message_time_to_live)
        self.assertEquals(
            'PT5M', topic.duplicate_detection_history_time_window)
        self.assertEquals(False, topic.enable_batched_operations)
        self.assertEquals(5120, topic.max_size_in_megabytes)
        self.assertEquals(False, topic.requires_duplicate_detection)
        self.assertEquals(0, topic.size_in_bytes)

    def test_create_topic_with_already_existing_topic(self):
        # Arrange

        # Act
        created1 = self.sbs.create_topic(self.topic_name)
        created2 = self.sbs.create_topic(self.topic_name)

        # Assert
        self.assertTrue(created1)
        self.assertFalse(created2)

    def test_create_topic_with_already_existing_topic_fail_on_exist(self):
        # Arrange

        # Act
        created = self.sbs.create_topic(self.topic_name)
        with self.assertRaises(WindowsAzureError):
            self.sbs.create_topic(self.topic_name, None, True)

        # Assert
        self.assertTrue(created)

    def test_topic_backwards_compatibility_warning(self):
        # Arrange
        topic_options = Topic()
        topic_options.max_size_in_megabytes = 5120

        # Act
        val = topic_options.max_size_in_mega_bytes

        # Assert
        self.assertEqual(val, 5120)

        # Act
        topic_options.max_size_in_mega_bytes = 1024

        # Assert
        self.assertEqual(topic_options.max_size_in_megabytes, 1024)

    def test_get_topic_with_existing_topic(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        topic = self.sbs.get_topic(self.topic_name)

        # Assert
        self.assertIsNotNone(topic)
        self.assertEquals(topic.name, self.topic_name)

    def test_get_topic_with_non_existing_topic(self):
        # Arrange

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.get_topic(self.topic_name)

        # Assert

    def test_list_topics(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        topics = self.sbs.list_topics()
        for topic in topics:
            name = topic.name

        # Assert
        self.assertIsNotNone(topics)
        self.assertNamedItemInContainer(topics, self.topic_name)

    def test_list_topics_with_special_chars(self):
        # Arrange
        # Name must start and end with an alphanumeric and can only contain
        # letters, numbers, periods, hyphens, forward slashes and underscores.
        other_topic_name = self.topic_name + 'foo/.-_123'
        self.additional_topic_names = [other_topic_name]
        self._create_topic(other_topic_name)

        # Act
        topics = self.sbs.list_topics()

        # Assert
        self.assertIsNotNone(topics)
        self.assertNamedItemInContainer(topics, other_topic_name)

    def test_delete_topic_with_existing_topic(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        deleted = self.sbs.delete_topic(self.topic_name)

        # Assert
        self.assertTrue(deleted)
        topics = self.sbs.list_topics()
        self.assertNamedItemNotInContainer(topics, self.topic_name)

    def test_delete_topic_with_existing_topic_fail_not_exist(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        deleted = self.sbs.delete_topic(self.topic_name, True)

        # Assert
        self.assertTrue(deleted)
        topics = self.sbs.list_topics()
        self.assertNamedItemNotInContainer(topics, self.topic_name)

    def test_delete_topic_with_non_existing_topic(self):
        # Arrange

        # Act
        deleted = self.sbs.delete_topic(self.topic_name)

        # Assert
        self.assertFalse(deleted)

    def test_delete_topic_with_non_existing_topic_fail_not_exist(self):
        # Arrange

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.delete_topic(self.topic_name, True)

        # Assert

    def test_create_subscription(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        created = self.sbs.create_subscription(
            self.topic_name, 'MySubscription')

        # Assert
        self.assertTrue(created)

    def test_create_subscription_with_options(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        subscription_options = Subscription()
        subscription_options.dead_lettering_on_filter_evaluation_exceptions = False
        subscription_options.dead_lettering_on_message_expiration = False
        subscription_options.default_message_time_to_live = 'PT15M'
        subscription_options.enable_batched_operations = False
        subscription_options.lock_duration = 'PT1M'
        subscription_options.max_delivery_count = 15
        #message_count is read-only
        subscription_options.message_count = 0
        subscription_options.requires_session = False
        created = self.sbs.create_subscription(
            self.topic_name, 'MySubscription', subscription_options)

        # Assert
        self.assertTrue(created)
        subscription = self.sbs.get_subscription(
            self.topic_name, 'MySubscription')
        self.assertEquals(
            False, subscription.dead_lettering_on_filter_evaluation_exceptions)
        self.assertEquals(
            False, subscription.dead_lettering_on_message_expiration)
        self.assertEquals('PT15M', subscription.default_message_time_to_live)
        self.assertEquals(False, subscription.enable_batched_operations)
        self.assertEquals('PT1M', subscription.lock_duration)
        # self.assertEquals(15, subscription.max_delivery_count) #no idea why
        # max_delivery_count is always 10
        self.assertEquals(0, subscription.message_count)
        self.assertEquals(False, subscription.requires_session)

    def test_create_subscription_fail_on_exist(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        created = self.sbs.create_subscription(
            self.topic_name, 'MySubscription', None, True)

        # Assert
        self.assertTrue(created)

    def test_create_subscription_with_already_existing_subscription(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        created1 = self.sbs.create_subscription(
            self.topic_name, 'MySubscription')
        created2 = self.sbs.create_subscription(
            self.topic_name, 'MySubscription')

        # Assert
        self.assertTrue(created1)
        self.assertFalse(created2)

    def test_create_subscription_with_already_existing_subscription_fail_on_exist(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        created = self.sbs.create_subscription(
            self.topic_name, 'MySubscription')
        with self.assertRaises(WindowsAzureError):
            self.sbs.create_subscription(
                self.topic_name, 'MySubscription', None, True)

        # Assert
        self.assertTrue(created)

    def test_list_subscriptions(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription2')

        # Act
        subscriptions = self.sbs.list_subscriptions(self.topic_name)

        # Assert
        self.assertIsNotNone(subscriptions)
        self.assertEquals(len(subscriptions), 1)
        self.assertEquals(subscriptions[0].name, 'MySubscription2')

    def test_get_subscription_with_existing_subscription(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription3')

        # Act
        subscription = self.sbs.get_subscription(
            self.topic_name, 'MySubscription3')

        # Assert
        self.assertIsNotNone(subscription)
        self.assertEquals(subscription.name, 'MySubscription3')

    def test_get_subscription_with_non_existing_subscription(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription3')

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.get_subscription(self.topic_name, 'MySubscription4')

        # Assert

    def test_delete_subscription_with_existing_subscription(self):
        # Arrange
        self._create_topic(self.topic_name)
        self._create_subscription(self.topic_name, 'MySubscription4')
        self._create_subscription(self.topic_name, 'MySubscription5')

        # Act
        deleted = self.sbs.delete_subscription(
            self.topic_name, 'MySubscription4')

        # Assert
        self.assertTrue(deleted)
        subscriptions = self.sbs.list_subscriptions(self.topic_name)
        self.assertIsNotNone(subscriptions)
        self.assertEquals(len(subscriptions), 1)
        self.assertEquals(subscriptions[0].name, 'MySubscription5')

    def test_delete_subscription_with_existing_subscription_fail_not_exist(self):
        # Arrange
        self._create_topic(self.topic_name)
        self._create_subscription(self.topic_name, 'MySubscription4')
        self._create_subscription(self.topic_name, 'MySubscription5')

        # Act
        deleted = self.sbs.delete_subscription(
            self.topic_name, 'MySubscription4', True)

        # Assert
        self.assertTrue(deleted)
        subscriptions = self.sbs.list_subscriptions(self.topic_name)
        self.assertIsNotNone(subscriptions)
        self.assertEquals(len(subscriptions), 1)
        self.assertEquals(subscriptions[0].name, 'MySubscription5')

    def test_delete_subscription_with_non_existing_subscription(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        deleted = self.sbs.delete_subscription(
            self.topic_name, 'MySubscription')

        # Assert
        self.assertFalse(deleted)

    def test_delete_subscription_with_non_existing_subscription_fail_not_exist(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.delete_subscription(
                self.topic_name, 'MySubscription', True)

        # Assert

    def test_create_rule_no_options(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1')

        # Assert
        self.assertTrue(created)

    def test_create_rule_no_options_fail_on_exist(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', None, True)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_already_existing_rule(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        created1 = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1')
        created2 = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1')

        # Assert
        self.assertTrue(created1)
        self.assertFalse(created2)

    def test_create_rule_with_already_existing_rule_fail_on_exist(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1')
        with self.assertRaises(WindowsAzureError):
            self.sbs.create_rule(
                self.topic_name, 'MySubscription', 'MyRule1', None, True)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_sql_filter(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.filter_type = 'SqlFilter'
        rule1.filter_expression = 'foo > 40'
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_true_filter(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.filter_type = 'TrueFilter'
        rule1.filter_expression = '1=1'
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_false_filter(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.filter_type = 'FalseFilter'
        rule1.filter_expression = '1=0'
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_correlation_filter(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.filter_type = 'CorrelationFilter'
        rule1.filter_expression = 'myid'
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_empty_rule_action(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.action_type = 'EmptyRuleAction'
        rule1.action_expression = ''
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_create_rule_with_options_sql_rule_action(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule1 = Rule()
        rule1.action_type = 'SqlRuleAction'
        rule1.action_expression = "SET foo = 5"
        created = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', rule1)

        # Assert
        self.assertTrue(created)

    def test_list_rules(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        resp = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule2')

        # Act
        rules = self.sbs.list_rules(self.topic_name, 'MySubscription')

        # Assert
        self.assertEquals(len(rules), 2)

    def test_get_rule_with_existing_rule(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        rule = self.sbs.get_rule(self.topic_name, 'MySubscription', '$Default')

        # Assert
        self.assertIsNotNone(rule)
        self.assertEquals(rule.name, '$Default')

    def test_get_rule_with_non_existing_rule(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.get_rule(self.topic_name,
                              'MySubscription', 'NonExistingRule')

        # Assert

    def test_get_rule_with_existing_rule_with_options(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_rule = Rule()
        sent_rule.filter_type = 'SqlFilter'
        sent_rule.filter_expression = 'foo > 40'
        sent_rule.action_type = 'SqlRuleAction'
        sent_rule.action_expression = 'SET foo = 5'
        self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule1', sent_rule)

        # Act
        received_rule = self.sbs.get_rule(
            self.topic_name, 'MySubscription', 'MyRule1')

        # Assert
        self.assertIsNotNone(received_rule)
        self.assertEquals(received_rule.name, 'MyRule1')
        self.assertEquals(received_rule.filter_type, sent_rule.filter_type)
        self.assertEquals(received_rule.filter_expression,
                          sent_rule.filter_expression)
        self.assertEquals(received_rule.action_type, sent_rule.action_type)
        self.assertEquals(received_rule.action_expression,
                          sent_rule.action_expression)

    def test_delete_rule_with_existing_rule(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        resp = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule3')
        resp = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule4')

        # Act
        deleted1 = self.sbs.delete_rule(
            self.topic_name, 'MySubscription', 'MyRule4')
        deleted2 = self.sbs.delete_rule(
            self.topic_name, 'MySubscription', '$Default')

        # Assert
        self.assertTrue(deleted1)
        self.assertTrue(deleted2)
        rules = self.sbs.list_rules(self.topic_name, 'MySubscription')
        self.assertIsNotNone(rules)
        self.assertEquals(len(rules), 1)
        self.assertEquals(rules[0].name, 'MyRule3')

    def test_delete_rule_with_existing_rule_fail_not_exist(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        resp = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule3')
        resp = self.sbs.create_rule(
            self.topic_name, 'MySubscription', 'MyRule4')

        # Act
        deleted1 = self.sbs.delete_rule(
            self.topic_name, 'MySubscription', 'MyRule4', True)
        deleted2 = self.sbs.delete_rule(
            self.topic_name, 'MySubscription', '$Default', True)

        # Assert
        self.assertTrue(deleted1)
        self.assertTrue(deleted2)
        rules = self.sbs.list_rules(self.topic_name, 'MySubscription')
        self.assertIsNotNone(rules)
        self.assertEquals(len(rules), 1)
        self.assertEquals(rules[0].name, 'MyRule3')

    def test_delete_rule_with_non_existing_rule(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        deleted = self.sbs.delete_rule(
            self.topic_name, 'MySubscription', 'NonExistingRule')

        # Assert
        self.assertFalse(deleted)

    def test_delete_rule_with_non_existing_rule_fail_not_exist(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        with self.assertRaises(WindowsAzureError):
            self.sbs.delete_rule(
                self.topic_name, 'MySubscription', 'NonExistingRule', True)

        # Assert

    def test_send_topic_message(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')

        # Act
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Assert

    def test_receive_subscription_message_read_delete_mode(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_subscription_message_read_delete_mode_throws_on_delete(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', False)
        with self.assertRaises(WindowsAzureError):
            received_msg.delete()

        # Assert

    def test_receive_subscription_message_read_delete_mode_throws_on_unlock(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', False)
        with self.assertRaises(WindowsAzureError):
            received_msg.unlock()

        # Assert

    def test_receive_subscription_message_peek_lock_mode(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', True, 5)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_subscription_message_delete(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', True, 5)
        received_msg.delete()

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_receive_subscription_message_unlock(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', True)
        received_msg.unlock()

        # Assert
        received_again_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', True)
        received_again_msg.delete()
        self.assertIsNotNone(received_msg)
        self.assertIsNotNone(received_again_msg)
        self.assertEquals(sent_msg.body, received_msg.body)
        self.assertEquals(received_again_msg.body, received_msg.body)

    def test_with_filter(self):
         # Single filter
        called = []

        def my_filter(request, next):
            called.append(True)
            return next(request)

        sbs = self.sbs.with_filter(my_filter)
        sbs.create_topic(self.topic_name + '0', None, True)

        self.assertTrue(called)

        del called[:]

        sbs.delete_topic(self.topic_name + '0')

        self.assertTrue(called)
        del called[:]

        # Chained filters
        def filter_a(request, next):
            called.append('a')
            return next(request)

        def filter_b(request, next):
            called.append('b')
            return next(request)

        sbs = self.sbs.with_filter(filter_a).with_filter(filter_b)
        sbs.create_topic(self.topic_name + '0', None, True)

        self.assertEqual(called, ['b', 'a'])

        sbs.delete_topic(self.topic_name + '0')

        self.assertEqual(called, ['b', 'a', 'b', 'a'])

    def test_two_identities(self):
        # In order to run this test, 2 service bus service identities are created using
        # the sbaztool available at:
        # http://code.msdn.microsoft.com/windowsazure/Authorization-SBAzTool-6fd76d93
        #
        # Use the following commands to create 2 identities and grant access rights.
        # Replace <servicebusnamespace> with the namespace specified in the test .json file
        # Replace <servicebuskey> with the key specified in the test .json file
        # This only needs to be executed once, after the service bus namespace is created.
        #
        # sbaztool makeid user1 NoHEoD6snlvlhZm7yek9Etxca3l0CYjfc19ICIJZoUg= -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Send /path1 user1 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Listen /path1 user1 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Manage /path1 user1 -n <servicebusnamespace> -k
        # <servicebuskey>

        # sbaztool makeid user2 Tb6K5qEgstyRBwp86JEjUezKj/a+fnkLFnibfgvxvdg= -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Send /path2 user2 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Listen /path2 user2 -n <servicebusnamespace> -k <servicebuskey>
        # sbaztool grant Manage /path2 user2 -n <servicebusnamespace> -k
        # <servicebuskey>

        sbs1 = ServiceBusService(credentials.getServiceBusNamespace(),
                                 'NoHEoD6snlvlhZm7yek9Etxca3l0CYjfc19ICIJZoUg=',
                                 'user1')
        sbs2 = ServiceBusService(credentials.getServiceBusNamespace(),
                                 'Tb6K5qEgstyRBwp86JEjUezKj/a+fnkLFnibfgvxvdg=',
                                 'user2')

        queue1_name = 'path1/queue' + str(random.randint(1, 10000000))
        queue2_name = 'path2/queue' + str(random.randint(1, 10000000))

        try:
            # Create queues, success
            sbs1.create_queue(queue1_name)
            sbs2.create_queue(queue2_name)

            # Receive messages, success
            msg = sbs1.receive_queue_message(queue1_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs1.receive_queue_message(queue1_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs2.receive_queue_message(queue2_name, True, 1)
            self.assertIsNone(msg.body)
            msg = sbs2.receive_queue_message(queue2_name, True, 1)
            self.assertIsNone(msg.body)

            # Receive messages, failure
            with self.assertRaises(HTTPError):
                msg = sbs1.receive_queue_message(queue2_name, True, 1)
            with self.assertRaises(HTTPError):
                msg = sbs2.receive_queue_message(queue1_name, True, 1)
        finally:
            try:
                sbs1.delete_queue(queue1_name)
            except:
                pass
            try:
                sbs2.delete_queue(queue2_name)
            except:
                pass

    def test_unicode_create_queue_unicode_name(self):
        # Arrange
        self.queue_name = self.queue_name + u'啊齄丂狛狜'

        # Act
        with self.assertRaises(WindowsAzureError):
            created = self.sbs.create_queue(self.queue_name)

        # Assert

    def test_unicode_receive_queue_message_unicode_data(self):
        # Assert
        sent_msg = Message('receive message啊齄丂狛狜')
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_unicode_receive_queue_message_binary_data(self):
        # Assert
        base64_data = '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'
        binary_data = base64.b64decode(base64_data)
        sent_msg = Message(binary_data)
        self._create_queue_and_send_msg(self.queue_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_queue_message(self.queue_name, False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_unicode_create_subscription_unicode_name(self):
        # Arrange
        self._create_topic(self.topic_name)

        # Act
        with self.assertRaises(WindowsAzureError):
            created = self.sbs.create_subscription(
                self.topic_name, u'MySubscription啊齄丂狛狜')

        # Assert

    def test_unicode_create_rule_unicode_name(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')

        # Act
        with self.assertRaises(WindowsAzureError):
            created = self.sbs.create_rule(
                self.topic_name, 'MySubscription', 'MyRule啊齄丂狛狜')

        # Assert

    def test_unicode_receive_subscription_message_unicode_data(self):
        # Arrange
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message('subscription message啊齄丂狛狜')
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)

    def test_unicode_receive_subscription_message_binary_data(self):
        # Arrange
        base64_data = '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'
        binary_data = base64.b64decode(base64_data)
        self._create_topic_and_subscription(self.topic_name, 'MySubscription')
        sent_msg = Message(binary_data)
        self.sbs.send_topic_message(self.topic_name, sent_msg)

        # Act
        received_msg = self.sbs.receive_subscription_message(
            self.topic_name, 'MySubscription', False)

        # Assert
        self.assertIsNotNone(received_msg)
        self.assertEquals(sent_msg.body, received_msg.body)
Esempio n. 22
0
block_blob_service.set_container_acl(container_name,
                                     public_access=PublicAccess.Container)
local_path = os.path.expanduser(r"C:\demo")
full_path_to_file = os.path.join(local_path, video_name)
block_blob_service.create_blob_from_path(container_name, video_name,
                                         full_path_to_file)

# In[ ]:

#message to service bus
from azure.servicebus import ServiceBusService, Message, Queue
bus_service = ServiceBusService(
    service_namespace='SVDServiceBus',
    shared_access_key_name='RootManageSharedAccessKey',
    shared_access_key_value='g********************p9+12EQu+*************=')
bus_service.create_queue('resultqueue')
msg = Message(video_name)
bus_service.send_queue_message('resultqueue', msg)

# In[ ]:

import os
import subprocess
os.remove(video_name)
#Close all running task
subprocess.call('taskkill.bat')

#Logout
import os
os.system("shutdown -l")