Esempio n. 1
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def predict_vm_all(ecs_lines, test_lines, input_lines):
    # Do your work from here#
    # training data processing
    result = []
    if ecs_lines is None:
        print('ecs information is none')
        return result
    if input_lines is None:
        print('input file information is none')
        return result
    data = data_processing.train_data_process(ecs_lines)
    test = data_processing.train_data_process(test_lines)
    target, memory, cpu, flavor_list, start_time, end_time = data_processing.read_input_file(input_lines)
    # data = localmidian.data_clean(data, flavor_list)
    data = localmidian.mix_clean(data, flavor_list)
    # 指数平滑的方法
    last_time = data[len(data) - 1][0]
    data = data_processing.data_sum(data, flavor_list)
    test = data_processing.test_sum(test,data,flavor_list)
    # numbers = exponential_smoothing.predict_draw(data,test,last_time, start_time, end_time)
    # numbers = exponential_smoothing.predict(data, last_time, start_time, end_time)
    numbers = exponential_smoothing.predict_all(data, last_time, start_time, end_time)
    predict_list=[]
    for i in range(len(numbers)):
        flavor = flavor_list[i]
        for k in range(len(numbers[i])):
            f = Flavor(flavor.name+'_'+str(k), flavor.cpu, flavor.memory)
            f.predict_num = numbers[i][k]
            predict_list.append(f)
    # 线性归回的方法
    # thetas, remains = wlr.weight_linear_regression(data, flavor_list)
    # numbers = wlr.predic(thetas, remains, data[len(data) - 1][0], start_time, end_time)

    # 神经网络的方法
    # numbers = neural_network.predict(data, flavor_list, 5, start_time, end_time)

    machine_list = mffd(target, predict_list, memory, cpu)

    sum_vm = 0
    flavor_list.sort(key=lambda Flavor: Flavor.name)
    for index in range(len(predict_list)):
        result.append(predict_list[index].name + ' ' + str(predict_list[index].predict_num))
        sum_vm = sum_vm + predict_list[index].predict_num
    result.insert(0, sum_vm)

    result = write_result(machine_list, result)
    return result
Esempio n. 2
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class StackData:
    def __init__(self):
        self.hwData = Hardware()
        self.flData = Flavor()
        self.imgData = Image()

    def config(self, configuration, fileName):
        if (configuration == "hardware"):
            self.hwData.config(fileName)
        elif (configuration == "flavor"):
            self.flData.config(fileName)
        elif (configuration == "image"):
            self.imgData.config(fileName)

    def show(self, configuration):
        if (configuration == "hardware"):
            self.hwData.show()
        elif (configuration == "flavor"):
            self.flData.show()
        elif (configuration == "images"):
            self.imgData.show()

    def showAll(self):
        if self.hwData.getHardwareDataSize() != 0:
            self.hwData.show()
        else:
            print('\n No hardware data found\n')
        if self.flData.getFlavorsDataSize() != 0:
            self.flData.show()
        else:
            print('\n No flavors data found\n')
        if self.imgData.getImageDataSize() != 0:
            self.imgData.show()
        else:
            print('\n No images data found\n')
        logging.info('SUCCESS')

    def adminShowAvailableHardware(self):
        self.hwData.showAvailableHardware()

    def canHost(self, hardwareName, flavorName):
        hardware = self.hwData.getHardwareInfo(hardwareName)
        flavor = self.flData.getFlavorInfo(flavorName)
        if hardware == None or flavor == None:
            print("\n Please verify hardware name and flavor name")
            logging.error('FAILURE')
            return False
        if hardware.mem >= flavor.mem and hardware.numDisks >= flavor.numDisks and hardware.numVCpus >= flavor.numVCpus:
            return True
        else:
            return False
Esempio n. 3
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def predict_vm(ecsContent, inputContent):
    # Do your work from here#
    result = []
    if ecsContent is None:
        print 'ecs information is none'
        return result
    if inputContent is None:
        print 'input file information is none'
        return result
    flavorList = Flavor()
    input = Common.parseInput(inputContent, flavorList)

    return result
def read_input_file(input_lines):
    i = 0
    flavor_list = []
    cpu = int(input_lines[i].split()[0])
    memory = int(input_lines[i].split(' ')[1]) * 1024
    # print 'cpu: ', cpu, ' memory: ', memory
    i = i + 2
    flavor_num = int(input_lines[i].split(' ')[0])
    i = i + 1
    for index in range(i, i + flavor_num):
        line = input_lines[index].split()
        # print line
        flavor_list.append(Flavor(line[0], line[1], line[2]))
    i = i + flavor_num + 1
    target = input_lines[i].split()[0]
    # print 'target: ', target
    i = i + 2
    start_time = input_lines[i].split(' ')[0].strip()
    end_time = input_lines[i + 1].split(' ')[0].strip()
    return target, memory, cpu, flavor_list, start_time, end_time
Esempio n. 5
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    def getServer(self):
        server = None

        if self.instance:
            instance_data = self.instance["nova_object.data"]
            flavor_data = instance_data["flavor"]["nova_object.data"]

            flavor = Flavor()
            flavor.setId(flavor_data["flavorid"])
            flavor.setName(flavor_data["name"])
            flavor.setMemory(flavor_data["memory_mb"])
            flavor.setVCPUs(flavor_data["vcpus"])
            flavor.setStorage(flavor_data["root_gb"])

            server = Server()
            server.setFlavor(flavor)
            server.setId(instance_data["uuid"])
            server.setUserId(instance_data["user_id"])
            server.setProjectId(instance_data["project_id"])
            server.setCreatedAt(instance_data["created_at"])
            server.setMetadata(instance_data["metadata"])
            server.setKeyName(instance_data["key_name"])

            if "user_data" in instance_data:
                user_data = instance_data["user_data"]
                if user_data:
                    server.setUserData(utils.decodeBase64(user_data))

        return server
    def fromDict(cls, request_dict):
        request = Request()
        request.data = request_dict["data"]
        request.action = request_dict["action"]
        request.context = request_dict["context"]

        if "instances" in request.data:
            instance = request.data["instances"][0]
        else:
            build_request = request.data["build_requests"][0]
            instance = build_request["nova_object.data"]["instance"]

        instance_data = instance["nova_object.data"]

        request.id = instance_data["uuid"]
        request.user_id = instance_data["user_id"]
        request.project_id = instance_data["project_id"]

        created_at = instance_data["created_at"]
        request.created_at = datetime.strptime(created_at,
                                               "%Y-%m-%dT%H:%M:%SZ")

        flavor_data = instance_data["flavor"]["nova_object.data"]
        flavor = Flavor()
        flavor.setId(flavor_data["flavorid"])
        flavor.setName(flavor_data["name"])
        flavor.setMemory(flavor_data["memory_mb"])
        flavor.setVCPUs(flavor_data["vcpus"])
        flavor.setStorage(flavor_data["root_gb"])

        server = Server()
        server.setFlavor(flavor)
        server.setId(instance_data["uuid"])
        server.setUserId(instance_data["user_id"])
        server.setProjectId(instance_data["project_id"])
        server.setCreatedAt(instance_data["created_at"])
        server.setMetadata(instance_data["metadata"])
        server.setUserData(instance_data["user_data"])
        server.setKeyName(instance_data["key_name"])
        server.setType()

        request.server = server

        if "filter_properties" in request.data:
            filter_properties = request.data["filter_properties"]
            request.retry = filter_properties.get("retry", {})
        else:
            request_spec = request.data["request_specs"][0]
            nova_object = request_spec["nova_object.data"]
            request.retry = nova_object.get("retry", {})

        if not request.retry:
            request.retry = {}

        return request
Esempio n. 7
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def handle_config(cmd_parts):
    global hardware, hardware_configs
    global images, image_configs
    global flavors, flavor_configs
    global curr_command
    if (len(cmd_parts) != 4):
        sys.stderr.write("ERROR: Invalid command." + "\n")
        logger.info(curr_command + ": Failure")
        return

    if (cmd_parts[2] == "--hardware"):
        file = cmd_parts[3]
        my_file = "../p0_config/" + file

        if (os.path.exists(my_file)):

            hardware = True

            with open(my_file) as f:
                lines = f.readlines()

            num_configs = int(lines[0])

            for x in range(1, num_configs + 1):
                cfg = lines[x].split(" ")
                h = Hardware(cfg[0], cfg[1], cfg[2], cfg[3], cfg[4])
                hardware_configs[cfg[0]] = h

            sys.stdout.write(
                str(len(hardware_configs)) +
                ' physical servers now available.' + "\n")
            logger.info(curr_command + ": Success")

        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    elif (cmd_parts[2] == "--images"):
        file = cmd_parts[3]
        my_file = "../p0_config/" + file

        if (os.path.exists(my_file)):

            images = True

            with open(my_file) as f:
                lines = f.readlines()

            num_configs = int(lines[0])

            for x in range(1, num_configs + 1):
                cfg = lines[x].split(" ")
                img = Image(cfg[0], cfg[1])
                image_configs[cfg[0]] = img

            sys.stdout.write(
                str(len(image_configs)) + ' images now available.' + "\n")
            logger.info(curr_command + ": Success")

        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    elif (cmd_parts[2] == "--flavors"):
        file = cmd_parts[3]
        my_file = "../p0_config/" + file

        if (os.path.exists(my_file)):

            flavors = True

            with open(my_file) as f:
                lines = f.readlines()

            num_configs = int(lines[0])

            for x in range(1, num_configs + 1):
                cfg = lines[x].split(' ')
                flv = Flavor(cfg[0], cfg[1], cfg[2], cfg[3])
                flavor_configs[cfg[0]] = flv

            sys.stdout.write(
                str(len(flavor_configs)) + ' VM flavors now available.' + "\n")
            logger.info(curr_command + ": Success")
        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    else:
        sys.stderr.write("ERROR: Invalid command." + "\n")
        logger.info(curr_command + ": Failure")
Esempio n. 8
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def handle_config(cmd_parts):
    global hardware, hardware_configs
    global images, image_configs
    global flavors, flavor_configs
    global curr_command, racks, instances, instance_on_server, server_instances, machines_on_racks
    global hardware_configs_fixed
    if (len(cmd_parts) != 4):
        sys.stderr.write("ERROR: Invalid command.")
        logger.info(curr_command + ": Failure")
        return

    if (cmd_parts[2] == "--hardware"):
        file = cmd_parts[3]
        my_file = "../p1_config/" + file

        if (os.path.exists(my_file)):

            if hardware:
                hardware_configs = {}
                racks = {}
                instances = {}
                instance_on_server = {}
                server_instances = {}
                machines_on_racks = {}
                racks = {}
                instances = {}
                instance_on_server = {}
                server_instances = {}
                machines_on_racks = {}
                hardware_configs_fixed = {}

            hardware = True

            with open(my_file) as f:
                lines = f.readlines()

            num_racks = int(lines[0])

            for x in range(1, num_racks + 1):
                rack = lines[x].split(" ")
                r = Rack(rack[0], rack[1])
                racks[rack[0]] = r

            num_configs = int(lines[num_racks + 1])

            for x in range(num_racks + 2, num_racks + num_configs + 2):
                cfg = lines[x].split(" ")
                h = NewHardware(cfg[0], cfg[1], cfg[2], cfg[3], cfg[4], cfg[5])
                hf = NewHardware(cfg[0], cfg[1], cfg[2], cfg[3], cfg[4],
                                 cfg[5])
                hardware_configs[cfg[0]] = h
                hardware_configs_fixed[cfg[0]] = hf

                if machines_on_racks.get(cfg[1]) == None:
                    machines_on_racks[cfg[1]] = []
                machines_on_racks[cfg[1]].append(cfg[0])

            sys.stdout.write(
                str(len(hardware_configs)) +
                ' physical servers now available.' + "\n")
            logger.info(curr_command + ": Success")

        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    elif (cmd_parts[2] == "--images"):
        file = cmd_parts[3]
        my_file = "../p1_config/" + file

        if (os.path.exists(my_file)):

            images = True

            with open(my_file) as f:
                lines = f.readlines()

            num_configs = int(lines[0])

            for x in range(1, num_configs + 1):
                cfg = lines[x].split(" ")
                img = NewImage(cfg[0], cfg[1], cfg[2])
                image_configs[cfg[0]] = img

            sys.stdout.write(
                str(len(image_configs)) + ' images now available.' + "\n")
            logger.info(curr_command + ": Success")

        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    elif (cmd_parts[2] == "--flavors"):
        file = cmd_parts[3]
        my_file = "../p1_config/" + file

        if (os.path.exists(my_file)):

            flavors = True

            with open(my_file) as f:
                lines = f.readlines()

            num_configs = int(lines[0])

            for x in range(1, num_configs + 1):
                cfg = lines[x].split(' ')
                flv = Flavor(cfg[0], cfg[1], cfg[2], cfg[3])
                flavor_configs[cfg[0]] = flv

            sys.stdout.write(
                str(len(flavor_configs)) + ' VM flavors now available.' + "\n")
            logger.info(curr_command + ": Success")
        else:
            sys.stderr.write("ERROR: File you specified does not exist." +
                             "\n")
            logger.info(curr_command + ": Failure")

    else:
        sys.stderr.write("ERROR: Invalid command." + "\n")
        logger.info(curr_command + ": Failure")
Esempio n. 9
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 def __init__(self,  OS_AUTH_URL, OS_PROJECT_NAME, OS_USERNAME, OS_PASSWORD):
     
     self.auth = Authenticate(OS_AUTH_URL, OS_PROJECT_NAME, OS_USERNAME, OS_PASSWORD)
     self.flavor = Flavor(self.auth.get_token_id(), self.auth.get_compute_admin_url())
     self.image = Image(self.auth.get_token_id(), self.auth.get_image_admin_url())
     self.heat = Heat(self.auth.get_token_id(), self.auth.get_orchestration_admin_url())
Esempio n. 10
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 def __init__(self):
     self.hwData = Hardware()
     self.flData = Flavor()
     self.imgData = Image()
Esempio n. 11
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class StackData:
    def __init__(self):
        self.hwData = Hardware()
        self.flData = Flavor()
        self.imgData = Image()
        self.serverData = Server()

    def config(self, configuration, fileName):
        if configuration == "hardware":
            self.hwData.config(fileName)
        elif configuration == "flavor":
            self.flData.config(fileName)
        elif configuration == "image":
            self.imgData.config(fileName)

    def show(self, configuration):
        if configuration == "hardware":
            self.hwData.show()
        elif configuration == "flavor":
            self.flData.show()
        elif configuration == "images":
            self.imgData.show()
        elif configuration == "server list":
            self.serverData.showServer()
        elif configuration == "server instance":
            self.serverData.showInstance()

    def showAll(self):
        if self.hwData.getHardwareDataSize() != 0:
            self.hwData.show()
        else:
            print('\n No hardware data found\n')
        if self.flData.getFlavorsDataSize() != 0:
            self.flData.show()
        else:
            print('\n No flavors data found\n')
        if self.imgData.getImageDataSize() != 0:
            self.imgData.show()
        else:
            print('\n No images data found\n')
        logging.info('SUCCESS')

    def deleteInstance(self, name):
        if name in self.serverData.serverDataDict:
            server = self.serverData.serverDataDict[name]
            flavor = self.flData.getFlavorInfo(server.flName)
            allocated = self.hwData.allocatedHardware[server.mcName]
            allocated.mem = allocated.mem - flavor.mem
            allocated.numVCpus = allocated.numVCpus - flavor.numVCpus
            allocated.numDisks = allocated.numDisks - flavor.numDisks
            if allocated.mem > 0:
                self.hwData.allocatedHardware[name] = allocated
            else:
                self.hwData.allocatedHardware.pop(server.mcName, None)

            self.serverData.serverDataDict.pop(name, None)
        else:
            print("ERROR!! Instance Not Found..")

    def validateImageAndFlavor(self, imageName, flavorName):
        if ((imageName in self.imgData.imageDict.keys())
                and (flavorName in self.flData.flDataDict.keys())):
            return True
        else:
            return False

    def createInstance(self, serverName, imageName, flavorName):
        if (self.validateImageAndFlavor(imageName, flavorName)):
            mcName = self.getMachine(flavorName, imageName)
            if len(mcName) > 0:
                print(mcName)
                self.serverData.config(serverName, imageName, flavorName,
                                       mcName)
                logging.info('SUCCESS')
            else:
                logging.error("No available hardware found")
        else:
            print("ERROR! Image name or file name not found")

    def getMachine(self, flavorName, imageName):
        #aggiestack server create --image linux-ubuntu-16 --flavor small ins1
        flavor = self.flData.getFlavorInfo(flavorName)

        availableMachines = []

        # Find available machines
        for name, hwData in self.hwData.hwDataDict.items():
            availMem = hwData.mem
            availNoDisks = hwData.numDisks
            availVcpus = hwData.numVCpus
            if name in self.hwData.allocatedHardware:
                allocated = self.hwData.allocatedHardware[name]
                availMem = availMem - allocated.mem
                availNoDisks = availNoDisks - allocated.numDisks
                availVcpus = availVcpus - allocated.numVCpus
            if availMem >= flavor.mem and availNoDisks >= flavor.numDisks and availVcpus >= flavor.numVCpus:
                availableMachines.append(name)

        # Find the machine whose rack has the image
        for name in availableMachines:
            rackName = self.hwData.hwDataDict[name].rack
            storedImagesList = self.hwData.rackDataDict[rackName].stored_images
            if imageName in storedImagesList:
                print("Image already found")
                allocated = self.hwData.allocatedHardware.get(
                    name, HardwareData())
                allocated.name = name
                allocated.mem = allocated.mem + flavor.mem
                allocated.numDisks = allocated.numDisks + flavor.numDisks
                allocated.numVCpus = allocated.numVCpus + flavor.numVCpus
                self.hwData.allocatedHardware[name] = allocated
                return name

        # Find any rack where this image can be inserted
        for name in availableMachines:
            rackName = self.hwData.hwDataDict[name].rack
            rackStorage = self.hwData.rackDataDict[rackName].capacity
            if rackStorage >= int(
                    self.imgData.imageDict[imageName].noOfAvailable):
                # Copy image to rack storage
                self.hwData.rackDataDict[rackName].stored_images.append(
                    imageName)
                self.hwData.rackDataDict[rackName].capacity -= int(
                    self.imgData.imageDict[imageName].noOfAvailable)
                print("Image added to rack storage")
                # Return Machine name by updating the parameters
                allocated = self.hwData.allocatedHardware.get(
                    name, HardwareData())
                allocated.name = name
                allocated.mem = allocated.mem + flavor.mem
                allocated.numDisks = allocated.numDisks + flavor.numDisks
                allocated.numVCpus = allocated.numVCpus + flavor.numVCpus
                self.hwData.allocatedHardware[name] = allocated
                return name

        if len(availableMachines) == 0:
            return ''
        else:
            # Simply add an instance to any machine
            name = availableMachines[0]
            allocated = self.hwData.allocatedHardware.get(name, HardwareData())
            allocated.name = name
            allocated.mem = allocated.mem + flavor.mem
            allocated.numDisks = allocated.numDisks + flavor.numDisks
            allocated.numVCpus = allocated.numVCpus + flavor.numVCpus
            self.hwData.allocatedHardware[name] = allocated
            return name

    def adminShowAvailableHardware(self):
        self.hwData.showAvailableHardware()

    def canHost(self, hardwareName, flavorName):
        hardware = self.hwData.getHardwareInfo(hardwareName)
        flavor = self.flData.getFlavorInfo(flavorName)
        if hardware is None or flavor is None:
            print("\n Please verify hardware name and flavor name")
            logging.error('FAILURE')
            return False
        if hardware.mem >= flavor.mem and hardware.numDisks >= flavor.numDisks and hardware.numVCpus >= flavor.numVCpus:
            return True
        else:
            return False

    def remove(self, machineName):
        #removes the machine from the available list
        #first remove all the linked instances
        tempInst = []
        for name, svData in self.serverData.serverDataDict.items():
            if (svData.mcName == machineName):
                tempInst.append(svData.name)

        # for name in tempInst:
        #         self.deleteInstance(name)

        if (len(tempInst) > 0):
            logging.error(
                "Can not remove. Migrate the running instance from this machine"
            )
            print(
                "Can not remove. Migrate the running instance from this machine"
            )
            return

        try:
            del self.hwData.hwDataDict[machineName]
            self.hwData.numOfMachines -= 1
            logging.info("Machine removed")
        except KeyError as ex:
            logging.error("This machine does not exist")

    def addMachine(self, mem, disk, vcpu, ip, r_name, m_name):
        hwData = HardwareData()
        if (r_name not in self.hwData.rackDataDict.keys()):
            print("This rack does not exist, can not add machine")
            logging.error("This rack does not exist, can not add machine")
            return

        hwData.name = m_name
        hwData.rack = r_name
        hwData.ip = ip
        hwData.mem = mem
        hwData.numDisks = disk
        hwData.numVCpus = vcpu
        self.hwData.hwDataDict[m_name] = hwData

    def findRack(self, rackName):
        for name, rackData in self.hwData.rackDataDict.items():
            if (rackData.name != rackName):
                subsRack = rackData.name
                self.hwData.rackDataDict.pop(rackName)
                return subsRack

    def evacuateRack(self, rackName):
        if (rackName in self.hwData.rackDataDict.keys()):
            substituteRack = self.findRack(rackName)
            if (substituteRack == None):
                print("Rack Not evacuated, No other rack found")
            else:
                for name, hwData in self.hwData.hwDataDict.items():
                    if (hwData.rack == rackName):
                        hwData.rack = substituteRack
                        self.hwData.hwDataDict[name] = hwData
        else:
            print(" Error!! RackName Not Found ")

    def adminShowCachedImagesOnRack(self, rackName):
        if rackName in self.hwData.rackDataDict:
            storedImagesList = self.hwData.rackDataDict[rackName].stored_images
            data = [["List of Images"]]
            for image in storedImagesList:
                data.append([image])
            rackStorage = self.hwData.rackDataDict[rackName].capacity
            T = Texttable()
            T.add_rows(data)
            print(T.draw())
            print("The amount of storage available in the given rack is ",
                  rackStorage)
        else:
            print("Please enter valid rack-name")