Exemplo n.º 1
0
def run():
    global vm
    vm = get_vm(client, vm_name)
    if not vm:
        raise Exception('Sample requires an existing vm with name ({}). '
                        'Please create the vm first.'.format(vm_name))
    print("Using VM '{}' ({}) for Cpu Sample".format(vm_name, vm))

    print('\n# Example: Get current Cpu configuration')
    cpu_info = client.vcenter.vm.hardware.Cpu.get(vm)
    print('vm.hardware.Cpu.get({}) -> {}'.format(vm, pp(cpu_info)))

    # Save current Cpu info to verify that we have cleaned up properly
    global orig_cpu_info
    orig_cpu_info = cpu_info

    print('\n# Example: Update cpu field of Cpu configuration')
    update_spec = Cpu.UpdateSpec(count=2)
    print('vm.hardware.Cpu.update({}, {})'.format(vm, update_spec))
    client.vcenter.vm.hardware.Cpu.update(vm, update_spec)

    # Get new Cpu configuration
    cpu_info = client.vcenter.vm.hardware.Cpu.get(vm)
    print('vm.hardware.Cpu.get({}) -> {}'.format(vm, pp(cpu_info)))

    print(
        '\n# Example: Update other less likely used fields of Cpu configuration'
    )
    update_spec = Cpu.UpdateSpec(cores_per_socket=2, hot_add_enabled=True)
    print('vm.hardware.Cpu.update({}, {})'.format(vm, update_spec))
    client.vcenter.vm.hardware.Cpu.update(vm, update_spec)

    # Get new Cpu configuration
    cpu_info = client.vcenter.vm.hardware.Cpu.get(vm)
    print('vm.hardware.Cpu.get({}) -> {}'.format(vm, pp(cpu_info)))
Exemplo n.º 2
0
def cleanup():
    print('\n# Cleanup: Revert Cpu configuration')
    update_spec = \
        Cpu.UpdateSpec(count=orig_cpu_info.count,
                       cores_per_socket=orig_cpu_info.cores_per_socket,
                       hot_add_enabled=orig_cpu_info.hot_add_enabled,
                       hot_remove_enabled=orig_cpu_info.hot_remove_enabled)
    print('vm.hardware.Cpu.update({}, {})'.format(vm, update_spec))
    client.vcenter.vm.hardware.Cpu.update(vm, update_spec)

    # Get final Cpu configuration
    cpu_info = client.vcenter.vm.hardware.Cpu.get(vm)
    print('vm.hardware.Cpu.get({}) -> {}'.format(vm, pp(cpu_info)))

    if cpu_info != orig_cpu_info:
        print(
            'vm.hardware.Cpu WARNING: Final Cpu info does not match original')
    def run(self):
        # Get a placement spec
        datacenter_name = testbed.config['VM_DATACENTER_NAME']
        vm_folder_name = testbed.config['VM_FOLDER2_NAME']
        datastore_name = testbed.config['VM_DATASTORE_NAME']
        std_portgroup_name = testbed.config['STDPORTGROUP_NAME']
        dv_portgroup_name = testbed.config['VDPORTGROUP1_NAME']

        if not self.placement_spec:
            self.placement_spec = vm_placement_helper.get_placement_spec_for_resource_pool(
                self.client, datacenter_name, vm_folder_name, datastore_name)

        # Get a standard network backing
        if not self.standard_network:
            self.standard_network = network_helper.get_network_backing(
                self.client, std_portgroup_name, datacenter_name,
                Network.Type.STANDARD_PORTGROUP)

        # Get a distributed network backing
        if not self.distributed_network:
            self.distributed_network = network_helper.get_network_backing(
                self.client, dv_portgroup_name, datacenter_name,
                Network.Type.DISTRIBUTED_PORTGROUP)
        """
        Create an exhaustive VM.

        Using the provided PlacementSpec, create a VM with a selected Guest OS
        and provided name.

        Create a VM with the following configuration:
        * Hardware Version = VMX_11 (for 6.0)
        * CPU (count = 2, coresPerSocket = 2, hotAddEnabled = false,
        hotRemoveEnabled = false)
        * Memory (size_mib = 2 GB, hotAddEnabled = false)
        * 3 Disks and specify each of the HBAs and the unit numbers
          * (capacity=40 GB, name=<some value>, spaceEfficient=true)
        * Specify 2 ethernet adapters, one using a Standard Portgroup backing and
        the
          other using a DISTRIBUTED_PORTGROUP networking backing.
          * nic1: Specify Ethernet (macType=MANUAL, macAddress=<some value>)
          * nic2: Specify Ethernet (macType=GENERATED)
        * 1 CDROM (type=ISO_FILE, file="os.iso", startConnected=true)
        * 1 Serial Port (type=NETWORK_SERVER, file="tcp://localhost/16000",
        startConnected=true)
        * 1 Parallel Port (type=HOST_DEVICE, startConnected=false)
        * 1 Floppy Drive (type=CLIENT_DEVICE)
        * Boot, type=BIOS
        * BootDevice order: CDROM, DISK, ETHERNET

        Use guest and system provided defaults for remaining configuration settings.
        """
        guest_os = testbed.config['VM_GUESTOS']
        iso_datastore_path = testbed.config['ISO_DATASTORE_PATH']
        serial_port_network_location = \
            testbed.config['SERIAL_PORT_NETWORK_SERVER_LOCATION']

        GiB = 1024 * 1024 * 1024
        GiBMemory = 1024

        vm_create_spec = VM.CreateSpec(
            guest_os=guest_os,
            name=self.vm_name,
            placement=self.placement_spec,
            hardware_version=Hardware.Version.VMX_11,
            cpu=Cpu.UpdateSpec(count=2,
                               cores_per_socket=1,
                               hot_add_enabled=False,
                               hot_remove_enabled=False),
            memory=Memory.UpdateSpec(size_mib=2 * GiBMemory,
                                     hot_add_enabled=False),
            disks=[
                Disk.CreateSpec(type=Disk.HostBusAdapterType.SCSI,
                                scsi=ScsiAddressSpec(bus=0, unit=0),
                                new_vmdk=Disk.VmdkCreateSpec(name='boot',
                                                             capacity=40 *
                                                             GiB)),
                Disk.CreateSpec(new_vmdk=Disk.VmdkCreateSpec(
                    name='data1', capacity=10 * GiB)),
                Disk.CreateSpec(new_vmdk=Disk.VmdkCreateSpec(
                    name='data2', capacity=10 * GiB))
            ],
            nics=[
                Ethernet.CreateSpec(
                    start_connected=True,
                    mac_type=Ethernet.MacAddressType.MANUAL,
                    mac_address='11:23:58:13:21:34',
                    backing=Ethernet.BackingSpec(
                        type=Ethernet.BackingType.STANDARD_PORTGROUP,
                        network=self.standard_network)),
                Ethernet.CreateSpec(
                    start_connected=True,
                    mac_type=Ethernet.MacAddressType.GENERATED,
                    backing=Ethernet.BackingSpec(
                        type=Ethernet.BackingType.DISTRIBUTED_PORTGROUP,
                        network=self.distributed_network)),
            ],
            cdroms=[
                Cdrom.CreateSpec(start_connected=True,
                                 backing=Cdrom.BackingSpec(
                                     type=Cdrom.BackingType.ISO_FILE,
                                     iso_file=iso_datastore_path))
            ],
            serial_ports=[
                Serial.CreateSpec(
                    start_connected=False,
                    backing=Serial.BackingSpec(
                        type=Serial.BackingType.NETWORK_SERVER,
                        network_location=serial_port_network_location))
            ],
            parallel_ports=[
                Parallel.CreateSpec(start_connected=False,
                                    backing=Parallel.BackingSpec(
                                        type=Parallel.BackingType.HOST_DEVICE))
            ],
            floppies=[
                Floppy.CreateSpec(backing=Floppy.BackingSpec(
                    type=Floppy.BackingType.CLIENT_DEVICE))
            ],
            boot=Boot.CreateSpec(type=Boot.Type.BIOS,
                                 delay=0,
                                 enter_setup_mode=False),
            # TODO Should DISK be put before CDROM and ETHERNET?  Does the BIOS
            # automatically try the next device if the DISK is empty?
            boot_devices=[
                BootDevice.EntryCreateSpec(BootDevice.Type.CDROM),
                BootDevice.EntryCreateSpec(BootDevice.Type.DISK),
                BootDevice.EntryCreateSpec(BootDevice.Type.ETHERNET)
            ])
        print(
            '# Example: create_exhaustive_vm: Creating a VM using spec\n-----')
        print(pp(vm_create_spec))
        print('-----')

        vm = self.client.vcenter.VM.create(vm_create_spec)

        print("create_exhaustive_vm: Created VM '{}' ({})".format(
            self.vm_name, vm))

        vm_info = self.client.vcenter.VM.get(vm)
        print('vm.get({}) -> {}'.format(vm, pp(vm_info)))

        return vm
Exemplo n.º 4
0
disk_create_spec1 = Disk.CreateSpec(type=Disk.HostBusAdapterType.SCSI,
                                    scsi=ScsiAddressSpec(bus=0, unit=1),
                                    new_vmdk=Disk.VmdkCreateSpec(name='disk-1', capacity=10 * GiB))

disk_create_spec2 = Disk.CreateSpec(type=Disk.HostBusAdapterType.SCSI,
                                    scsi=ScsiAddressSpec(bus=2, unit=0),
                                    new_vmdk=Disk.VmdkCreateSpec(name='disk-shared-0', capacity=4 * GiB))

#[Kingston120G] SHARED/RAC_SSD_1.vm

vm_create_spec = VM.CreateSpec(
    guest_os='CENTOS_7_64',
    name='TESTVM',
    placement=placement_spec,
    hardware_version=Hardware.Version.VMX_13,
    cpu=Cpu.UpdateSpec(count=2, cores_per_socket=1, hot_add_enabled=False, hot_remove_enabled=False),
    memory=Memory.UpdateSpec(size_mib=2 * GiBMemory, hot_add_enabled=False),
    boot=Boot.CreateSpec(type=Boot.Type.BIOS, delay=0, enter_setup_mode=False),
    boot_devices=[
        BootDevice.EntryCreateSpec(BootDevice.Type.DISK),
        BootDevice.EntryCreateSpec(BootDevice.Type.ETHERNET)
    ],
    nics=[
        Ethernet.CreateSpec(
            start_connected=True,
            mac_type=Ethernet.MacAddressType.MANUAL,
            mac_address='11:23:58:13:21:34',
            pci_slot_number=192,
            backing=Ethernet.BackingSpec(type=Ethernet.BackingType.STANDARD_PORTGROUP, network=network1.network)
        )
    ],
    def run(self):
        # Get a placement spec
        datacenter_name = 'Datacenter'  # testbed.config['VM_DATACENTER_NAME']
        # vm_folder_name =   'kong111_166'                     #testbed.config['VM_FOLDER2_NAME']
        datastore_name = 'datastore-717'  # testbed.config['VM_DATASTORE_NAME']
        std_portgroup_name = 'VM Network'  # testbed.config['STDPORTGROUP_NAME']
        host = 'host-716'
        diskprovisioningtpye = DiskProvisioningType('eagerZeroedThick')
        if not self.placement_spec:
            # self.placement_spec = vm_placement_helper.get_placement_spec_for_resource_pool(
            #     self.client,
            #     datacenter_name,
            #     vm_folder_name,
            #     datastore_name)
            self.placement_spec = VM.PlacementSpec(host=host,
                                                   datastore=datastore_name,
                                                   folder='group-v3')
        # Get a standard network backing
        standard_network = network_helper.get_network_backing(
            self.client, std_portgroup_name, datacenter_name,
            Network.Type.STANDARD_PORTGROUP)
        """
        Create a basic VM.

        Using the provided PlacementSpec, create a VM with a selected Guest OS
        and provided name.

        Create a VM with the following configuration:
        * Create 2 disks and specify one of them on scsi0:0 since it's the boot disk
        * Specify 1 ethernet adapter using a Standard Portgroup backing
        * Setup for PXE install by selecting network as first boot device

        Use guest and system provided defaults for most configuration settings.
        """
        guest_os = 'CENTOS_6_64'  # testbed.config['VM_GUESTOS']
        hardware = ''
        # boot_disk = Disk.CreateSpec(type=Disk.HostBusAdapterType.SCSI,
        #                             scsi=ScsiAddressSpec(bus=0, unit=0),
        #                             new_vmdk=Disk.VmdkCreateSpec())
        data_disk = Disk.CreateSpec(new_vmdk=Disk.VmdkCreateSpec(
            capacity=self.cap))
        nic = Ethernet.CreateSpec(
            start_connected=True,
            backing=Ethernet.BackingSpec(
                type=Ethernet.BackingType.STANDARD_PORTGROUP,
                network=standard_network))
        sata_adapt = Sata.CreateSpec()
        cpu = Cpu.UpdateSpec(count=self.cpu,
                             cores_per_socket=1,
                             hot_add_enabled=True,
                             hot_remove_enabled=True)
        memory = Memory.UpdateSpec(size_mib=self.memory, hot_add_enabled=True)
        # boot_device_order = [
        #     BootDevice.EntryCreateSpec(BootDevice.Type.ETHERNET),
        #     BootDevice.EntryCreateSpec(BootDevice.Type.DISK)]
        # host1=Host.list()
        # print (host1)
        placement = VM.PlacementSpec(host=host,
                                     datastore=datastore_name,
                                     folder='group-v3')
        vm_create_spec = VM.CreateSpec(name=self.vm_name,
                                       guest_os=guest_os,
                                       cpu=cpu,
                                       memory=memory,
                                       placement=placement,
                                       disks=[data_disk],
                                       nics=[nic],
                                       sata_adapters=[sata_adapt])
        print('\n# Example: create_basic_vm: Creating a VM using spec\n-----')
        print(pp(vm_create_spec))
        print('-----')

        vm = self.client.vcenter.VM.create(vm_create_spec)

        print("create_basic_vm: Created VM '{}' ({})".format(self.vm_name, vm))

        vm_info = self.client.vcenter.VM.get(vm)
        print('vm.get({}) -> {}'.format(vm, pp(vm_info)))
        self.client.vcenter.vm.Power.start(vm)

        return vm