vsphere-automation-sdk-python/samples/vsphere/vcenter/vm/create/create_exhaustive_vm.py

#!/usr/bin/env python

"""
* *******************************************************
* Copyright (c) VMware, Inc. 2016. All Rights Reserved.
* SODX-License-Identifier: MIT
* *******************************************************
*
* DISCLAIMER. THIS PROGRAM IS PROVIDED TO YOU "AS IS" WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, WHETHER ORAL OR WRITTEN,
* EXPRESS OR IMPLIED. THE AUTHOR SPECIFICALLY DISCLAIMS ANY IMPLIED
* WARRANTIES OR CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY,
* NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE.
"""

__author__ = 'VMware, Inc.'
__copyright__ = 'Copyright 2016 VMware, Inc. All rights reserved.'
__vcenter_version__ = '6.5+'

import atexit

from com.vmware.vcenter.vm.hardware.boot_client import Device as BootDevice
from com.vmware.vcenter.vm.hardware_client import (
    Cpu, Memory, Disk, Ethernet, Cdrom, Serial, Parallel, Floppy, Boot)
from com.vmware.vcenter.vm.hardware_client import ScsiAddressSpec
from com.vmware.vcenter.vm_client import (Hardware, Power)
from com.vmware.vcenter_client import VM
from samples.vsphere.common import vapiconnect
from samples.vsphere.common.sample_util import parse_cli_args_vm
from samples.vsphere.common.sample_util import pp
from samples.vsphere.vcenter.helper import network_helper
from samples.vsphere.vcenter.helper import vm_placement_helper
from samples.vsphere.vcenter.setup import testbed

from samples.vsphere.vcenter.helper.vm_helper import get_vm

"""
Demonstrates how to create a exhaustive VM with the below configuration:
3 disks, 2 nics, 2 vcpu, 2 GB, memory, boot=BIOS, 1 cdrom, 1 serial port,
1 parallel port, 1 floppy, boot_device=[CDROM, DISK, ETHERNET])

Sample Prerequisites:
    - datacenter
    - vm folder
    - resource pool
    - datastore
    - cluster
    - standard switch network
    - distributed switch network
    - An iso file on the datastore mentioned above
"""

stub_config = None
cleardata = False
vm_name = None


def setup(context=None):
    global stub_config, cleardata, vm_name
    if context:
        # Run sample suite via setup script
        vm_name = testbed.config['VM_NAME_EXHAUSTIVE']
        stub_config = context.stub_config
    else:
        # Run sample in standalone mode
        server, username, password, cleardata, skip_verification, vm_name = \
            parse_cli_args_vm(testbed.config['VM_NAME_EXHAUSTIVE'])
        stub_config = vapiconnect.connect(server,
                                          username,
                                          password,
                                          skip_verification)
        atexit.register(vapiconnect.logout, stub_config)


def run():
    # Get a placement spec
    datacenter_name = testbed.config['DATACENTER2_NAME']
    vm_folder_name = testbed.config['VM_FOLDER2_NAME']
    datastore_name = testbed.config['NFS_DATASTORE_NAME']
    std_portgroup_name = testbed.config['STDPORTGROUP_NAME']
    dv_portgroup_name = testbed.config['VDPORTGROUP1_NAME']
    placement_spec = vm_placement_helper.get_placement_spec_for_resource_pool(
        stub_config,
        datacenter_name,
        vm_folder_name,
        datastore_name)

    # Get a standard network backing
    standard_network = network_helper.get_standard_network_backing(
        stub_config,
        std_portgroup_name,
        datacenter_name)

    # Get a distributed network backing
    distributed_network = network_helper.get_distributed_network_backing(
        stub_config,
        dv_portgroup_name,
        datacenter_name)

    create_exhaustive_vm(stub_config, placement_spec, standard_network,
                         distributed_network)


def create_exhaustive_vm(stub_config, placement_spec, standard_network,
                         distributed_network):
    """
    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=vm_name,
        placement=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=standard_network)),
            Ethernet.CreateSpec(
                start_connected=True,
                mac_type=Ethernet.MacAddressType.GENERATED,
                backing=Ethernet.BackingSpec(
                    type=Ethernet.BackingType.DISTRIBUTED_PORTGROUP,
                    network=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_svc = VM(stub_config)
    vm = vm_svc.create(vm_create_spec)

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

    vm_info = vm_svc.get(vm)
    print('vm.get({}) -> {}'.format(vm, pp(vm_info)))

    return vm


def cleanup():
    vm = get_vm(stub_config, vm_name)
    if vm:
        power_svc = Power(stub_config)
        vm_svc = VM(stub_config)
        state = power_svc.get(vm)
        if state == Power.Info(state=Power.State.POWERED_ON):
            power_svc.stop(vm)
        elif state == Power.Info(state=Power.State.SUSPENDED):
            power_svc.start(vm)
            power_svc.stop(vm)
        print("Deleting VM '{}' ({})".format(vm_name, vm))
        vm_svc.delete(vm)


def main():
    setup()
    cleanup()
    run()
    if cleardata:
        cleanup()


if __name__ == '__main__':
    main()
Initial sample drop 2016-10-26 19:08:23 -04:00			`#!/usr/bin/env python`

			`"""`
			`* *******************************************************`
			`* Copyright (c) VMware, Inc. 2016. All Rights Reserved.`
add missing MIT license ientifier to each file Signed-off-by: Tianhao He <het@vmware.com> 2017-03-13 14:00:28 -04:00			`* SODX-License-Identifier: MIT`
Initial sample drop 2016-10-26 19:08:23 -04:00			`* *******************************************************`
			`*`
			`* DISCLAIMER. THIS PROGRAM IS PROVIDED TO YOU "AS IS" WITHOUT`
			`* WARRANTIES OR CONDITIONS OF ANY KIND, WHETHER ORAL OR WRITTEN,`
			`* EXPRESS OR IMPLIED. THE AUTHOR SPECIFICALLY DISCLAIMS ANY IMPLIED`
			`* WARRANTIES OR CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY,`
			`* NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE.`
			`"""`

			`__author__ = 'VMware, Inc.'`
			`__copyright__ = 'Copyright 2016 VMware, Inc. All rights reserved.'`
			`__vcenter_version__ = '6.5+'`

			`import atexit`

			`from com.vmware.vcenter.vm.hardware.boot_client import Device as BootDevice`
			`from com.vmware.vcenter.vm.hardware_client import (`
			`Cpu, Memory, Disk, Ethernet, Cdrom, Serial, Parallel, Floppy, Boot)`
			`from com.vmware.vcenter.vm.hardware_client import ScsiAddressSpec`
			`from com.vmware.vcenter.vm_client import (Hardware, Power)`
			`from com.vmware.vcenter_client import VM`
			`from samples.vsphere.common import vapiconnect`
			`from samples.vsphere.common.sample_util import parse_cli_args_vm`
			`from samples.vsphere.common.sample_util import pp`
			`from samples.vsphere.vcenter.helper import network_helper`
			`from samples.vsphere.vcenter.helper import vm_placement_helper`
			`from samples.vsphere.vcenter.setup import testbed`

			`from samples.vsphere.vcenter.helper.vm_helper import get_vm`

			`"""`
			`Demonstrates how to create a exhaustive VM with the below configuration:`
			`3 disks, 2 nics, 2 vcpu, 2 GB, memory, boot=BIOS, 1 cdrom, 1 serial port,`
			`1 parallel port, 1 floppy, boot_device=[CDROM, DISK, ETHERNET])`

			`Sample Prerequisites:`
			`- datacenter`
			`- vm folder`
			`- resource pool`
			`- datastore`
			`- cluster`
			`- standard switch network`
			`- distributed switch network`
			`- An iso file on the datastore mentioned above`
			`"""`

			`stub_config = None`
			`cleardata = False`
			`vm_name = None`


			`def setup(context=None):`
			`global stub_config, cleardata, vm_name`
			`if context:`
			`# Run sample suite via setup script`
			`vm_name = testbed.config['VM_NAME_EXHAUSTIVE']`
			`stub_config = context.stub_config`
			`else:`
			`# Run sample in standalone mode`
			`server, username, password, cleardata, skip_verification, vm_name = \`
			`parse_cli_args_vm(testbed.config['VM_NAME_EXHAUSTIVE'])`
			`stub_config = vapiconnect.connect(server,`
			`username,`
			`password,`
			`skip_verification)`
			`atexit.register(vapiconnect.logout, stub_config)`


			`def run():`
			`# Get a placement spec`
			`datacenter_name = testbed.config['DATACENTER2_NAME']`
			`vm_folder_name = testbed.config['VM_FOLDER2_NAME']`
			`datastore_name = testbed.config['NFS_DATASTORE_NAME']`
			`std_portgroup_name = testbed.config['STDPORTGROUP_NAME']`
			`dv_portgroup_name = testbed.config['VDPORTGROUP1_NAME']`
			`placement_spec = vm_placement_helper.get_placement_spec_for_resource_pool(`
			`stub_config,`
			`datacenter_name,`
			`vm_folder_name,`
			`datastore_name)`

			`# Get a standard network backing`
			`standard_network = network_helper.get_standard_network_backing(`
			`stub_config,`
			`std_portgroup_name,`
			`datacenter_name)`

			`# Get a distributed network backing`
			`distributed_network = network_helper.get_distributed_network_backing(`
			`stub_config,`
			`dv_portgroup_name,`
			`datacenter_name)`

			`create_exhaustive_vm(stub_config, placement_spec, standard_network,`
			`distributed_network)`


			`def create_exhaustive_vm(stub_config, placement_spec, standard_network,`
			`distributed_network):`
			`"""`
			`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=vm_name,`
			`placement=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=standard_network)),`
			`Ethernet.CreateSpec(`
			`start_connected=True,`
			`mac_type=Ethernet.MacAddressType.GENERATED,`
			`backing=Ethernet.BackingSpec(`
			`type=Ethernet.BackingType.DISTRIBUTED_PORTGROUP,`
			`network=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_svc = VM(stub_config)`
			`vm = vm_svc.create(vm_create_spec)`

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

			`vm_info = vm_svc.get(vm)`
			`print('vm.get({}) -> {}'.format(vm, pp(vm_info)))`

			`return vm`


			`def cleanup():`
			`vm = get_vm(stub_config, vm_name)`
			`if vm:`
			`power_svc = Power(stub_config)`
			`vm_svc = VM(stub_config)`
			`state = power_svc.get(vm)`
			`if state == Power.Info(state=Power.State.POWERED_ON):`
			`power_svc.stop(vm)`
			`elif state == Power.Info(state=Power.State.SUSPENDED):`
			`power_svc.start(vm)`
			`power_svc.stop(vm)`
			`print("Deleting VM '{}' ({})".format(vm_name, vm))`
			`vm_svc.delete(vm)`


			`def main():`
			`setup()`
			`cleanup()`
			`run()`
			`if cleardata:`
			`cleanup()`


			`if __name__ == '__main__':`
			`main()`