#!/usr/bin/env python """ * ******************************************************* * Copyright (c) VMware, Inc. 2016. All Rights Reserved. * ******************************************************* * * 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. """ 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) 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=, 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=) * 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(): try: setup() cleanup() run() if cleardata: cleanup() finally: if stub_config: vapiconnect.logout(stub_config) if __name__ == '__main__': main()