def setUpClass(cls):
     testClient = super(TestDeployvGPUenabledVM, cls).getClsTestClient()
     #Need to add check whether zone containing the xen hypervisor or not as well
     hypervisor = testClient.getHypervisorInfo()
     if hypervisor.lower() != XEN_SERVER.lower():
         raise unittest.skipTest(
             "GPU feature is supported only on XenServer")
Exemplo n.º 2
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    def setUpClass(cls):
        try:
            cls._cleanup = []
            cls.testClient = super(TestSnapshots, cls).getClsTestClient()
            cls.api_client = cls.testClient.getApiClient()
            cls.services = cls.testClient.getParsedTestDataConfig()
            cls.unsupportedHypervisor = False
            cls.hypervisor = cls.testClient.getHypervisorInfo()
            if cls.hypervisor.lower() in (KVM.lower(), "hyperv", "lxc", XEN_SERVER.lower()):
                cls.unsupportedHypervisor = True
                return
            # Get Domain, Zone, Template
            cls.domain = get_domain(cls.api_client)
            cls.zone = get_zone(
                cls.api_client,
                cls.testClient.getZoneForTests())
            cls.template = get_template(
                cls.api_client,
                cls.zone.id,
                cls.services["ostype"]
            )
            if cls.zone.localstorageenabled:
                cls.storagetype = 'local'
                cls.services["service_offerings"][
                    "tiny"]["storagetype"] = 'local'
            else:
                cls.storagetype = 'shared'
                cls.services["service_offerings"][
                    "tiny"]["storagetype"] = 'shared'

            cls.services['mode'] = cls.zone.networktype
            cls.services["virtual_machine"]["hypervisor"] = cls.hypervisor
            cls.services["virtual_machine"]["zoneid"] = cls.zone.id
            cls.services["virtual_machine"]["template"] = cls.template.id
            cls.services["custom_volume"]["zoneid"] = cls.zone.id
            # Creating Disk offering, Service Offering and Account
            cls.service_offering = ServiceOffering.create(
                cls.api_client,
                cls.services["service_offerings"]["tiny"]
            )
            cls._cleanup.append(cls.service_offering)
            cls.account = Account.create(
                cls.api_client,
                cls.services["account"],
                domainid=cls.domain.id
            )
            cls._cleanup.append(cls.account)
        except Exception as e:
            cls.tearDownClass()
            raise Exception("Warning: Exception in setup : %s" % e)
        return
Exemplo n.º 3
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    def setUpClass(cls):
        try:
            cls._cleanup = []
            cls.testClient = super(TestSnapshots, cls).getClsTestClient()
            cls.api_client = cls.testClient.getApiClient()
            cls.services = cls.testClient.getParsedTestDataConfig()
            cls.unsupportedHypervisor = False
            cls.hypervisor = cls.testClient.getHypervisorInfo()
            if cls.hypervisor.lower() in (KVM.lower(), "hyperv", "lxc", XEN_SERVER.lower()):
                cls.unsupportedHypervisor = True
                return
            # Get Domain, Zone, Template
            cls.domain = get_domain(cls.api_client)
            cls.zone = get_zone(
                cls.api_client,
                cls.testClient.getZoneForTests())
            cls.template = get_template(
                cls.api_client,
                cls.zone.id,
                cls.services["ostype"]
            )
            if cls.zone.localstorageenabled:
                cls.storagetype = 'local'
                cls.services["service_offerings"][
                    "tiny"]["storagetype"] = 'local'
            else:
                cls.storagetype = 'shared'
                cls.services["service_offerings"][
                    "tiny"]["storagetype"] = 'shared'

            cls.services['mode'] = cls.zone.networktype
            cls.services["virtual_machine"]["hypervisor"] = cls.hypervisor
            cls.services["virtual_machine"]["zoneid"] = cls.zone.id
            cls.services["virtual_machine"]["template"] = cls.template.id
            cls.services["custom_volume"]["zoneid"] = cls.zone.id
            # Creating Disk offering, Service Offering and Account
            cls.service_offering = ServiceOffering.create(
                cls.api_client,
                cls.services["service_offerings"]["tiny"]
            )
            cls._cleanup.append(cls.service_offering)
            cls.account = Account.create(
                cls.api_client,
                cls.services["account"],
                domainid=cls.domain.id
            )
            cls._cleanup.append(cls.account)
        except Exception as e:
            cls.tearDownClass()
            raise Exception("Warning: Exception in setup : %s" % e)
        return
Exemplo n.º 4
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    def test_01_create_volume(self):
        """Test Volume creation for all Disk Offerings (incl. custom)
        """

        # Validate the following
        # 1. Create volumes from the different sizes
        # 2. Verify the size of volume with actual size allocated

        self.volumes = []
        for k, v in self.services["volume_offerings"].items():
            volume = Volume.create(
                                   self.apiClient,
                                   v,
                                   zoneid=self.zone.id,
                                   account=self.account.name,
                                   domainid=self.account.domainid,
                                   diskofferingid=self.disk_offering.id
                                   )
            self.debug("Created a volume with ID: %s" % volume.id)
            self.volumes.append(volume)

        if self.virtual_machine.hypervisor == "KVM":
            sparse_volume = Volume.create(
                                        self.apiClient,
                                        self.services,
                                        zoneid=self.zone.id,
                                        account=self.account.name,
                                        domainid=self.account.domainid,
                                        diskofferingid=self.sparse_disk_offering.id
                                        )
            self.debug("Created a sparse volume: %s" % sparse_volume.id)
            self.volumes.append(sparse_volume)

        volume = Volume.create_custom_disk(
                                    self.apiClient,
                                    self.services,
                                    account=self.account.name,
                                    domainid=self.account.domainid,
                                    )
        self.debug("Created a volume with custom offering: %s" % volume.id)
        self.volumes.append(volume)

        #Attach a volume with different disk offerings
        #and check the memory allocated to each of them
        for volume in self.volumes:
            list_volume_response = Volume.list(
                                               self.apiClient,
                                               id=volume.id)
            self.assertEqual(
                            isinstance(list_volume_response, list),
                            True,
                            "Check list response returns a valid list"
                        )
            self.assertNotEqual(
                                list_volume_response,
                                None,
                                "Check if volume exists in ListVolumes"
                                )
            self.debug(
                "Attaching volume (ID: %s) to VM (ID: %s)" % (
                                                    volume.id,
                                                    self.virtual_machine.id
                                                    ))
            self.virtual_machine.attach_volume(
                                                self.apiClient,
                                                volume
                                               )
            try:
                ssh = self.virtual_machine.get_ssh_client()
                self.debug("Rebooting VM %s" % self.virtual_machine.id)
                ssh.execute("reboot")
            except Exception as e:
                self.fail("SSH access failed for VM %s - %s" %
                                (self.virtual_machine.ipaddress, e))

            # Poll listVM to ensure VM is started properly
            timeout = self.services["timeout"]
            while True:
                time.sleep(self.services["sleep"])

                # Ensure that VM is in running state
                list_vm_response = VirtualMachine.list(
                                            self.apiClient,
                                            id=self.virtual_machine.id
                                            )

                if isinstance(list_vm_response, list):
                    vm = list_vm_response[0]
                    if vm.state == 'Running':
                        self.debug("VM state: %s" % vm.state)
                        break

                if timeout == 0:
                    raise Exception(
                        "Failed to start VM (ID: %s) " % vm.id)
                timeout = timeout - 1

            vol_sz = str(list_volume_response[0].size)
            ssh = self.virtual_machine.get_ssh_client(
                                                      reconnect=True
                                                      )
            # Get the updated volume information
            list_volume_response = Volume.list(
                                               self.apiClient,
                                               id=volume.id)
            if list_volume_response[0].hypervisor.lower() == XEN_SERVER.lower():
                volume_name = "/dev/xvd" + chr(ord('a') + int(list_volume_response[0].deviceid))
                self.debug(" Using XenServer volume_name: %s" % (volume_name))
                ret = checkVolumeSize(ssh_handle=ssh,volume_name=volume_name,size_to_verify=vol_sz)
            else:
                ret = checkVolumeSize(ssh_handle=ssh,size_to_verify=vol_sz)
            self.debug(" Volume Size Expected %s  Actual :%s" %(vol_sz,ret[1]))
            self.virtual_machine.detach_volume(self.apiClient, volume)
            self.assertEqual(ret[0],SUCCESS,"Check if promised disk size actually available")
            time.sleep(self.services["sleep"])
Exemplo n.º 5
0
    def test_01_create_volume(self):
        """Test Volume creation for all Disk Offerings (incl. custom)
        """

        # Validate the following
        # 1. Create volumes from the different sizes
        # 2. Verify the size of volume with actual size allocated

        self.volumes = []
        for k, v in self.services["volume_offerings"].items():
            volume = Volume.create(self.apiClient,
                                   v,
                                   zoneid=self.zone.id,
                                   account=self.account.name,
                                   domainid=self.account.domainid,
                                   diskofferingid=self.disk_offering.id)
            self.debug("Created a volume with ID: %s" % volume.id)
            self.volumes.append(volume)

        if self.virtual_machine.hypervisor == "KVM":
            sparse_volume = Volume.create(
                self.apiClient,
                self.services,
                zoneid=self.zone.id,
                account=self.account.name,
                domainid=self.account.domainid,
                diskofferingid=self.sparse_disk_offering.id)
            self.debug("Created a sparse volume: %s" % sparse_volume.id)
            self.volumes.append(sparse_volume)

        volume = Volume.create_custom_disk(
            self.apiClient,
            self.services,
            account=self.account.name,
            domainid=self.account.domainid,
        )
        self.debug("Created a volume with custom offering: %s" % volume.id)
        self.volumes.append(volume)

        # Attach a volume with different disk offerings
        # and check the memory allocated to each of them
        for volume in self.volumes:
            list_volume_response = Volume.list(self.apiClient, id=volume.id)
            self.assertEqual(isinstance(list_volume_response, list), True,
                             "Check list response returns a valid list")
            self.assertNotEqual(list_volume_response, None,
                                "Check if volume exists in ListVolumes")
            self.debug("Attaching volume (ID: %s) to VM (ID: %s)" %
                       (volume.id, self.virtual_machine.id))
            self.virtual_machine.attach_volume(self.apiClient, volume)
            try:
                ssh = self.virtual_machine.get_ssh_client()
                self.debug("Rebooting VM %s" % self.virtual_machine.id)
                ssh.execute("reboot")
            except Exception as e:
                self.fail("SSH access failed for VM %s - %s" %
                          (self.virtual_machine.ipaddress, e))

            # Poll listVM to ensure VM is started properly
            timeout = self.services["timeout"]
            while True:
                time.sleep(self.services["sleep"])

                # Ensure that VM is in running state
                list_vm_response = VirtualMachine.list(
                    self.apiClient, id=self.virtual_machine.id)

                if isinstance(list_vm_response, list):
                    vm = list_vm_response[0]
                    if vm.state == 'Running':
                        self.debug("VM state: %s" % vm.state)
                        break

                if timeout == 0:
                    raise Exception("Failed to start VM (ID: %s) " % vm.id)
                timeout = timeout - 1

            vol_sz = str(list_volume_response[0].size)
            ssh = self.virtual_machine.get_ssh_client(reconnect=True)
            # Get the updated volume information
            list_volume_response = Volume.list(self.apiClient, id=volume.id)
            if list_volume_response[0].hypervisor.lower() == XEN_SERVER.lower(
            ):
                volume_name = "/dev/xvd" + chr(
                    ord('a') + int(list_volume_response[0].deviceid))
                self.debug(" Using XenServer volume_name: %s" % (volume_name))
                ret = checkVolumeSize(ssh_handle=ssh,
                                      volume_name=volume_name,
                                      size_to_verify=vol_sz)
            elif list_volume_response[0].hypervisor.lower() == "kvm":
                volume_name = "/dev/vd" + chr(
                    ord('a') + int(list_volume_response[0].deviceid))
                self.debug(" Using KVM volume_name: %s" % (volume_name))
                ret = checkVolumeSize(ssh_handle=ssh,
                                      volume_name=volume_name,
                                      size_to_verify=vol_sz)
            else:
                ret = checkVolumeSize(ssh_handle=ssh, size_to_verify=vol_sz)
            self.debug(" Volume Size Expected %s  Actual :%s" %
                       (vol_sz, ret[1]))
            self.virtual_machine.detach_volume(self.apiClient, volume)
            self.assertEqual(ret[0], SUCCESS,
                             "Check if promised disk size actually available")
            time.sleep(self.services["sleep"])
 def setUpClass(cls):
     testClient = super(TestDeployvGPUenabledVM, cls).getClsTestClient()
     #Need to add check whether zone containing the xen hypervisor or not as well
     hypervisor = testClient.getHypervisorInfo()
     if hypervisor.lower() != XEN_SERVER.lower():
         raise unittest.skipTest("GPU feature is supported only on XenServer")