fixed builders on vcloud classes

This commit is contained in:
Adrian Cole 2011-05-25 00:31:02 -06:00
parent 963fffce82
commit 9f1f61d3b4
12 changed files with 378 additions and 207 deletions

View File

@ -33,6 +33,14 @@ public class EditableResourceAllocationSettingData extends ResourceAllocationSet
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromEditableResourceAllocationSettingData(this);
}
public static class Builder extends ResourceAllocationSettingData.Builder {
private ReferenceType edit;
@ -46,9 +54,9 @@ public class EditableResourceAllocationSettingData extends ResourceAllocationSet
public EditableResourceAllocationSettingData build() {
return new EditableResourceAllocationSettingData(elementName, instanceID, caption, description, address,
addressOnParent, allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility,
limit, mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType,
resourceType, virtualQuantity, virtualQuantityUnits, weight, connections, hostResources, edit);
addressOnParent, allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight, connections, hostResources, edit);
}
public Builder fromEditableResourceAllocationSettingData(EditableResourceAllocationSettingData in) {
@ -266,16 +274,15 @@ public class EditableResourceAllocationSettingData extends ResourceAllocationSet
public EditableResourceAllocationSettingData(String elementName, String instanceID, String caption,
String description, String address, String addressOnParent, String allocationUnits,
Boolean automaticAllocation, Boolean automaticDeallocation, ConsumerVisibility consumerVisibility,
Long limit, MappingBehavior mappingBehavior, String otherResourceType, String parent, String poolID,
Long reservation, String resourceSubType,
org.jclouds.cim.ResourceAllocationSettingData.ResourceType resourceType, Long virtualQuantity,
String virtualQuantityUnits, Integer weight, List<String> connections, List<String> hostResources,
ReferenceType edit) {
Boolean automaticAllocation, Boolean automaticDeallocation, ConsumerVisibility consumerVisibility, Long limit,
MappingBehavior mappingBehavior, String otherResourceType, String parent, String poolID, Long reservation,
String resourceSubType, org.jclouds.cim.ResourceAllocationSettingData.ResourceType resourceType,
Long virtualQuantity, String virtualQuantityUnits, Integer weight, List<String> connections,
List<String> hostResources, ReferenceType edit) {
super(elementName, instanceID, caption, description, address, addressOnParent, allocationUnits,
automaticAllocation, automaticDeallocation, consumerVisibility, limit, mappingBehavior,
otherResourceType, parent, poolID, reservation, resourceSubType, resourceType, virtualQuantity,
virtualQuantityUnits, weight, connections, hostResources);
automaticAllocation, automaticDeallocation, consumerVisibility, limit, mappingBehavior, otherResourceType,
parent, poolID, reservation, resourceSubType, resourceType, virtualQuantity, virtualQuantityUnits, weight,
connections, hostResources);
this.edit = edit;
}
@ -283,20 +290,15 @@ public class EditableResourceAllocationSettingData extends ResourceAllocationSet
return edit;
}
@Override
public Builder toBuilder() {
return new Builder().fromEditableResourceAllocationSettingData(this);
}
@Override
public String toString() {
return String
.format(
"[elementName=%s, instanceID=%s, caption=%s, description=%s, address=%s, addressOnParent=%s, allocationUnits=%s, automaticAllocation=%s, automaticDeallocation=%s, connections=%s, consumerVisibility=%s, hostResources=%s, limit=%s, mappingBehavior=%s, otherResourceType=%s, parent=%s, poolID=%s, reservation=%s, resourceSubType=%s, resourceType=%s, virtualQuantity=%s, virtualQuantityUnits=%s, weight=%s, edit=%s]",
elementName, instanceID, caption, description, address, addressOnParent, allocationUnits,
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources,
limit, mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType,
resourceType, virtualQuantity, virtualQuantityUnits, weight, edit);
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight, edit);
}
}

View File

@ -32,6 +32,14 @@ public class VCloudHardDisk extends ResourceAllocationSettingData {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromVCloudHardDisk(this);
}
public static class Builder extends ResourceAllocationSettingData.Builder {
private long capacity;
private int busType;
@ -63,10 +71,9 @@ public class VCloudHardDisk extends ResourceAllocationSettingData {
public VCloudHardDisk build() {
return new VCloudHardDisk(elementName, instanceID, caption, description, address, addressOnParent,
allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight, connections, hostResources, capacity, busType,
busSubType);
allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility, limit, mappingBehavior,
otherResourceType, parent, poolID, reservation, resourceSubType, resourceType, virtualQuantity,
virtualQuantityUnits, weight, connections, hostResources, capacity, busType, busSubType);
}
public Builder fromVCloudHardDisk(VCloudHardDisk in) {
@ -286,15 +293,15 @@ public class VCloudHardDisk extends ResourceAllocationSettingData {
public VCloudHardDisk(String elementName, String instanceID, String caption, String description, String address,
String addressOnParent, String allocationUnits, Boolean automaticAllocation, Boolean automaticDeallocation,
ConsumerVisibility consumerVisibility, Long limit, MappingBehavior mappingBehavior,
String otherResourceType, String parent, String poolID, Long reservation, String resourceSubType,
ConsumerVisibility consumerVisibility, Long limit, MappingBehavior mappingBehavior, String otherResourceType,
String parent, String poolID, Long reservation, String resourceSubType,
org.jclouds.cim.ResourceAllocationSettingData.ResourceType resourceType, Long virtualQuantity,
String virtualQuantityUnits, Integer weight, List<String> connections, List<String> hostResources,
long capacity, int busType, String busSubType) {
super(elementName, instanceID, caption, description, address, addressOnParent, allocationUnits,
automaticAllocation, automaticDeallocation, consumerVisibility, limit, mappingBehavior,
otherResourceType, parent, poolID, reservation, resourceSubType, resourceType, virtualQuantity,
virtualQuantityUnits, weight, connections, hostResources);
automaticAllocation, automaticDeallocation, consumerVisibility, limit, mappingBehavior, otherResourceType,
parent, poolID, reservation, resourceSubType, resourceType, virtualQuantity, virtualQuantityUnits, weight,
connections, hostResources);
this.capacity = capacity;
this.busType = busType;
this.busSubType = busSubType;
@ -312,19 +319,14 @@ public class VCloudHardDisk extends ResourceAllocationSettingData {
return busSubType;
}
@Override
public Builder toBuilder() {
return builder().fromVCloudHardDisk(this);
}
@Override
public String toString() {
return String
.format(
"[elementName=%s, instanceID=%s, caption=%s, description=%s, address=%s, addressOnParent=%s, allocationUnits=%s, automaticAllocation=%s, automaticDeallocation=%s, connections=%s, consumerVisibility=%s, hostResources=%s, limit=%s, mappingBehavior=%s, otherResourceType=%s, parent=%s, poolID=%s, reservation=%s, resourceSubType=%s, resourceType=%s, virtualQuantity=%s, virtualQuantityUnits=%s, weight=%s, busSubType=%s, busType=%s, capacity=%s]",
elementName, instanceID, caption, description, address, addressOnParent, allocationUnits,
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources,
limit, mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType,
resourceType, virtualQuantity, virtualQuantityUnits, weight, busSubType, busType, capacity);
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight, busSubType, busType, capacity);
}
}

View File

@ -32,6 +32,14 @@ public class VCloudNetworkAdapter extends ResourceAllocationSettingData {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromVCloudNetworkAdapter(this);
}
public static class Builder extends ResourceAllocationSettingData.Builder {
private String ipAddress;
private boolean primaryNetworkConnection;
@ -312,11 +320,6 @@ public class VCloudNetworkAdapter extends ResourceAllocationSettingData {
return ipAddressingMode;
}
@Override
public Builder toBuilder() {
return builder().fromVCloudNetworkAdapter(this);
}
@Override
public String toString() {
return String

View File

@ -22,18 +22,127 @@ import java.net.URI;
import org.jclouds.cim.ResourceAllocationSettingData;
import org.jclouds.cim.VirtualSystemSettingData;
import org.jclouds.ovf.Section;
import org.jclouds.ovf.VirtualHardwareSection;
/**
* A description of the virtual hardware supported by a virtual machine.
*/
public class VCloudVirtualHardwareSection extends VirtualHardwareSection {
public static Builder builder() {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromVCloudVirtualHardwareSection(this);
}
public static class Builder extends VirtualHardwareSection.Builder {
protected String type;
protected URI href;
/**
* @see VCloudVirtualHardware#getType
*/
public Builder type(String type) {
this.type = type;
return this;
}
/**
* @see VCloudVirtualHardware#getHref
*/
public Builder href(URI href) {
this.href = href;
return this;
}
/**
* {@inheritDoc}
*/
@Override
public Builder system(VirtualSystemSettingData virtualSystem) {
return Builder.class.cast(super.system(virtualSystem));
}
/**
* {@inheritDoc}
*/
@Override
public Builder transport(String transport) {
return Builder.class.cast(super.transport(transport));
}
/**
* {@inheritDoc}
*/
@Override
public Builder transports(Iterable<String> transports) {
return Builder.class.cast(super.transports(transports));
}
/**
* {@inheritDoc}
*/
@Override
public Builder item(ResourceAllocationSettingData item) {
return Builder.class.cast(super.item(item));
}
/**
* {@inheritDoc}
*/
@Override
public Builder items(Iterable<? extends ResourceAllocationSettingData> items) {
return Builder.class.cast(super.items(items));
}
/**
* {@inheritDoc}
*/
@Override
public VCloudVirtualHardwareSection build() {
return new VCloudVirtualHardwareSection(type, href, info, transports, virtualSystem, items);
}
public Builder fromVCloudVirtualHardwareSection(VCloudVirtualHardwareSection in) {
return fromVirtualHardwareSection(in).type(in.getType()).href(in.getHref());
}
/**
* {@inheritDoc}
*/
@Override
public Builder fromVirtualHardwareSection(VirtualHardwareSection in) {
return Builder.class.cast(super.fromVirtualHardwareSection(in));
}
/**
* {@inheritDoc}
*/
@Override
public Builder fromSection(Section<VirtualHardwareSection> in) {
return Builder.class.cast(super.fromSection(in));
}
/**
* {@inheritDoc}
*/
@Override
public Builder info(String info) {
return Builder.class.cast(super.info(info));
}
}
protected final String type;
protected final URI href;
public VCloudVirtualHardwareSection(String type, URI href, String info, Iterable<String> transports,
VirtualSystemSettingData virtualSystem,
Iterable<? extends ResourceAllocationSettingData> resourceAllocations) {
VirtualSystemSettingData virtualSystem, Iterable<? extends ResourceAllocationSettingData> resourceAllocations) {
super(info, transports, virtualSystem, resourceAllocations);
this.type = type;
this.href = href;

View File

@ -36,7 +36,7 @@ import org.testng.annotations.Test;
*
* @author Adrian Cole
*/
@Test(groups = "live", sequential = true)
@Test(groups = "live", singleThreaded = true)
public class VCloudClientLiveTest extends CommonVCloudClientLiveTest<VCloudClient, VCloudAsyncClient> {
@Test

View File

@ -193,7 +193,6 @@ public interface VCloudMediaType {
*/
public final static MediaType VAPPTEMPLATE_XML_TYPE = new MediaType("application",
"vnd.vmware.vcloud.vAppTemplate+xml");
/**
* "application/vnd.vmware.vcloud.network+xml"
*/

View File

@ -18,6 +18,7 @@
*/
package org.jclouds.cim;
/**
*
* ManagedElement is an abstract class that provides a common superclass (or top of the inheritance
@ -30,6 +31,17 @@ package org.jclouds.cim;
*
*/
public abstract class ManagedElement extends SettingData {
public static Builder builder() {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromManagedElement(this);
}
public static class Builder extends SettingData.Builder {
protected String caption;

View File

@ -31,16 +31,18 @@ import com.google.common.collect.Maps;
/**
*
* The ResourceAllocationSettingData class represents settings specifically related to an allocated
* resource that are outside the scope of the CIM class typically used to represent the resource
* itself. These settings include information specific to the allocation that may not be visible to
* the consumer of the resource itself. For example, a virtual processor may look like a 2 ghz
* processor to the consumer (virtual computer system), however the virtualization system may use
* time-slicing to schedule the the virtual processor to only allow it to use 1 ghz.
* The ResourceAllocationSettingData class represents settings specifically
* related to an allocated resource that are outside the scope of the CIM class
* typically used to represent the resource itself. These settings include
* information specific to the allocation that may not be visible to the
* consumer of the resource itself. For example, a virtual processor may look
* like a 2 ghz processor to the consumer (virtual computer system), however the
* virtualization system may use time-slicing to schedule the the virtual
* processor to only allow it to use 1 ghz.
*
* @author Adrian Cole
* @see <a
* href="http://dmtf.org/sites/default/files/cim/cim_schema_v2280/cim_schema_2.28.0Final-Doc.zip"
* @see <a href=
* "http://dmtf.org/sites/default/files/cim/cim_schema_v2280/cim_schema_2.28.0Final-Doc.zip"
* />
*
*/
@ -50,6 +52,14 @@ public class ResourceAllocationSettingData extends ManagedElement {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromResourceAllocationSettingData(this);
}
public static class Builder extends ManagedElement.Builder {
protected String address;
@ -242,22 +252,29 @@ public class ResourceAllocationSettingData extends ManagedElement {
public ResourceAllocationSettingData build() {
return new ResourceAllocationSettingData(elementName, instanceID, caption, description, address,
addressOnParent, allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility,
limit, mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType,
resourceType, virtualQuantity, virtualQuantityUnits, weight, connections, hostResources);
addressOnParent, allocationUnits, automaticAllocation, automaticDeallocation, consumerVisibility, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight, connections, hostResources);
}
public Builder fromResourceAllocationSettingData(ResourceAllocationSettingData in) {
return elementName(in.getElementName()).instanceID(in.getInstanceID()).caption(in.getCaption()).description(
in.getDescription()).address(in.getAddress()).addressOnParent(in.getAddressOnParent())
return fromManagedElement(in).address(in.getAddress()).addressOnParent(in.getAddressOnParent())
.allocationUnits(in.getAllocationUnits()).automaticAllocation(in.isAutomaticAllocation())
.automaticDeallocation(in.isAutomaticDeallocation()).consumerVisibility(in.getConsumerVisibility())
.limit(in.getLimit()).mappingBehavior(in.getMappingBehavior()).otherResourceType(
in.getOtherResourceType()).parent(in.getParent()).poolID(in.getPoolID()).reservation(
in.getReservation()).resourceSubType(in.getResourceSubType()).resourceType(
in.getResourceType()).virtualQuantity(in.getVirtualQuantity()).virtualQuantityUnits(
in.getVirtualQuantityUnits()).weight(in.getWeight()).connections(in.getConnections())
.hostResources(in.getHostResources());
.limit(in.getLimit()).mappingBehavior(in.getMappingBehavior())
.otherResourceType(in.getOtherResourceType()).parent(in.getParent()).poolID(in.getPoolID())
.reservation(in.getReservation()).resourceSubType(in.getResourceSubType())
.resourceType(in.getResourceType()).virtualQuantity(in.getVirtualQuantity())
.virtualQuantityUnits(in.getVirtualQuantityUnits()).weight(in.getWeight())
.connections(in.getConnections()).hostResources(in.getHostResources());
}
/**
* {@inheritDoc}
*/
@Override
public Builder fromManagedElement(ManagedElement in) {
return Builder.class.cast(super.fromManagedElement(in));
}
/**
@ -300,12 +317,12 @@ public class ResourceAllocationSettingData extends ManagedElement {
public static enum ResourceType {
OTHER(1), COMPUTER_SYSTEM(2), PROCESSOR(3), MEMORY(4), IDE_CONTROLLER(5), PARALLEL_SCSI_HBA(6), FC_HBA(7), ISCSI_HBA(
8), IB_HCA(9), ETHERNET_ADAPTER(10), OTHER_NETWORK_ADAPTER(11), IO_SLOT(12), IO_DEVICE(13), FLOPPY_DRIVE(
14), CD_DRIVE(15), DVD_DRIVE(16), DISK_DRIVE(17), TAPE_DRIVE(18), STORAGE_EXTENT(19), OTHER_STORAGE_DEVICE(
20), SERIAL_PORT(21), PARALLEL_PORT(22), USB_CONTROLLER(23), GRAPHICS_CONTROLLER(24), IEEE_1394_CONTROLLER(
25), PARTITIONABLE_UNIT(26), BASE_PARTITIONABLE_UNIT(27), POWER(28), COOLING_CAPACITY(29), ETHERNET_SWITCH_PORT(
30), LOGICAL_DISK(31), STORAGE_VOLUME(32), ETHERNET_CONNECTION(33), DMTF_RESERVED(Integer.valueOf(
"8000", 16)), VENDOR_RESERVED(Integer.valueOf("FFFF", 16));
8), IB_HCA(9), ETHERNET_ADAPTER(10), OTHER_NETWORK_ADAPTER(11), IO_SLOT(12), IO_DEVICE(13), FLOPPY_DRIVE(14), CD_DRIVE(
15), DVD_DRIVE(16), DISK_DRIVE(17), TAPE_DRIVE(18), STORAGE_EXTENT(19), OTHER_STORAGE_DEVICE(20), SERIAL_PORT(
21), PARALLEL_PORT(22), USB_CONTROLLER(23), GRAPHICS_CONTROLLER(24), IEEE_1394_CONTROLLER(25), PARTITIONABLE_UNIT(
26), BASE_PARTITIONABLE_UNIT(27), POWER(28), COOLING_CAPACITY(29), ETHERNET_SWITCH_PORT(30), LOGICAL_DISK(
31), STORAGE_VOLUME(32), ETHERNET_CONNECTION(33), DMTF_RESERVED(Integer.valueOf("8000", 16)), VENDOR_RESERVED(
Integer.valueOf("FFFF", 16));
protected final int code;
@ -317,8 +334,8 @@ public class ResourceAllocationSettingData extends ManagedElement {
return code + "";
}
protected final static Map<Integer, ResourceType> RESOURCE_TYPE_BY_ID = Maps.uniqueIndex(ImmutableSet
.copyOf(ResourceType.values()), new Function<ResourceType, Integer>() {
protected final static Map<Integer, ResourceType> RESOURCE_TYPE_BY_ID = Maps.uniqueIndex(
ImmutableSet.copyOf(ResourceType.values()), new Function<ResourceType, Integer>() {
@Override
public Integer apply(ResourceType input) {
@ -338,20 +355,21 @@ public class ResourceAllocationSettingData extends ManagedElement {
public static enum ConsumerVisibility {
UNKNOWN(0),
/**
* indicates the underlying or host resource is utilized and passed through to the consumer,
* possibly using partitioning. At least one item shall be present in the HostResource
* property.
* indicates the underlying or host resource is utilized and passed
* through to the consumer, possibly using partitioning. At least one item
* shall be present in the HostResource property.
*/
PASSED_THROUGH(2),
/**
* indicates the resource is virtualized and may not map directly to an underlying/host
* resource. Some implementations may support specific assignment for virtualized resources,
* in which case the host resource(s) are exposed using the HostResource property.
* indicates the resource is virtualized and may not map directly to an
* underlying/host resource. Some implementations may support specific
* assignment for virtualized resources, in which case the host
* resource(s) are exposed using the HostResource property.
*/
VIRTUALIZED(3),
/**
* indicates a representation of the resource does not exist within the context of the
* resource consumer.
* indicates a representation of the resource does not exist within the
* context of the resource consumer.
*/
NOT_REPRESENTED(4), DMTF_RESERVED(32767), VENDOR_RESERVED(65535);
@ -365,8 +383,8 @@ public class ResourceAllocationSettingData extends ManagedElement {
return code + "";
}
protected final static Map<Integer, ConsumerVisibility> MAPPING_BEHAVIOR_BY_ID = Maps.uniqueIndex(ImmutableSet
.copyOf(ConsumerVisibility.values()), new Function<ConsumerVisibility, Integer>() {
protected final static Map<Integer, ConsumerVisibility> MAPPING_BEHAVIOR_BY_ID = Maps.uniqueIndex(
ImmutableSet.copyOf(ConsumerVisibility.values()), new Function<ConsumerVisibility, Integer>() {
@Override
public Integer apply(ConsumerVisibility input) {
@ -381,8 +399,9 @@ public class ResourceAllocationSettingData extends ManagedElement {
}
/**
* Specifies how this resource maps to underlying resourcesIf the HostResource array contains any
* entries, this property reflects how the resource maps to those specific resources.
* Specifies how this resource maps to underlying resourcesIf the
* HostResource array contains any entries, this property reflects how the
* resource maps to those specific resources.
*/
public static enum MappingBehavior {
UNKNOWN(0), NOT_SUPPORTED(2), DEDICATED(3), SOFT_AFFINITY(4), HARD_AFFINITY(5), DMTF_RESERVED(32767), VENDOR_RESERVED(
@ -398,8 +417,8 @@ public class ResourceAllocationSettingData extends ManagedElement {
return code + "";
}
protected final static Map<Integer, MappingBehavior> MAPPING_BEHAVIOR_BY_ID = Maps.uniqueIndex(ImmutableSet
.copyOf(MappingBehavior.values()), new Function<MappingBehavior, Integer>() {
protected final static Map<Integer, MappingBehavior> MAPPING_BEHAVIOR_BY_ID = Maps.uniqueIndex(
ImmutableSet.copyOf(MappingBehavior.values()), new Function<MappingBehavior, Integer>() {
@Override
public Integer apply(MappingBehavior input) {
@ -462,7 +481,8 @@ public class ResourceAllocationSettingData extends ManagedElement {
}
/**
* The address of the resource. For example, the MAC address of a Ethernet port.
* The address of the resource. For example, the MAC address of a Ethernet
* port.
*/
public String getAddress() {
return address;
@ -470,41 +490,47 @@ public class ResourceAllocationSettingData extends ManagedElement {
/**
* Describes the address of this resource in the context of the Parent. The
* Parent/AddressOnParent properties are used to describe the controller relationship as well the
* ordering of devices on a controller.For example, if the parent is a PCI Controller, this
* property would specify the PCI slot of this child device.
* Parent/AddressOnParent properties are used to describe the controller
* relationship as well the ordering of devices on a controller.For example,
* if the parent is a PCI Controller, this property would specify the PCI
* slot of this child device.
*/
public String getAddressOnParent() {
return addressOnParent;
}
/**
* This property specifies the units of allocation used by the Reservation and Limit properties.
* For example, when ResourceType=Processor, AllocationUnits may be set to hertz*10^6 or percent.
* When ResourceType=Memory, AllocationUnits may be set to bytes*10^3. It is expected that
* profiles constrain the units that apply in context of particular resource types. The value of
* this property shall be a legal value of the Programmatic Units qualifier as defined in Annex
* C.1 of DSP0004 V2.5 or later.
* This property specifies the units of allocation used by the Reservation
* and Limit properties. For example, when ResourceType=Processor,
* AllocationUnits may be set to hertz*10^6 or percent. When
* ResourceType=Memory, AllocationUnits may be set to bytes*10^3. It is
* expected that profiles constrain the units that apply in context of
* particular resource types. The value of this property shall be a legal
* value of the Programmatic Units qualifier as defined in Annex C.1 of
* DSP0004 V2.5 or later.
*/
public String getAllocationUnits() {
return allocationUnits;
}
/**
* This property specifies if the resource will be automatically allocated. For example when set
* to true, when the consuming virtual computer system is powered on, this resource would be
* allocated. A value of false indicates the resource must be explicitly allocated. For example,
* the setting may represent removable media (cdrom, floppy, etc.) where at power on time, the
* media is not present. An explicit operation is required to allocate the resource.
* This property specifies if the resource will be automatically allocated.
* For example when set to true, when the consuming virtual computer system
* is powered on, this resource would be allocated. A value of false
* indicates the resource must be explicitly allocated. For example, the
* setting may represent removable media (cdrom, floppy, etc.) where at power
* on time, the media is not present. An explicit operation is required to
* allocate the resource.
*/
public Boolean isAutomaticAllocation() {
return automaticAllocation;
}
/**
* This property specifies if the resource will be automatically de-allocated. For example, when
* set to true, when the consuming virtual computer system is powered off, this resource would be
* de-allocated. When set to false, the resource will remain allocated and must be explicitly
* This property specifies if the resource will be automatically
* de-allocated. For example, when set to true, when the consuming virtual
* computer system is powered off, this resource would be de-allocated. When
* set to false, the resource will remain allocated and must be explicitly
* de-allocated.
*/
public Boolean isAutomaticDeallocation() {
@ -519,60 +545,66 @@ public class ResourceAllocationSettingData extends ManagedElement {
}
/**
* This property specifies the upper bound, or maximum amount of resource that will be granted
* for this allocation. For example, a system which supports memory paging may support setting
* the Limit of a Memory allocation below that of the VirtualQuantity, thus forcing paging to
* occur for this allocation. The value of the Limit property is expressed in the unit specified
* by the value of the AllocationUnits property.
* This property specifies the upper bound, or maximum amount of resource
* that will be granted for this allocation. For example, a system which
* supports memory paging may support setting the Limit of a Memory
* allocation below that of the VirtualQuantity, thus forcing paging to occur
* for this allocation. The value of the Limit property is expressed in the
* unit specified by the value of the AllocationUnits property.
*/
public Long getLimit() {
return limit;
}
/**
* Specifies how this resource maps to underlying resourcesIf the HostResource array contains any
* entries, this property reflects how the resource maps to those specific resources.
* Specifies how this resource maps to underlying resourcesIf the
* HostResource array contains any entries, this property reflects how the
* resource maps to those specific resources.
*/
public MappingBehavior getMappingBehavior() {
return mappingBehavior;
}
/**
* A string that describes the resource type when a well defined value is not available and
* ResourceType has the value "Other".
* A string that describes the resource type when a well defined value is not
* available and ResourceType has the value "Other".
*/
public String getOtherResourceType() {
return otherResourceType;
}
/**
* The Parent of the resource. For example, a controller for the current allocation
* The Parent of the resource. For example, a controller for the current
* allocation
*/
public String getParent() {
return parent;
}
/**
* This property specifies which ResourcePool the resource is currently allocated from, or which
* ResourcePool the resource will be allocated from when the allocation occurs.
* This property specifies which ResourcePool the resource is currently
* allocated from, or which ResourcePool the resource will be allocated from
* when the allocation occurs.
*/
public String getPoolID() {
return poolID;
}
/**
* This property specifies the amount of resource guaranteed to be available for this allocation.
* On system which support over-commitment of resources, this value is typically used for
* admission control to prevent an an allocation from being accepted thus preventing starvation.
* The value of the Reservation property is expressed in the unit specified by the value of the
* AllocationUnits property.
* This property specifies the amount of resource guaranteed to be available
* for this allocation. On system which support over-commitment of resources,
* this value is typically used for admission control to prevent an an
* allocation from being accepted thus preventing starvation. The value of
* the Reservation property is expressed in the unit specified by the value
* of the AllocationUnits property.
*/
public Long getReservation() {
return reservation;
}
/**
* A string describing an implementation specific sub-type for this resource. F
* A string describing an implementation specific sub-type for this resource.
* F
*/
public String getResourceSubType() {
return resourceSubType;
@ -586,79 +618,83 @@ public class ResourceAllocationSettingData extends ManagedElement {
}
/**
* This property specifies the quantity of resources presented to the consumer. For example, when
* ResourceType=Processor, this property would reflect the number of discrete Processors
* presented to the virtual computer system. When ResourceType=Memory, this property could
* reflect the number of MB reported to the virtual computer system. The value of the
* VirtualQuantity property should be expressed in units as defined by the value of the
* VirtualQuantityUnits property.
* This property specifies the quantity of resources presented to the
* consumer. For example, when ResourceType=Processor, this property would
* reflect the number of discrete Processors presented to the virtual
* computer system. When ResourceType=Memory, this property could reflect the
* number of MB reported to the virtual computer system. The value of the
* VirtualQuantity property should be expressed in units as defined by the
* value of the VirtualQuantityUnits property.
*/
public Long getVirtualQuantity() {
return virtualQuantity;
}
/**
* This property specifies the units used by the VirtualQuantity property. For example - if
* ResourceType=Processor, the value of the VirtualQuantityUnits property may be set to "count",
* indicating that the value of the VirtualQuantity property is expressed as a count. - if
* ResourceType=Memory, the value of the VirtualQuantityUnits property may be set to
* "bytes*10^3", indicating that the value of the VirtualQuantity property is expressed in
* kilobyte. It is expected that profiles constrain the units that apply in context of particular
* resource types. The value of this property shall be a legal value of the Programmatic Units
* qualifier as defined in Annex C.1 of DSP0004 V2.5 or later.
* This property specifies the units used by the VirtualQuantity property.
* For example - if ResourceType=Processor, the value of the
* VirtualQuantityUnits property may be set to "count", indicating that the
* value of the VirtualQuantity property is expressed as a count. - if
* ResourceType=Memory, the value of the VirtualQuantityUnits property may be
* set to "bytes*10^3", indicating that the value of the VirtualQuantity
* property is expressed in kilobyte. It is expected that profiles constrain
* the units that apply in context of particular resource types. The value of
* this property shall be a legal value of the Programmatic Units qualifier
* as defined in Annex C.1 of DSP0004 V2.5 or later.
*/
public String getVirtualQuantityUnits() {
return virtualQuantityUnits;
}
/**
* This property specifies a relative priority for this allocation in relation to other
* allocations from the same ResourcePool. This property has no unit of measure, and is only
* relevant when compared to other allocations vying for the same host resources.
* This property specifies a relative priority for this allocation in
* relation to other allocations from the same ResourcePool. This property
* has no unit of measure, and is only relevant when compared to other
* allocations vying for the same host resources.
*/
public Integer getWeight() {
return weight;
}
/**
* The thing to which this resource is connected. For example, a named network or switch port.
* The thing to which this resource is connected. For example, a named
* network or switch port.
*/
public List<String> getConnections() {
return connections;
}
/**
* This property exposes specific assignment of resources. Each non-null value of the
* HostResource property shall be formated as a URI per RFC3986. If this resource is modeled then
* a value should be a WBEM URI (DSP0207). If the resource is not modeled then see the
* appropriate profile. Profiles may further constrain the type of URI. A NULL value or empty
* array requests the implementation decide the kind of host resource. If the virtual resource is
* mapped to more than oneunderlying resource, this property may be left NULL. If NULL, the
* DeviceAllocatedFromPool or ResourceAllocationFromPool associations may be used to determine
* the pool of host resources this virtual resource may use. If specific assignment is utilized,
* all underlying resources used by this virtual resource should be listed.The kind of dependency
* is specified by the ConsumerVisibility and the MappingBehavior properties. Typically the array
* contains one item, however multiple host resources may be specified. A client may set the
* value(s) to indicate that the requested virtual resource allocation be based on host resources
* that are identified by element values.
* This property exposes specific assignment of resources. Each non-null
* value of the HostResource property shall be formated as a URI per RFC3986.
* If this resource is modeled then a value should be a WBEM URI (DSP0207).
* If the resource is not modeled then see the appropriate profile. Profiles
* may further constrain the type of URI. A NULL value or empty array
* requests the implementation decide the kind of host resource. If the
* virtual resource is mapped to more than oneunderlying resource, this
* property may be left NULL. If NULL, the DeviceAllocatedFromPool or
* ResourceAllocationFromPool associations may be used to determine the pool
* of host resources this virtual resource may use. If specific assignment is
* utilized, all underlying resources used by this virtual resource should be
* listed.The kind of dependency is specified by the ConsumerVisibility and
* the MappingBehavior properties. Typically the array contains one item,
* however multiple host resources may be specified. A client may set the
* value(s) to indicate that the requested virtual resource allocation be
* based on host resources that are identified by element values.
*/
public List<String> getHostResources() {
return hostResources;
}
public Builder toBuilder() {
return new Builder().fromResourceAllocationSettingData(this);
}
@Override
public String toString() {
return String
.format(
"[elementName=%s, instanceID=%s, caption=%s, description=%s, address=%s, addressOnParent=%s, allocationUnits=%s, automaticAllocation=%s, automaticDeallocation=%s, connections=%s, consumerVisibility=%s, hostResources=%s, limit=%s, mappingBehavior=%s, otherResourceType=%s, parent=%s, poolID=%s, reservation=%s, resourceSubType=%s, resourceType=%s, virtualQuantity=%s, virtualQuantityUnits=%s, weight=%s]",
elementName, instanceID, caption, description, address, addressOnParent, allocationUnits,
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources,
limit, mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType,
resourceType, virtualQuantity, virtualQuantityUnits, weight);
automaticAllocation, automaticDeallocation, connections, consumerVisibility, hostResources, limit,
mappingBehavior, otherResourceType, parent, poolID, reservation, resourceSubType, resourceType,
virtualQuantity, virtualQuantityUnits, weight);
}
@Override

View File

@ -36,6 +36,10 @@ public abstract class SettingData implements Comparable<SettingData> {
return new Builder();
}
public Builder toBuilder() {
return builder().fromSettingData(this);
}
public static class Builder {
protected String elementName;
protected String instanceID;

View File

@ -55,6 +55,14 @@ public class VirtualSystemSettingData extends ManagedElement {
return new Builder();
}
/**
* {@inheritDoc}
*/
@Override
public Builder toBuilder() {
return builder().fromVirtualSystemSettingData(this);
}
public static class Builder extends ManagedElement.Builder {
private AutomaticRecoveryAction automaticRecoveryAction;
private AutomaticShutdownAction automaticShutdownAction;
@ -530,10 +538,6 @@ public class VirtualSystemSettingData extends ManagedElement {
return notes;
}
public Builder toBuilder() {
return builder().fromVirtualSystemSettingData(this);
}
@Override
public int hashCode() {
final int prime = 31;

View File

@ -107,7 +107,7 @@ public class VirtualHardwareSection extends Section<VirtualHardwareSection> {
}
public Builder fromVirtualHardwareSection(VirtualHardwareSection in) {
return items(in.getItems()).transports(in.getTransports()).system(
return fromSection(in).items(in.getItems()).transports(in.getTransports()).system(
in.getSystem()).info(in.getInfo());
}

View File

@ -26,7 +26,7 @@ import org.testng.annotations.Test;
*
* @author Adrian Cole
*/
@Test(groups = "live", sequential = true)
@Test(groups = "live", singleThreaded = true)
public class BlueLockVCloudDirectorClientLiveTest extends VCloudClientLiveTest {
public BlueLockVCloudDirectorClientLiveTest() {
provider = "bluelock-vcdirector";