Struct Disk 

#[non_exhaustive]
pub struct Disk {

    pub access_mode: Option<AccessMode>,
    pub architecture: Option<Architecture>,
    pub async_primary_disk: Option<DiskAsyncReplication>,
    pub async_secondary_disks: HashMap<String, DiskAsyncReplicationList>,
    pub creation_timestamp: Option<String>,
    pub description: Option<String>,
    pub disk_encryption_key: Option<CustomerEncryptionKey>,
    pub enable_confidential_compute: Option<bool>,
    pub guest_os_features: Vec<GuestOsFeature>,
    pub id: Option<u64>,
    pub kind: Option<String>,
    pub label_fingerprint: Option<Bytes>,
    pub labels: HashMap<String, String>,
    pub last_attach_timestamp: Option<String>,
    pub last_detach_timestamp: Option<String>,
    pub license_codes: Vec<i64>,
    pub licenses: Vec<String>,
    pub location_hint: Option<String>,
    pub name: Option<String>,
    pub options: Option<String>,
    pub params: Option<DiskParams>,
    pub physical_block_size_bytes: Option<i64>,
    pub provisioned_iops: Option<i64>,
    pub provisioned_throughput: Option<i64>,
    pub region: Option<String>,
    pub replica_zones: Vec<String>,
    pub resource_policies: Vec<String>,
    pub resource_status: Option<DiskResourceStatus>,
    pub satisfies_pzi: Option<bool>,
    pub satisfies_pzs: Option<bool>,
    pub self_link: Option<String>,
    pub size_gb: Option<i64>,
    pub source_consistency_group_policy: Option<String>,
    pub source_consistency_group_policy_id: Option<String>,
    pub source_disk: Option<String>,
    pub source_disk_id: Option<String>,
    pub source_image: Option<String>,
    pub source_image_encryption_key: Option<CustomerEncryptionKey>,
    pub source_image_id: Option<String>,
    pub source_instant_snapshot: Option<String>,
    pub source_instant_snapshot_id: Option<String>,
    pub source_snapshot: Option<String>,
    pub source_snapshot_encryption_key: Option<CustomerEncryptionKey>,
    pub source_snapshot_id: Option<String>,
    pub source_storage_object: Option<String>,
    pub status: Option<Status>,
    pub storage_pool: Option<String>,
    pub type: Option<String>,
    pub users: Vec<String>,
    pub zone: Option<String>,
    /* private fields */
}

Available on crate features disks or region-disks only.

Represents a Persistent Disk resource.

Google Compute Engine has two Disk resources:

• Zonal
• Regional

Persistent disks are required for running your VM instances. Create both boot and non-boot (data) persistent disks. For more information, read Persistent Disks. For more storage options, read Storage options.

The disks resource represents a zonal persistent disk. For more information, readZonal persistent disks.

The regionDisks resource represents a regional persistent disk. For more information, read Regional resources.

Fields (Non-exhaustive)

Non-exhaustive structs could have additional fields added in future. Therefore, non-exhaustive structs cannot be constructed in external crates using the traditional Struct { .. } syntax; cannot be matched against without a wildcard ..; and struct update syntax will not work.

access_mode: Option<AccessMode>

The access mode of the disk.

 - READ_WRITE_SINGLE: The default AccessMode, means the
 disk can be attached to single instance in RW mode.
 - READ_WRITE_MANY: The AccessMode means the disk can be
 attached to multiple instances in RW mode.
 - READ_ONLY_MANY: The AccessMode means the disk can be
 attached to multiple instances in RO mode.

The AccessMode is only valid for Hyperdisk disk types.

architecture: Option<Architecture>

The architecture of the disk. Valid values are ARM64 or X86_64.

async_primary_disk: Option<DiskAsyncReplication>

Disk asynchronously replicated into this disk.

async_secondary_disks: HashMap<String, DiskAsyncReplicationList>

Output only. [Output Only] A list of disks this disk is asynchronously replicated to.

creation_timestamp: Option<String>

Output only. [Output Only] Creation timestamp inRFC3339 text format.

description: Option<String>

An optional description of this resource. Provide this property when you create the resource.

disk_encryption_key: Option<CustomerEncryptionKey>

Encrypts the disk using a customer-supplied encryption key or a customer-managed encryption key.

Encryption keys do not protect access to metadata of the disk.

After you encrypt a disk with a customer-supplied key, you must provide the same key if you use the disk later. For example, to create a disk snapshot, to create a disk image, to create a machine image, or to attach the disk to a virtual machine.

After you encrypt a disk with a customer-managed key, thediskEncryptionKey.kmsKeyName is set to a key version name once the disk is created. The disk is encrypted with this version of the key. In the response, diskEncryptionKey.kmsKeyName appears in the following format:

“diskEncryptionKey.kmsKeyName”: “projects/kms_project_id/locations/region/keyRings/ key_region/cryptoKeys/key /cryptoKeysVersions/version

If you do not provide an encryption key when creating the disk, then the disk is encrypted using an automatically generated key and you don’t need to provide a key to use the disk later.

enable_confidential_compute: Option<bool>

Whether this disk is using confidential compute mode.

guest_os_features: Vec<GuestOsFeature>

A list of features to enable on the guest operating system. Applicable only for bootable images. Read Enabling guest operating system features to see a list of available options.

id: Option<u64>

Output only. [Output Only] The unique identifier for the resource. This identifier is defined by the server.

kind: Option<String>

Output only. [Output Only] Type of the resource. Always compute#disk for disks.

label_fingerprint: Option<Bytes>

A fingerprint for the labels being applied to this disk, which is essentially a hash of the labels set used for optimistic locking. The fingerprint is initially generated by Compute Engine and changes after every request to modify or update labels. You must always provide an up-to-date fingerprint hash in order to update or change labels, otherwise the request will fail with error412 conditionNotMet.

To see the latest fingerprint, make a get() request to retrieve a disk.

labels: HashMap<String, String>

Labels to apply to this disk. These can be later modified by the setLabels method.

last_attach_timestamp: Option<String>

Output only. [Output Only] Last attach timestamp inRFC3339 text format.

last_detach_timestamp: Option<String>

Output only. [Output Only] Last detach timestamp inRFC3339 text format.

license_codes: Vec<i64>

Integer license codes indicating which licenses are attached to this disk.

licenses: Vec<String>

A list of publicly visible licenses. Reserved for Google’s use.

location_hint: Option<String>

An opaque location hint used to place the disk close to other resources. This field is for use by internal tools that use the public API.

name: Option<String>

Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply withRFC1035. Specifically, the name must be 1-63 characters long and match the regular expression [a-z]([-a-z0-9]*[a-z0-9])? which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.

options: Option<String>

Internal use only.

params: Option<DiskParams>

Input only. [Input Only] Additional params passed with the request, but not persisted as part of resource payload.

physical_block_size_bytes: Option<i64>

Physical block size of the persistent disk, in bytes. If not present in a request, a default value is used. The currently supported size is 4096, other sizes may be added in the future. If an unsupported value is requested, the error message will list the supported values for the caller’s project.

provisioned_iops: Option<i64>

Indicates how many IOPS to provision for the disk. This sets the number of I/O operations per second that the disk can handle. Values must be between 10,000 and 120,000. For more details, see theExtreme persistent disk documentation.

provisioned_throughput: Option<i64>

Indicates how much throughput to provision for the disk. This sets the number of throughput mb per second that the disk can handle. Values must be greater than or equal to 1.

region: Option<String>

Output only. [Output Only] URL of the region where the disk resides. Only applicable for regional resources. You must specify this field as part of the HTTP request URL. It is not settable as a field in the request body.

replica_zones: Vec<String>

URLs of the zones where the disk should be replicated to. Only applicable for regional resources.

resource_policies: Vec<String>

Resource policies applied to this disk for automatic snapshot creations.

resource_status: Option<DiskResourceStatus>

Output only. [Output Only] Status information for the disk resource.

satisfies_pzi: Option<bool>

Output only. Reserved for future use.

satisfies_pzs: Option<bool>

Output only. [Output Only] Reserved for future use.

self_link: Option<String>

Output only. [Output Only] Server-defined fully-qualified URL for this resource.

size_gb: Option<i64>

Size, in GB, of the persistent disk. You can specify this field when creating a persistent disk using thesourceImage, sourceSnapshot, orsourceDisk parameter, or specify it alone to create an empty persistent disk.

If you specify this field along with a source, the value ofsizeGb must not be less than the size of the source. Acceptable values are greater than 0.

source_consistency_group_policy: Option<String>

Output only. [Output Only] URL of the DiskConsistencyGroupPolicy for a secondary disk that was created using a consistency group.

source_consistency_group_policy_id: Option<String>

Output only. [Output Only] ID of the DiskConsistencyGroupPolicy for a secondary disk that was created using a consistency group.

source_disk: Option<String>

The source disk used to create this disk. You can provide this as a partial or full URL to the resource. For example, the following are valid values:

 -
   https://www.googleapis.com/compute/v1/projects/project/zones/zone/disks/disk

 -
   https://www.googleapis.com/compute/v1/projects/project/regions/region/disks/disk

 -
   projects/project/zones/zone/disks/disk

 -
   projects/project/regions/region/disks/disk

 -
   zones/zone/disks/disk

 -
   regions/region/disks/disk

source_disk_id: Option<String>

Output only. [Output Only] The unique ID of the disk used to create this disk. This value identifies the exact disk that was used to create this persistent disk. For example, if you created the persistent disk from a disk that was later deleted and recreated under the same name, the source disk ID would identify the exact version of the disk that was used.

source_image: Option<String>

The source image used to create this disk. If the source image is deleted, this field will not be set.

To create a disk with one of the public operating system images, specify the image by its family name. For example, specifyfamily/debian-9 to use the latest Debian 9 image:

projects/debian-cloud/global/images/family/debian-9

Alternatively, use a specific version of a public operating system image:

projects/debian-cloud/global/images/debian-9-stretch-vYYYYMMDD

To create a disk with a custom image that you created, specify the image name in the following format:

global/images/my-custom-image

You can also specify a custom image by its image family, which returns the latest version of the image in that family. Replace the image name with family/family-name:

global/images/family/my-image-family

source_image_encryption_key: Option<CustomerEncryptionKey>

Thecustomer-supplied encryption key of the source image. Required if the source image is protected by a customer-supplied encryption key.

source_image_id: Option<String>

Output only. [Output Only] The ID value of the image used to create this disk. This value identifies the exact image that was used to create this persistent disk. For example, if you created the persistent disk from an image that was later deleted and recreated under the same name, the source image ID would identify the exact version of the image that was used.

source_instant_snapshot: Option<String>

The source instant snapshot used to create this disk. You can provide this as a partial or full URL to the resource. For example, the following are valid values:

 - https://www.googleapis.com/compute/v1/projects/project/zones/zone/instantSnapshots/instantSnapshot
 - projects/project/zones/zone/instantSnapshots/instantSnapshot

• zones/zone/instantSnapshots/instantSnapshot

source_instant_snapshot_id: Option<String>

Output only. [Output Only] The unique ID of the instant snapshot used to create this disk. This value identifies the exact instant snapshot that was used to create this persistent disk. For example, if you created the persistent disk from an instant snapshot that was later deleted and recreated under the same name, the source instant snapshot ID would identify the exact version of the instant snapshot that was used.

source_snapshot: Option<String>

The source snapshot used to create this disk. You can provide this as a partial or full URL to the resource. For example, the following are valid values:

 - https://www.googleapis.com/compute/v1/projects/project/global/snapshots/snapshot

• projects/project/global/snapshots/snapshot
  • global/snapshots/snapshot

source_snapshot_encryption_key: Option<CustomerEncryptionKey>

Thecustomer-supplied encryption key of the source snapshot. Required if the source snapshot is protected by a customer-supplied encryption key.

source_snapshot_id: Option<String>

Output only. [Output Only] The unique ID of the snapshot used to create this disk. This value identifies the exact snapshot that was used to create this persistent disk. For example, if you created the persistent disk from a snapshot that was later deleted and recreated under the same name, the source snapshot ID would identify the exact version of the snapshot that was used.

source_storage_object: Option<String>

The full Google Cloud Storage URI where the disk image is stored. This file must be a gzip-compressed tarball whose name ends in .tar.gz or virtual machine disk whose name ends in vmdk. Valid URIs may start with gs:// or https://storage.googleapis.com/. This flag is not optimized for creating multiple disks from a source storage object. To create many disks from a source storage object, use gcloud compute images import instead.

status: Option<Status>

Output only. [Output Only] The status of disk creation.

 - CREATING: Disk is provisioning.
 - RESTORING: Source data is being copied into the
 disk.
 - FAILED: Disk creation failed.
 - READY: Disk is ready for use.
 - DELETING: Disk is deleting.

storage_pool: Option<String>

The storage pool in which the new disk is created. You can provide this as a partial or full URL to the resource. For example, the following are valid values:

 - https://www.googleapis.com/compute/v1/projects/project/zones/zone/storagePools/storagePool
 - projects/project/zones/zone/storagePools/storagePool

• zones/zone/storagePools/storagePool

type: Option<String>

URL of the disk type resource describing which disk type to use to create the disk. Provide this when creating the disk. For example:projects/project/zones/zone/diskTypes/pd-ssd. See Persistent disk types.

users: Vec<String>

Output only. [Output Only] Links to the users of the disk (attached instances) in form:projects/project/zones/zone/instances/instance

zone: Option<String>

Output only. [Output Only] URL of the zone where the disk resides. You must specify this field as part of the HTTP request URL. It is not settable as a field in the request body.

Implementations

impl Disk

pub fn new() -> Self

pub fn set_access_mode<T>(self, v: T) -> Self

where T: Into<AccessMode>,

Sets the value of access_mode.

Example

use google_cloud_compute_v1::model::disk::AccessMode;
let x0 = Disk::new().set_access_mode(AccessMode::ReadWriteMany);
let x1 = Disk::new().set_access_mode(AccessMode::ReadWriteSingle);

pub fn set_or_clear_access_mode<T>(self, v: Option<T>) -> Self

where T: Into<AccessMode>,

Sets or clears the value of access_mode.

Example

use google_cloud_compute_v1::model::disk::AccessMode;
let x0 = Disk::new().set_or_clear_access_mode(Some(AccessMode::ReadWriteMany));
let x1 = Disk::new().set_or_clear_access_mode(Some(AccessMode::ReadWriteSingle));
let x_none = Disk::new().set_or_clear_access_mode(None::<AccessMode>);

pub fn set_architecture<T>(self, v: T) -> Self

where T: Into<Architecture>,

Sets the value of architecture.

Example

use google_cloud_compute_v1::model::disk::Architecture;
let x0 = Disk::new().set_architecture(Architecture::Arm64);
let x1 = Disk::new().set_architecture(Architecture::X8664);

pub fn set_or_clear_architecture<T>(self, v: Option<T>) -> Self

where T: Into<Architecture>,

Sets or clears the value of architecture.

Example

use google_cloud_compute_v1::model::disk::Architecture;
let x0 = Disk::new().set_or_clear_architecture(Some(Architecture::Arm64));
let x1 = Disk::new().set_or_clear_architecture(Some(Architecture::X8664));
let x_none = Disk::new().set_or_clear_architecture(None::<Architecture>);

pub fn set_async_primary_disk<T>(self, v: T) -> Self

where T: Into<DiskAsyncReplication>,

Sets the value of async_primary_disk.

Example

use google_cloud_compute_v1::model::DiskAsyncReplication;
let x = Disk::new().set_async_primary_disk(DiskAsyncReplication::default()/* use setters */);

pub fn set_or_clear_async_primary_disk<T>(self, v: Option<T>) -> Self

where T: Into<DiskAsyncReplication>,

Sets or clears the value of async_primary_disk.

Example

use google_cloud_compute_v1::model::DiskAsyncReplication;
let x = Disk::new().set_or_clear_async_primary_disk(Some(DiskAsyncReplication::default()/* use setters */));
let x = Disk::new().set_or_clear_async_primary_disk(None::<DiskAsyncReplication>);

pub fn set_async_secondary_disks<T, K, V>(self, v: T) -> Self

where T: IntoIterator<Item = (K, V)>, K: Into<String>, V: Into<DiskAsyncReplicationList>,

Sets the value of async_secondary_disks.

Example

use google_cloud_compute_v1::model::DiskAsyncReplicationList;
let x = Disk::new().set_async_secondary_disks([
    ("key0", DiskAsyncReplicationList::default()/* use setters */),
    ("key1", DiskAsyncReplicationList::default()/* use (different) setters */),
]);

pub fn set_creation_timestamp<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of creation_timestamp.

Example

let x = Disk::new().set_creation_timestamp("example");

pub fn set_or_clear_creation_timestamp<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of creation_timestamp.

Example

let x = Disk::new().set_or_clear_creation_timestamp(Some("example"));
let x = Disk::new().set_or_clear_creation_timestamp(None::<String>);

pub fn set_description<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of description.

Example

let x = Disk::new().set_description("example");

pub fn set_or_clear_description<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of description.

Example

let x = Disk::new().set_or_clear_description(Some("example"));
let x = Disk::new().set_or_clear_description(None::<String>);

pub fn set_disk_encryption_key<T>(self, v: T) -> Self

where T: Into<CustomerEncryptionKey>,

Sets the value of disk_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_disk_encryption_key(CustomerEncryptionKey::default()/* use setters */);

pub fn set_or_clear_disk_encryption_key<T>(self, v: Option<T>) -> Self

where T: Into<CustomerEncryptionKey>,

Sets or clears the value of disk_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_or_clear_disk_encryption_key(Some(CustomerEncryptionKey::default()/* use setters */));
let x = Disk::new().set_or_clear_disk_encryption_key(None::<CustomerEncryptionKey>);

pub fn set_enable_confidential_compute<T>(self, v: T) -> Self

where T: Into<bool>,

Sets the value of enable_confidential_compute.

Example

let x = Disk::new().set_enable_confidential_compute(true);

pub fn set_or_clear_enable_confidential_compute<T>(self, v: Option<T>) -> Self

where T: Into<bool>,

Sets or clears the value of enable_confidential_compute.

Example

let x = Disk::new().set_or_clear_enable_confidential_compute(Some(false));
let x = Disk::new().set_or_clear_enable_confidential_compute(None::<bool>);

pub fn set_guest_os_features<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<GuestOsFeature>,

Sets the value of guest_os_features.

Example

use google_cloud_compute_v1::model::GuestOsFeature;
let x = Disk::new()
    .set_guest_os_features([
        GuestOsFeature::default()/* use setters */,
        GuestOsFeature::default()/* use (different) setters */,
    ]);

pub fn set_id<T>(self, v: T) -> Self

where T: Into<u64>,

Sets the value of id.

Example

let x = Disk::new().set_id(42_u32);

pub fn set_or_clear_id<T>(self, v: Option<T>) -> Self

where T: Into<u64>,

Sets or clears the value of id.

Example

let x = Disk::new().set_or_clear_id(Some(42_u32));
let x = Disk::new().set_or_clear_id(None::<u32>);

pub fn set_kind<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of kind.

Example

let x = Disk::new().set_kind("example");

pub fn set_or_clear_kind<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of kind.

Example

let x = Disk::new().set_or_clear_kind(Some("example"));
let x = Disk::new().set_or_clear_kind(None::<String>);

pub fn set_label_fingerprint<T>(self, v: T) -> Self

where T: Into<Bytes>,

Sets the value of label_fingerprint.

Example

let x = Disk::new().set_label_fingerprint(bytes::Bytes::from_static(b"example"));

pub fn set_or_clear_label_fingerprint<T>(self, v: Option<T>) -> Self

where T: Into<Bytes>,

Sets or clears the value of label_fingerprint.

Example

let x = Disk::new().set_or_clear_label_fingerprint(Some(bytes::Bytes::from_static(b"example")));
let x = Disk::new().set_or_clear_label_fingerprint(None::<bytes::Bytes>);

pub fn set_labels<T, K, V>(self, v: T) -> Self

where T: IntoIterator<Item = (K, V)>, K: Into<String>, V: Into<String>,

Sets the value of labels.

Example

let x = Disk::new().set_labels([
    ("key0", "abc"),
    ("key1", "xyz"),
]);

pub fn set_last_attach_timestamp<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of last_attach_timestamp.

Example

let x = Disk::new().set_last_attach_timestamp("example");

pub fn set_or_clear_last_attach_timestamp<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of last_attach_timestamp.

Example

let x = Disk::new().set_or_clear_last_attach_timestamp(Some("example"));
let x = Disk::new().set_or_clear_last_attach_timestamp(None::<String>);

pub fn set_last_detach_timestamp<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of last_detach_timestamp.

Example

let x = Disk::new().set_last_detach_timestamp("example");

pub fn set_or_clear_last_detach_timestamp<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of last_detach_timestamp.

Example

let x = Disk::new().set_or_clear_last_detach_timestamp(Some("example"));
let x = Disk::new().set_or_clear_last_detach_timestamp(None::<String>);

pub fn set_license_codes<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<i64>,

Sets the value of license_codes.

Example

let x = Disk::new().set_license_codes([1, 2, 3]);

pub fn set_licenses<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<String>,

Sets the value of licenses.

Example

let x = Disk::new().set_licenses(["a", "b", "c"]);

pub fn set_location_hint<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of location_hint.

Example

let x = Disk::new().set_location_hint("example");

pub fn set_or_clear_location_hint<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of location_hint.

Example

let x = Disk::new().set_or_clear_location_hint(Some("example"));
let x = Disk::new().set_or_clear_location_hint(None::<String>);

pub fn set_name<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of name.

Example

let x = Disk::new().set_name("example");

pub fn set_or_clear_name<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of name.

Example

let x = Disk::new().set_or_clear_name(Some("example"));
let x = Disk::new().set_or_clear_name(None::<String>);

pub fn set_options<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of options.

Example

let x = Disk::new().set_options("example");

pub fn set_or_clear_options<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of options.

Example

let x = Disk::new().set_or_clear_options(Some("example"));
let x = Disk::new().set_or_clear_options(None::<String>);

pub fn set_params<T>(self, v: T) -> Self

where T: Into<DiskParams>,

Sets the value of params.

Example

use google_cloud_compute_v1::model::DiskParams;
let x = Disk::new().set_params(DiskParams::default()/* use setters */);

pub fn set_or_clear_params<T>(self, v: Option<T>) -> Self

where T: Into<DiskParams>,

Sets or clears the value of params.

Example

use google_cloud_compute_v1::model::DiskParams;
let x = Disk::new().set_or_clear_params(Some(DiskParams::default()/* use setters */));
let x = Disk::new().set_or_clear_params(None::<DiskParams>);

pub fn set_physical_block_size_bytes<T>(self, v: T) -> Self

where T: Into<i64>,

Sets the value of physical_block_size_bytes.

Example

let x = Disk::new().set_physical_block_size_bytes(42);

pub fn set_or_clear_physical_block_size_bytes<T>(self, v: Option<T>) -> Self

where T: Into<i64>,

Sets or clears the value of physical_block_size_bytes.

Example

let x = Disk::new().set_or_clear_physical_block_size_bytes(Some(42));
let x = Disk::new().set_or_clear_physical_block_size_bytes(None::<i32>);

pub fn set_provisioned_iops<T>(self, v: T) -> Self

where T: Into<i64>,

Sets the value of provisioned_iops.

Example

let x = Disk::new().set_provisioned_iops(42);

pub fn set_or_clear_provisioned_iops<T>(self, v: Option<T>) -> Self

where T: Into<i64>,

Sets or clears the value of provisioned_iops.

Example

let x = Disk::new().set_or_clear_provisioned_iops(Some(42));
let x = Disk::new().set_or_clear_provisioned_iops(None::<i32>);

pub fn set_provisioned_throughput<T>(self, v: T) -> Self

where T: Into<i64>,

Sets the value of provisioned_throughput.

Example

let x = Disk::new().set_provisioned_throughput(42);

pub fn set_or_clear_provisioned_throughput<T>(self, v: Option<T>) -> Self

where T: Into<i64>,

Sets or clears the value of provisioned_throughput.

Example

let x = Disk::new().set_or_clear_provisioned_throughput(Some(42));
let x = Disk::new().set_or_clear_provisioned_throughput(None::<i32>);

pub fn set_region<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of region.

Example

let x = Disk::new().set_region("example");

pub fn set_or_clear_region<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of region.

Example

let x = Disk::new().set_or_clear_region(Some("example"));
let x = Disk::new().set_or_clear_region(None::<String>);

pub fn set_replica_zones<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<String>,

Sets the value of replica_zones.

Example

let x = Disk::new().set_replica_zones(["a", "b", "c"]);

pub fn set_resource_policies<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<String>,

Sets the value of resource_policies.

Example

let x = Disk::new().set_resource_policies(["a", "b", "c"]);

pub fn set_resource_status<T>(self, v: T) -> Self

where T: Into<DiskResourceStatus>,

Sets the value of resource_status.

Example

use google_cloud_compute_v1::model::DiskResourceStatus;
let x = Disk::new().set_resource_status(DiskResourceStatus::default()/* use setters */);

pub fn set_or_clear_resource_status<T>(self, v: Option<T>) -> Self

where T: Into<DiskResourceStatus>,

Sets or clears the value of resource_status.

Example

use google_cloud_compute_v1::model::DiskResourceStatus;
let x = Disk::new().set_or_clear_resource_status(Some(DiskResourceStatus::default()/* use setters */));
let x = Disk::new().set_or_clear_resource_status(None::<DiskResourceStatus>);

pub fn set_satisfies_pzi<T>(self, v: T) -> Self

where T: Into<bool>,

Sets the value of satisfies_pzi.

Example

let x = Disk::new().set_satisfies_pzi(true);

pub fn set_or_clear_satisfies_pzi<T>(self, v: Option<T>) -> Self

where T: Into<bool>,

Sets or clears the value of satisfies_pzi.

Example

let x = Disk::new().set_or_clear_satisfies_pzi(Some(false));
let x = Disk::new().set_or_clear_satisfies_pzi(None::<bool>);

pub fn set_satisfies_pzs<T>(self, v: T) -> Self

where T: Into<bool>,

Sets the value of satisfies_pzs.

Example

let x = Disk::new().set_satisfies_pzs(true);

pub fn set_or_clear_satisfies_pzs<T>(self, v: Option<T>) -> Self

where T: Into<bool>,

Sets or clears the value of satisfies_pzs.

Example

let x = Disk::new().set_or_clear_satisfies_pzs(Some(false));
let x = Disk::new().set_or_clear_satisfies_pzs(None::<bool>);

pub fn set_self_link<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of self_link.

Example

let x = Disk::new().set_self_link("example");

pub fn set_or_clear_self_link<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of self_link.

Example

let x = Disk::new().set_or_clear_self_link(Some("example"));
let x = Disk::new().set_or_clear_self_link(None::<String>);

pub fn set_size_gb<T>(self, v: T) -> Self

where T: Into<i64>,

Sets the value of size_gb.

Example

let x = Disk::new().set_size_gb(42);

pub fn set_or_clear_size_gb<T>(self, v: Option<T>) -> Self

where T: Into<i64>,

Sets or clears the value of size_gb.

Example

let x = Disk::new().set_or_clear_size_gb(Some(42));
let x = Disk::new().set_or_clear_size_gb(None::<i32>);

pub fn set_source_consistency_group_policy<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_consistency_group_policy.

Example

let x = Disk::new().set_source_consistency_group_policy("example");

pub fn set_or_clear_source_consistency_group_policy<T>( self, v: Option<T>, ) -> Self

where T: Into<String>,

Sets or clears the value of source_consistency_group_policy.

Example

let x = Disk::new().set_or_clear_source_consistency_group_policy(Some("example"));
let x = Disk::new().set_or_clear_source_consistency_group_policy(None::<String>);

pub fn set_source_consistency_group_policy_id<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_consistency_group_policy_id.

Example

let x = Disk::new().set_source_consistency_group_policy_id("example");

pub fn set_or_clear_source_consistency_group_policy_id<T>( self, v: Option<T>, ) -> Self

where T: Into<String>,

Sets or clears the value of source_consistency_group_policy_id.

Example

let x = Disk::new().set_or_clear_source_consistency_group_policy_id(Some("example"));
let x = Disk::new().set_or_clear_source_consistency_group_policy_id(None::<String>);

pub fn set_source_disk<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_disk.

Example

let x = Disk::new().set_source_disk("example");

pub fn set_or_clear_source_disk<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_disk.

Example

let x = Disk::new().set_or_clear_source_disk(Some("example"));
let x = Disk::new().set_or_clear_source_disk(None::<String>);

pub fn set_source_disk_id<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_disk_id.

Example

let x = Disk::new().set_source_disk_id("example");

pub fn set_or_clear_source_disk_id<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_disk_id.

Example

let x = Disk::new().set_or_clear_source_disk_id(Some("example"));
let x = Disk::new().set_or_clear_source_disk_id(None::<String>);

pub fn set_source_image<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_image.

Example

let x = Disk::new().set_source_image("example");

pub fn set_or_clear_source_image<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_image.

Example

let x = Disk::new().set_or_clear_source_image(Some("example"));
let x = Disk::new().set_or_clear_source_image(None::<String>);

pub fn set_source_image_encryption_key<T>(self, v: T) -> Self

where T: Into<CustomerEncryptionKey>,

Sets the value of source_image_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_source_image_encryption_key(CustomerEncryptionKey::default()/* use setters */);

pub fn set_or_clear_source_image_encryption_key<T>(self, v: Option<T>) -> Self

where T: Into<CustomerEncryptionKey>,

Sets or clears the value of source_image_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_or_clear_source_image_encryption_key(Some(CustomerEncryptionKey::default()/* use setters */));
let x = Disk::new().set_or_clear_source_image_encryption_key(None::<CustomerEncryptionKey>);

pub fn set_source_image_id<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_image_id.

Example

let x = Disk::new().set_source_image_id("example");

pub fn set_or_clear_source_image_id<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_image_id.

Example

let x = Disk::new().set_or_clear_source_image_id(Some("example"));
let x = Disk::new().set_or_clear_source_image_id(None::<String>);

pub fn set_source_instant_snapshot<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_instant_snapshot.

Example

let x = Disk::new().set_source_instant_snapshot("example");

pub fn set_or_clear_source_instant_snapshot<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_instant_snapshot.

Example

let x = Disk::new().set_or_clear_source_instant_snapshot(Some("example"));
let x = Disk::new().set_or_clear_source_instant_snapshot(None::<String>);

pub fn set_source_instant_snapshot_id<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_instant_snapshot_id.

Example

let x = Disk::new().set_source_instant_snapshot_id("example");

pub fn set_or_clear_source_instant_snapshot_id<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_instant_snapshot_id.

Example

let x = Disk::new().set_or_clear_source_instant_snapshot_id(Some("example"));
let x = Disk::new().set_or_clear_source_instant_snapshot_id(None::<String>);

pub fn set_source_snapshot<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_snapshot.

Example

let x = Disk::new().set_source_snapshot("example");

pub fn set_or_clear_source_snapshot<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_snapshot.

Example

let x = Disk::new().set_or_clear_source_snapshot(Some("example"));
let x = Disk::new().set_or_clear_source_snapshot(None::<String>);

pub fn set_source_snapshot_encryption_key<T>(self, v: T) -> Self

where T: Into<CustomerEncryptionKey>,

Sets the value of source_snapshot_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_source_snapshot_encryption_key(CustomerEncryptionKey::default()/* use setters */);

pub fn set_or_clear_source_snapshot_encryption_key<T>( self, v: Option<T>, ) -> Self

where T: Into<CustomerEncryptionKey>,

Sets or clears the value of source_snapshot_encryption_key.

Example

use google_cloud_compute_v1::model::CustomerEncryptionKey;
let x = Disk::new().set_or_clear_source_snapshot_encryption_key(Some(CustomerEncryptionKey::default()/* use setters */));
let x = Disk::new().set_or_clear_source_snapshot_encryption_key(None::<CustomerEncryptionKey>);

pub fn set_source_snapshot_id<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_snapshot_id.

Example

let x = Disk::new().set_source_snapshot_id("example");

pub fn set_or_clear_source_snapshot_id<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_snapshot_id.

Example

let x = Disk::new().set_or_clear_source_snapshot_id(Some("example"));
let x = Disk::new().set_or_clear_source_snapshot_id(None::<String>);

pub fn set_source_storage_object<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of source_storage_object.

Example

let x = Disk::new().set_source_storage_object("example");

pub fn set_or_clear_source_storage_object<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of source_storage_object.

Example

let x = Disk::new().set_or_clear_source_storage_object(Some("example"));
let x = Disk::new().set_or_clear_source_storage_object(None::<String>);

pub fn set_status<T>(self, v: T) -> Self

where T: Into<Status>,

Sets the value of status.

Example

use google_cloud_compute_v1::model::disk::Status;
let x0 = Disk::new().set_status(Status::Deleting);
let x1 = Disk::new().set_status(Status::Failed);
let x2 = Disk::new().set_status(Status::Ready);

pub fn set_or_clear_status<T>(self, v: Option<T>) -> Self

where T: Into<Status>,

Sets or clears the value of status.

Example

use google_cloud_compute_v1::model::disk::Status;
let x0 = Disk::new().set_or_clear_status(Some(Status::Deleting));
let x1 = Disk::new().set_or_clear_status(Some(Status::Failed));
let x2 = Disk::new().set_or_clear_status(Some(Status::Ready));
let x_none = Disk::new().set_or_clear_status(None::<Status>);

pub fn set_storage_pool<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of storage_pool.

Example

let x = Disk::new().set_storage_pool("example");

pub fn set_or_clear_storage_pool<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of storage_pool.

Example

let x = Disk::new().set_or_clear_storage_pool(Some("example"));
let x = Disk::new().set_or_clear_storage_pool(None::<String>);

pub fn set_type<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of r#type.

Example

let x = Disk::new().set_type("example");

pub fn set_or_clear_type<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of r#type.

Example

let x = Disk::new().set_or_clear_type(Some("example"));
let x = Disk::new().set_or_clear_type(None::<String>);

pub fn set_users<T, V>(self, v: T) -> Self

where T: IntoIterator<Item = V>, V: Into<String>,

Sets the value of users.

Example

let x = Disk::new().set_users(["a", "b", "c"]);

pub fn set_zone<T>(self, v: T) -> Self

where T: Into<String>,

Sets the value of zone.

Example

let x = Disk::new().set_zone("example");

pub fn set_or_clear_zone<T>(self, v: Option<T>) -> Self

where T: Into<String>,

Sets or clears the value of zone.

Example

let x = Disk::new().set_or_clear_zone(Some("example"));
let x = Disk::new().set_or_clear_zone(None::<String>);

Trait Implementations

impl Clone for Disk

fn clone(&self) -> Disk

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for Disk

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Default for Disk

fn default() -> Disk

Returns the “default value” for a type.

impl Message for Disk

fn typename() -> &'static str

The typename of this message.

impl PartialEq for Disk

fn eq(&self, other: &Disk) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl StructuralPartialEq for Disk