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zz_disk_types.go
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// SPDX-FileCopyrightText: 2024 The Crossplane Authors <https://crossplane.io>
//
// SPDX-License-Identifier: Apache-2.0
// Code generated by upjet. DO NOT EDIT.
package v1beta1
import (
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime/schema"
v1 "github.com/crossplane/crossplane-runtime/apis/common/v1"
)
type AsyncPrimaryDiskInitParameters struct {
// Primary disk for asynchronous disk replication.
// +crossplane:generate:reference:type=github.com/upbound/provider-gcp/apis/compute/v1beta1.Disk
// +crossplane:generate:reference:extractor=github.com/crossplane/upjet/pkg/resource.ExtractResourceID()
Disk *string `json:"disk,omitempty" tf:"disk,omitempty"`
// Reference to a Disk in compute to populate disk.
// +kubebuilder:validation:Optional
DiskRef *v1.Reference `json:"diskRef,omitempty" tf:"-"`
// Selector for a Disk in compute to populate disk.
// +kubebuilder:validation:Optional
DiskSelector *v1.Selector `json:"diskSelector,omitempty" tf:"-"`
}
type AsyncPrimaryDiskObservation struct {
// Primary disk for asynchronous disk replication.
Disk *string `json:"disk,omitempty" tf:"disk,omitempty"`
}
type AsyncPrimaryDiskParameters struct {
// Primary disk for asynchronous disk replication.
// +crossplane:generate:reference:type=github.com/upbound/provider-gcp/apis/compute/v1beta1.Disk
// +crossplane:generate:reference:extractor=github.com/crossplane/upjet/pkg/resource.ExtractResourceID()
// +kubebuilder:validation:Optional
Disk *string `json:"disk,omitempty" tf:"disk,omitempty"`
// Reference to a Disk in compute to populate disk.
// +kubebuilder:validation:Optional
DiskRef *v1.Reference `json:"diskRef,omitempty" tf:"-"`
// Selector for a Disk in compute to populate disk.
// +kubebuilder:validation:Optional
DiskSelector *v1.Selector `json:"diskSelector,omitempty" tf:"-"`
}
type DiskEncryptionKeyInitParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
}
type DiskEncryptionKeyObservation struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// (Output)
// The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied
// encryption key that protects this resource.
Sha256 *string `json:"sha256,omitempty" tf:"sha256,omitempty"`
}
type DiskEncryptionKeyParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
// +kubebuilder:validation:Optional
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
// +kubebuilder:validation:Optional
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
// Note: This property is sensitive and will not be displayed in the plan.
// +kubebuilder:validation:Optional
RawKeySecretRef *v1.SecretKeySelector `json:"rawKeySecretRef,omitempty" tf:"-"`
// Specifies an RFC 4648 base64 encoded, RSA-wrapped 2048-bit
// customer-supplied encryption key to either encrypt or decrypt
// this resource. You can provide either the rawKey or the rsaEncryptedKey.
// Note: This property is sensitive and will not be displayed in the plan.
// +kubebuilder:validation:Optional
RsaEncryptedKeySecretRef *v1.SecretKeySelector `json:"rsaEncryptedKeySecretRef,omitempty" tf:"-"`
}
type DiskInitParameters struct {
// A nested object resource
// Structure is documented below.
AsyncPrimaryDisk []AsyncPrimaryDiskInitParameters `json:"asyncPrimaryDisk,omitempty" tf:"async_primary_disk,omitempty"`
// An optional description of this resource. Provide this property when
// you create the resource.
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// Encrypts the disk using a customer-supplied encryption key.
// After you encrypt a disk with a customer-supplied key, you must
// provide the same key if you use the disk later (e.g. to create a disk
// snapshot or an image, or to attach the disk to a virtual machine).
// Customer-supplied encryption keys do not protect access to metadata of
// the disk.
// If you do not provide an encryption key when creating the disk, then
// the disk will be encrypted using an automatically generated key and
// you do not need to provide a key to use the disk later.
// Structure is documented below.
DiskEncryptionKey []DiskEncryptionKeyInitParameters `json:"diskEncryptionKey,omitempty" tf:"disk_encryption_key,omitempty"`
// Whether this disk is using confidential compute mode.
// Note: Only supported on hyperdisk skus, disk_encryption_key is required when setting to true
EnableConfidentialCompute *bool `json:"enableConfidentialCompute,omitempty" tf:"enable_confidential_compute,omitempty"`
// A list of features to enable on the guest operating system.
// Applicable only for bootable disks.
// Structure is documented below.
GuestOsFeatures []GuestOsFeaturesInitParameters `json:"guestOsFeatures,omitempty" tf:"guest_os_features,omitempty"`
// The image from which to initialize this disk. This can be
// one of: the image's self_link, projects/{project}/global/images/{image},
// projects/{project}/global/images/family/{family}, global/images/{image},
// global/images/family/{family}, family/{family}, {project}/{family},
// {project}/{image}, {family}, or {image}. If referred by family, the
// images names must include the family name. If they don't, use the
// google_compute_image data source.
// For instance, the image centos-6-v20180104 includes its family name centos-6.
// These images can be referred by family name here.
Image *string `json:"image,omitempty" tf:"image,omitempty"`
// Labels to apply to this disk. A list of key->value pairs.
// +mapType=granular
Labels map[string]*string `json:"labels,omitempty" tf:"labels,omitempty"`
// Any applicable license URI.
Licenses []*string `json:"licenses,omitempty" tf:"licenses,omitempty"`
// Physical block size of the persistent disk, in bytes. If not present
// in a request, a default value is used. Currently supported sizes
// are 4096 and 16384, 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.
PhysicalBlockSizeBytes *float64 `json:"physicalBlockSizeBytes,omitempty" tf:"physical_block_size_bytes,omitempty"`
// The ID of the project in which the resource belongs.
// If it is not provided, the provider project is used.
Project *string `json:"project,omitempty" tf:"project,omitempty"`
// Indicates how many IOPS must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of IOPS every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
ProvisionedIops *float64 `json:"provisionedIops,omitempty" tf:"provisioned_iops,omitempty"`
// Indicates how much Throughput must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of Throughput every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
ProvisionedThroughput *float64 `json:"provisionedThroughput,omitempty" tf:"provisioned_throughput,omitempty"`
// Size of the persistent disk, specified in GB. You can specify this
// field when creating a persistent disk using the image or
// snapshot parameter, or specify it alone to create an empty
// persistent disk.
// If you specify this field along with image or snapshot,
// the value must not be less than the size of the image
// or the size of the snapshot.
// You can add lifecycle.prevent_destroy in the config to prevent destroying
// and recreating.
Size *float64 `json:"size,omitempty" tf:"size,omitempty"`
// The source snapshot used to create this disk. You can provide this as
// a partial or full URL to the resource. If the snapshot is in another
// project than this disk, you must supply a full URL. For example, the
// following are valid values:
Snapshot *string `json:"snapshot,omitempty" tf:"snapshot,omitempty"`
// 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:
SourceDisk *string `json:"sourceDisk,omitempty" tf:"source_disk,omitempty"`
// The customer-supplied encryption key of the source image. Required if
// the source image is protected by a customer-supplied encryption key.
// Structure is documented below.
SourceImageEncryptionKey []SourceImageEncryptionKeyInitParameters `json:"sourceImageEncryptionKey,omitempty" tf:"source_image_encryption_key,omitempty"`
// The customer-supplied encryption key of the source snapshot. Required
// if the source snapshot is protected by a customer-supplied encryption
// key.
// Structure is documented below.
SourceSnapshotEncryptionKey []SourceSnapshotEncryptionKeyInitParameters `json:"sourceSnapshotEncryptionKey,omitempty" tf:"source_snapshot_encryption_key,omitempty"`
// URL of the disk type resource describing which disk type to use to
// create the disk. Provide this when creating the disk.
Type *string `json:"type,omitempty" tf:"type,omitempty"`
}
type DiskObservation struct {
// A nested object resource
// Structure is documented below.
AsyncPrimaryDisk []AsyncPrimaryDiskObservation `json:"asyncPrimaryDisk,omitempty" tf:"async_primary_disk,omitempty"`
// Creation timestamp in RFC3339 text format.
CreationTimestamp *string `json:"creationTimestamp,omitempty" tf:"creation_timestamp,omitempty"`
// An optional description of this resource. Provide this property when
// you create the resource.
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// Encrypts the disk using a customer-supplied encryption key.
// After you encrypt a disk with a customer-supplied key, you must
// provide the same key if you use the disk later (e.g. to create a disk
// snapshot or an image, or to attach the disk to a virtual machine).
// Customer-supplied encryption keys do not protect access to metadata of
// the disk.
// If you do not provide an encryption key when creating the disk, then
// the disk will be encrypted using an automatically generated key and
// you do not need to provide a key to use the disk later.
// Structure is documented below.
DiskEncryptionKey []DiskEncryptionKeyObservation `json:"diskEncryptionKey,omitempty" tf:"disk_encryption_key,omitempty"`
// The unique identifier for the resource. This identifier is defined by the server.
DiskID *string `json:"diskId,omitempty" tf:"disk_id,omitempty"`
// for all of the labels present on the resource.
// +mapType=granular
EffectiveLabels map[string]*string `json:"effectiveLabels,omitempty" tf:"effective_labels,omitempty"`
// Whether this disk is using confidential compute mode.
// Note: Only supported on hyperdisk skus, disk_encryption_key is required when setting to true
EnableConfidentialCompute *bool `json:"enableConfidentialCompute,omitempty" tf:"enable_confidential_compute,omitempty"`
// A list of features to enable on the guest operating system.
// Applicable only for bootable disks.
// Structure is documented below.
GuestOsFeatures []GuestOsFeaturesObservation `json:"guestOsFeatures,omitempty" tf:"guest_os_features,omitempty"`
// an identifier for the resource with format projects/{{project}}/zones/{{zone}}/disks/{{name}}
ID *string `json:"id,omitempty" tf:"id,omitempty"`
// The image from which to initialize this disk. This can be
// one of: the image's self_link, projects/{project}/global/images/{image},
// projects/{project}/global/images/family/{family}, global/images/{image},
// global/images/family/{family}, family/{family}, {project}/{family},
// {project}/{image}, {family}, or {image}. If referred by family, the
// images names must include the family name. If they don't, use the
// google_compute_image data source.
// For instance, the image centos-6-v20180104 includes its family name centos-6.
// These images can be referred by family name here.
Image *string `json:"image,omitempty" tf:"image,omitempty"`
// The fingerprint used for optimistic locking of this resource. Used
// internally during updates.
LabelFingerprint *string `json:"labelFingerprint,omitempty" tf:"label_fingerprint,omitempty"`
// Labels to apply to this disk. A list of key->value pairs.
// +mapType=granular
Labels map[string]*string `json:"labels,omitempty" tf:"labels,omitempty"`
// Last attach timestamp in RFC3339 text format.
LastAttachTimestamp *string `json:"lastAttachTimestamp,omitempty" tf:"last_attach_timestamp,omitempty"`
// Last detach timestamp in RFC3339 text format.
LastDetachTimestamp *string `json:"lastDetachTimestamp,omitempty" tf:"last_detach_timestamp,omitempty"`
// Any applicable license URI.
Licenses []*string `json:"licenses,omitempty" tf:"licenses,omitempty"`
// Physical block size of the persistent disk, in bytes. If not present
// in a request, a default value is used. Currently supported sizes
// are 4096 and 16384, 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.
PhysicalBlockSizeBytes *float64 `json:"physicalBlockSizeBytes,omitempty" tf:"physical_block_size_bytes,omitempty"`
// The ID of the project in which the resource belongs.
// If it is not provided, the provider project is used.
Project *string `json:"project,omitempty" tf:"project,omitempty"`
// Indicates how many IOPS must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of IOPS every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
ProvisionedIops *float64 `json:"provisionedIops,omitempty" tf:"provisioned_iops,omitempty"`
// Indicates how much Throughput must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of Throughput every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
ProvisionedThroughput *float64 `json:"provisionedThroughput,omitempty" tf:"provisioned_throughput,omitempty"`
// The URI of the created resource.
SelfLink *string `json:"selfLink,omitempty" tf:"self_link,omitempty"`
// Size of the persistent disk, specified in GB. You can specify this
// field when creating a persistent disk using the image or
// snapshot parameter, or specify it alone to create an empty
// persistent disk.
// If you specify this field along with image or snapshot,
// the value must not be less than the size of the image
// or the size of the snapshot.
// You can add lifecycle.prevent_destroy in the config to prevent destroying
// and recreating.
Size *float64 `json:"size,omitempty" tf:"size,omitempty"`
// The source snapshot used to create this disk. You can provide this as
// a partial or full URL to the resource. If the snapshot is in another
// project than this disk, you must supply a full URL. For example, the
// following are valid values:
Snapshot *string `json:"snapshot,omitempty" tf:"snapshot,omitempty"`
// 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:
SourceDisk *string `json:"sourceDisk,omitempty" tf:"source_disk,omitempty"`
// The ID value of the disk used to create this image. This value may
// be used to determine whether the image was taken from the current
// or a previous instance of a given disk name.
SourceDiskID *string `json:"sourceDiskId,omitempty" tf:"source_disk_id,omitempty"`
// The customer-supplied encryption key of the source image. Required if
// the source image is protected by a customer-supplied encryption key.
// Structure is documented below.
SourceImageEncryptionKey []SourceImageEncryptionKeyObservation `json:"sourceImageEncryptionKey,omitempty" tf:"source_image_encryption_key,omitempty"`
// 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.
SourceImageID *string `json:"sourceImageId,omitempty" tf:"source_image_id,omitempty"`
// The customer-supplied encryption key of the source snapshot. Required
// if the source snapshot is protected by a customer-supplied encryption
// key.
// Structure is documented below.
SourceSnapshotEncryptionKey []SourceSnapshotEncryptionKeyObservation `json:"sourceSnapshotEncryptionKey,omitempty" tf:"source_snapshot_encryption_key,omitempty"`
// 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.
SourceSnapshotID *string `json:"sourceSnapshotId,omitempty" tf:"source_snapshot_id,omitempty"`
// The combination of labels configured directly on the resource
// and default labels configured on the provider.
// +mapType=granular
TerraformLabels map[string]*string `json:"terraformLabels,omitempty" tf:"terraform_labels,omitempty"`
// URL of the disk type resource describing which disk type to use to
// create the disk. Provide this when creating the disk.
Type *string `json:"type,omitempty" tf:"type,omitempty"`
// Links to the users of the disk (attached instances) in form:
// project/zones/zone/instances/instance
Users []*string `json:"users,omitempty" tf:"users,omitempty"`
// A reference to the zone where the disk resides.
Zone *string `json:"zone,omitempty" tf:"zone,omitempty"`
}
type DiskParameters struct {
// A nested object resource
// Structure is documented below.
// +kubebuilder:validation:Optional
AsyncPrimaryDisk []AsyncPrimaryDiskParameters `json:"asyncPrimaryDisk,omitempty" tf:"async_primary_disk,omitempty"`
// An optional description of this resource. Provide this property when
// you create the resource.
// +kubebuilder:validation:Optional
Description *string `json:"description,omitempty" tf:"description,omitempty"`
// Encrypts the disk using a customer-supplied encryption key.
// After you encrypt a disk with a customer-supplied key, you must
// provide the same key if you use the disk later (e.g. to create a disk
// snapshot or an image, or to attach the disk to a virtual machine).
// Customer-supplied encryption keys do not protect access to metadata of
// the disk.
// If you do not provide an encryption key when creating the disk, then
// the disk will be encrypted using an automatically generated key and
// you do not need to provide a key to use the disk later.
// Structure is documented below.
// +kubebuilder:validation:Optional
DiskEncryptionKey []DiskEncryptionKeyParameters `json:"diskEncryptionKey,omitempty" tf:"disk_encryption_key,omitempty"`
// Whether this disk is using confidential compute mode.
// Note: Only supported on hyperdisk skus, disk_encryption_key is required when setting to true
// +kubebuilder:validation:Optional
EnableConfidentialCompute *bool `json:"enableConfidentialCompute,omitempty" tf:"enable_confidential_compute,omitempty"`
// A list of features to enable on the guest operating system.
// Applicable only for bootable disks.
// Structure is documented below.
// +kubebuilder:validation:Optional
GuestOsFeatures []GuestOsFeaturesParameters `json:"guestOsFeatures,omitempty" tf:"guest_os_features,omitempty"`
// The image from which to initialize this disk. This can be
// one of: the image's self_link, projects/{project}/global/images/{image},
// projects/{project}/global/images/family/{family}, global/images/{image},
// global/images/family/{family}, family/{family}, {project}/{family},
// {project}/{image}, {family}, or {image}. If referred by family, the
// images names must include the family name. If they don't, use the
// google_compute_image data source.
// For instance, the image centos-6-v20180104 includes its family name centos-6.
// These images can be referred by family name here.
// +kubebuilder:validation:Optional
Image *string `json:"image,omitempty" tf:"image,omitempty"`
// Labels to apply to this disk. A list of key->value pairs.
// +kubebuilder:validation:Optional
// +mapType=granular
Labels map[string]*string `json:"labels,omitempty" tf:"labels,omitempty"`
// Any applicable license URI.
// +kubebuilder:validation:Optional
Licenses []*string `json:"licenses,omitempty" tf:"licenses,omitempty"`
// Physical block size of the persistent disk, in bytes. If not present
// in a request, a default value is used. Currently supported sizes
// are 4096 and 16384, 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.
// +kubebuilder:validation:Optional
PhysicalBlockSizeBytes *float64 `json:"physicalBlockSizeBytes,omitempty" tf:"physical_block_size_bytes,omitempty"`
// The ID of the project in which the resource belongs.
// If it is not provided, the provider project is used.
// +kubebuilder:validation:Optional
Project *string `json:"project,omitempty" tf:"project,omitempty"`
// Indicates how many IOPS must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of IOPS every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
// +kubebuilder:validation:Optional
ProvisionedIops *float64 `json:"provisionedIops,omitempty" tf:"provisioned_iops,omitempty"`
// Indicates how much Throughput must be provisioned for the disk.
// Note: Updating currently is only supported by hyperdisk skus without the need to delete and recreate the disk, hyperdisk
// allows for an update of Throughput every 4 hours. To update your hyperdisk more frequently, you'll need to manually delete and recreate it
// +kubebuilder:validation:Optional
ProvisionedThroughput *float64 `json:"provisionedThroughput,omitempty" tf:"provisioned_throughput,omitempty"`
// Size of the persistent disk, specified in GB. You can specify this
// field when creating a persistent disk using the image or
// snapshot parameter, or specify it alone to create an empty
// persistent disk.
// If you specify this field along with image or snapshot,
// the value must not be less than the size of the image
// or the size of the snapshot.
// You can add lifecycle.prevent_destroy in the config to prevent destroying
// and recreating.
// +kubebuilder:validation:Optional
Size *float64 `json:"size,omitempty" tf:"size,omitempty"`
// The source snapshot used to create this disk. You can provide this as
// a partial or full URL to the resource. If the snapshot is in another
// project than this disk, you must supply a full URL. For example, the
// following are valid values:
// +kubebuilder:validation:Optional
Snapshot *string `json:"snapshot,omitempty" tf:"snapshot,omitempty"`
// 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:
// +kubebuilder:validation:Optional
SourceDisk *string `json:"sourceDisk,omitempty" tf:"source_disk,omitempty"`
// The customer-supplied encryption key of the source image. Required if
// the source image is protected by a customer-supplied encryption key.
// Structure is documented below.
// +kubebuilder:validation:Optional
SourceImageEncryptionKey []SourceImageEncryptionKeyParameters `json:"sourceImageEncryptionKey,omitempty" tf:"source_image_encryption_key,omitempty"`
// The customer-supplied encryption key of the source snapshot. Required
// if the source snapshot is protected by a customer-supplied encryption
// key.
// Structure is documented below.
// +kubebuilder:validation:Optional
SourceSnapshotEncryptionKey []SourceSnapshotEncryptionKeyParameters `json:"sourceSnapshotEncryptionKey,omitempty" tf:"source_snapshot_encryption_key,omitempty"`
// URL of the disk type resource describing which disk type to use to
// create the disk. Provide this when creating the disk.
// +kubebuilder:validation:Optional
Type *string `json:"type,omitempty" tf:"type,omitempty"`
// A reference to the zone where the disk resides.
// +kubebuilder:validation:Required
Zone *string `json:"zone" tf:"zone,omitempty"`
}
type GuestOsFeaturesInitParameters struct {
// The type of supported feature. Read Enabling guest operating system features to see a list of available options.
// Possible values are: MULTI_IP_SUBNET, SECURE_BOOT, SEV_CAPABLE, UEFI_COMPATIBLE, VIRTIO_SCSI_MULTIQUEUE, WINDOWS, GVNIC, SEV_LIVE_MIGRATABLE, SEV_SNP_CAPABLE, SUSPEND_RESUME_COMPATIBLE, TDX_CAPABLE.
Type *string `json:"type,omitempty" tf:"type,omitempty"`
}
type GuestOsFeaturesObservation struct {
// The type of supported feature. Read Enabling guest operating system features to see a list of available options.
// Possible values are: MULTI_IP_SUBNET, SECURE_BOOT, SEV_CAPABLE, UEFI_COMPATIBLE, VIRTIO_SCSI_MULTIQUEUE, WINDOWS, GVNIC, SEV_LIVE_MIGRATABLE, SEV_SNP_CAPABLE, SUSPEND_RESUME_COMPATIBLE, TDX_CAPABLE.
Type *string `json:"type,omitempty" tf:"type,omitempty"`
}
type GuestOsFeaturesParameters struct {
// The type of supported feature. Read Enabling guest operating system features to see a list of available options.
// Possible values are: MULTI_IP_SUBNET, SECURE_BOOT, SEV_CAPABLE, UEFI_COMPATIBLE, VIRTIO_SCSI_MULTIQUEUE, WINDOWS, GVNIC, SEV_LIVE_MIGRATABLE, SEV_SNP_CAPABLE, SUSPEND_RESUME_COMPATIBLE, TDX_CAPABLE.
// +kubebuilder:validation:Optional
Type *string `json:"type" tf:"type,omitempty"`
}
type SourceImageEncryptionKeyInitParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
}
type SourceImageEncryptionKeyObservation struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
// (Output)
// The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied
// encryption key that protects this resource.
Sha256 *string `json:"sha256,omitempty" tf:"sha256,omitempty"`
}
type SourceImageEncryptionKeyParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
// +kubebuilder:validation:Optional
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
// +kubebuilder:validation:Optional
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
// +kubebuilder:validation:Optional
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
}
type SourceSnapshotEncryptionKeyInitParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
}
type SourceSnapshotEncryptionKeyObservation struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
// (Output)
// The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied
// encryption key that protects this resource.
Sha256 *string `json:"sha256,omitempty" tf:"sha256,omitempty"`
}
type SourceSnapshotEncryptionKeyParameters struct {
// The self link of the encryption key used to encrypt the disk. Also called KmsKeyName
// in the cloud console. Your project's Compute Engine System service account
// (service-{{PROJECT_NUMBER}}@compute-system.iam.gserviceaccount.com) must have
// roles/cloudkms.cryptoKeyEncrypterDecrypter to use this feature.
// See https://cloud.google.com/compute/docs/disks/customer-managed-encryption#encrypt_a_new_persistent_disk_with_your_own_keys
// +kubebuilder:validation:Optional
KMSKeySelfLink *string `json:"kmsKeySelfLink,omitempty" tf:"kms_key_self_link,omitempty"`
// The service account used for the encryption request for the given KMS key.
// If absent, the Compute Engine Service Agent service account is used.
// +kubebuilder:validation:Optional
KMSKeyServiceAccount *string `json:"kmsKeyServiceAccount,omitempty" tf:"kms_key_service_account,omitempty"`
// Specifies a 256-bit customer-supplied encryption key, encoded in
// RFC 4648 base64 to either encrypt or decrypt this resource.
// +kubebuilder:validation:Optional
RawKey *string `json:"rawKey,omitempty" tf:"raw_key,omitempty"`
}
// DiskSpec defines the desired state of Disk
type DiskSpec struct {
v1.ResourceSpec `json:",inline"`
ForProvider DiskParameters `json:"forProvider"`
// THIS IS A BETA FIELD. It will be honored
// unless the Management Policies feature flag is disabled.
// InitProvider holds the same fields as ForProvider, with the exception
// of Identifier and other resource reference fields. The fields that are
// in InitProvider are merged into ForProvider when the resource is created.
// The same fields are also added to the terraform ignore_changes hook, to
// avoid updating them after creation. This is useful for fields that are
// required on creation, but we do not desire to update them after creation,
// for example because of an external controller is managing them, like an
// autoscaler.
InitProvider DiskInitParameters `json:"initProvider,omitempty"`
}
// DiskStatus defines the observed state of Disk.
type DiskStatus struct {
v1.ResourceStatus `json:",inline"`
AtProvider DiskObservation `json:"atProvider,omitempty"`
}
// +kubebuilder:object:root=true
// +kubebuilder:subresource:status
// +kubebuilder:storageversion
// Disk is the Schema for the Disks API. Persistent disks are durable storage devices that function similarly to the physical disks in a desktop or a server.
// +kubebuilder:printcolumn:name="SYNCED",type="string",JSONPath=".status.conditions[?(@.type=='Synced')].status"
// +kubebuilder:printcolumn:name="READY",type="string",JSONPath=".status.conditions[?(@.type=='Ready')].status"
// +kubebuilder:printcolumn:name="EXTERNAL-NAME",type="string",JSONPath=".metadata.annotations.crossplane\\.io/external-name"
// +kubebuilder:printcolumn:name="AGE",type="date",JSONPath=".metadata.creationTimestamp"
// +kubebuilder:resource:scope=Cluster,categories={crossplane,managed,gcp}
type Disk struct {
metav1.TypeMeta `json:",inline"`
metav1.ObjectMeta `json:"metadata,omitempty"`
Spec DiskSpec `json:"spec"`
Status DiskStatus `json:"status,omitempty"`
}
// +kubebuilder:object:root=true
// DiskList contains a list of Disks
type DiskList struct {
metav1.TypeMeta `json:",inline"`
metav1.ListMeta `json:"metadata,omitempty"`
Items []Disk `json:"items"`
}
// Repository type metadata.
var (
Disk_Kind = "Disk"
Disk_GroupKind = schema.GroupKind{Group: CRDGroup, Kind: Disk_Kind}.String()
Disk_KindAPIVersion = Disk_Kind + "." + CRDGroupVersion.String()
Disk_GroupVersionKind = CRDGroupVersion.WithKind(Disk_Kind)
)
func init() {
SchemeBuilder.Register(&Disk{}, &DiskList{})
}