Retrieves an aggregated list of future reservations. To prevent failure, Google recommends that you set the `returnPartialSuccess` parameter to `true`.
Retrieves the next page of results.
cancel(project, zone, futureReservation, requestId=None, x__xgafv=None)
Cancel the specified future reservation.
Close httplib2 connections.
delete(project, zone, futureReservation, requestId=None, x__xgafv=None)
Deletes the specified future reservation.
get(project, zone, futureReservation, x__xgafv=None)
Retrieves information about the specified future reservation.
insert(project, zone, body=None, requestId=None, x__xgafv=None)
Creates a new Future Reservation.
A list of all the future reservations that have been configured for the specified project in specified zone.
Retrieves the next page of results.
update(project, zone, futureReservation, body=None, requestId=None, updateMask=None, x__xgafv=None)
Updates the specified future reservation.
aggregatedList(project, filter=None, includeAllScopes=None, maxResults=None, orderBy=None, pageToken=None, returnPartialSuccess=None, serviceProjectNumber=None, x__xgafv=None)
Retrieves an aggregated list of future reservations. To prevent failure, Google recommends that you set the `returnPartialSuccess` parameter to `true`. Args: project: string, Project ID for this request. (required) filter: string, A filter expression that filters resources listed in the response. Most Compute resources support two types of filter expressions: expressions that support regular expressions and expressions that follow API improvement proposal AIP-160. These two types of filter expressions cannot be mixed in one request. If you want to use AIP-160, your expression must specify the field name, an operator, and the value that you want to use for filtering. The value must be a string, a number, or a boolean. The operator must be either `=`, `!=`, `>`, `<`, `<=`, `>=` or `:`. For example, if you are filtering Compute Engine instances, you can exclude instances named `example-instance` by specifying `name != example-instance`. The `:*` comparison can be used to test whether a key has been defined. For example, to find all objects with `owner` label use: ``` labels.owner:* ``` You can also filter nested fields. For example, you could specify `scheduling.automaticRestart = false` to include instances only if they are not scheduled for automatic restarts. You can use filtering on nested fields to filter based on resource labels. To filter on multiple expressions, provide each separate expression within parentheses. For example: ``` (scheduling.automaticRestart = true) (cpuPlatform = "Intel Skylake") ``` By default, each expression is an `AND` expression. However, you can include `AND` and `OR` expressions explicitly. For example: ``` (cpuPlatform = "Intel Skylake") OR (cpuPlatform = "Intel Broadwell") AND (scheduling.automaticRestart = true) ``` If you want to use a regular expression, use the `eq` (equal) or `ne` (not equal) operator against a single un-parenthesized expression with or without quotes or against multiple parenthesized expressions. Examples: `fieldname eq unquoted literal` `fieldname eq 'single quoted literal'` `fieldname eq "double quoted literal"` `(fieldname1 eq literal) (fieldname2 ne "literal")` The literal value is interpreted as a regular expression using Google RE2 library syntax. The literal value must match the entire field. For example, to filter for instances that do not end with name "instance", you would use `name ne .*instance`. You cannot combine constraints on multiple fields using regular expressions. includeAllScopes: boolean, Indicates whether every visible scope for each scope type (zone, region, global) should be included in the response. For new resource types added after this field, the flag has no effect as new resource types will always include every visible scope for each scope type in response. For resource types which predate this field, if this flag is omitted or false, only scopes of the scope types where the resource type is expected to be found will be included. maxResults: integer, The maximum number of results per page that should be returned. If the number of available results is larger than `maxResults`, Compute Engine returns a `nextPageToken` that can be used to get the next page of results in subsequent list requests. Acceptable values are `0` to `500`, inclusive. (Default: `500`) orderBy: string, Sorts list results by a certain order. By default, results are returned in alphanumerical order based on the resource name. You can also sort results in descending order based on the creation timestamp using `orderBy="creationTimestamp desc"`. This sorts results based on the `creationTimestamp` field in reverse chronological order (newest result first). Use this to sort resources like operations so that the newest operation is returned first. Currently, only sorting by `name` or `creationTimestamp desc` is supported. pageToken: string, Specifies a page token to use. Set `pageToken` to the `nextPageToken` returned by a previous list request to get the next page of results. returnPartialSuccess: boolean, Opt-in for partial success behavior which provides partial results in case of failure. The default value is false. For example, when partial success behavior is enabled, aggregatedList for a single zone scope either returns all resources in the zone or no resources, with an error code. serviceProjectNumber: string, The Shared VPC service project id or service project number for which aggregated list request is invoked for subnetworks list-usable api. x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Contains a list of future reservations. "etag": "A String", "id": "A String", # [Output Only] Unique identifier for the resource; defined by the server. "items": { # A list of Future reservation resources. "a_key": { # Name of the scope containing this set of future reservations. "futureReservations": [ # A list of future reservations contained in this scope. { "autoCreatedReservationsDeleteTime": "A String", # Future timestamp when the FR auto-created reservations will be deleted by Compute Engine. Format of this field must be a valid href="https://www.ietf.org/rfc/rfc3339.txt">RFC3339 value. "autoCreatedReservationsDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the duration of auto-created reservations. It represents relative time to future reservation start_time when auto-created reservations will be automatically deleted by Compute Engine. Duration time unit is represented as a count of seconds and fractions of seconds at nanosecond resolution. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "autoDeleteAutoCreatedReservations": True or False, # Setting for enabling or disabling automatic deletion for auto-created reservation. If set to true, auto-created reservations will be deleted at Future Reservation's end time (default) or at user's defined timestamp if any of the [auto_created_reservations_delete_time, auto_created_reservations_duration] values is specified. For keeping auto-created reservation indefinitely, this value should be set to false. "creationTimestamp": "A String", # [Output Only] The creation timestamp for this future reservation in RFC3339 text format. "deploymentType": "A String", # Type of the deployment requested as part of future reservation. "description": "A String", # An optional description of this resource. Provide this property when you create the future reservation. "enableOpportunisticMaintenance": True or False, # Indicates if this group of VMs have opportunistic maintenance enabled. This will be set on the FR by customers, and will be used for reservation and reservation block maintenance . "id": "A String", # [Output Only] A unique identifier for this future reservation. The server defines this identifier. "instanceTerminationAction": "A String", # Action to take during reservation termination. "kind": "compute#futureReservation", # [Output Only] Type of the resource. Always compute#futureReservation for future reservations. "name": "A String", # The name of the resource, provided by the client when initially creating the resource. The resource name must be 1-63 characters long, and comply with RFC1035. 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. "namePrefix": "A String", # Name prefix for the reservations to be created at the time of delivery. The name prefix must comply with RFC1035. Maximum allowed length for name prefix is 20. Automatically created reservations name format will be -date-####. "planningStatus": "A String", # Planning state before being submitted for evaluation "reservationName": "A String", # Name of reservations where the capacity is provisioned at the time of delivery of future reservations. If the reservation with the given name does not exist already, it is created automatically at the time of Approval with INACTIVE state till specified start-time. Either provide the reservation_name or a name_prefix. "schedulingType": "A String", # Maintenance information for this reservation "selfLink": "A String", # [Output Only] Server-defined fully-qualified URL for this resource. "selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # List of Projects/Folders to share with. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificReservationRequired": True or False, # Indicates whether the auto-created reservation can be consumed by VMs with affinity for "any" reservation. If the field is set, then only VMs that target the reservation by name can consume from the delivered reservation. "specificSkuProperties": { # Future Reservation configuration to indicate instance properties and total count. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "status": { # [Output only] Represents status related to the future reservation. # [Output only] Status of the Future Reservation "amendmentStatus": "A String", # [Output Only] The current status of the requested amendment. "autoCreatedReservations": [ # Fully qualified urls of the automatically created reservations at start_time. "A String", ], "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the existing matching usage for the future reservation. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "fulfilledCount": "A String", # This count indicates the fulfilled capacity so far. This is set during "PROVISIONING" state. This count also includes capacity delivered as part of existing matching reservations. "lastKnownGoodState": { # The state that the future reservation will be reverted to should the amendment be declined. # [Output Only] This field represents the future reservation before an amendment was requested. If the amendment is declined, the Future Reservation will be reverted to the last known good state. The last known good state is not set when updating a future reservation whose Procurement Status is DRAFTING. "description": "A String", # [Output Only] The description of the FutureReservation before an amendment was requested. "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the matching usage for the future reservation before an amendment was requested. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "futureReservationSpecs": { # The properties of the last known good state for the Future Reservation. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # [Output Only] The previous share settings of the Future Reservation. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificSkuProperties": { # [Output Only] The previous instance related properties of the Future Reservation. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "timeWindow": { # [Output Only] The previous time window of the Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, }, "lockTime": "A String", # [Output Only] The lock time of the FutureReservation before an amendment was requested. "namePrefix": "A String", # [Output Only] The name prefix of the Future Reservation before an amendment was requested. "procurementStatus": "A String", # [Output Only] The status of the last known good state for the Future Reservation. }, "lockTime": "A String", # Time when Future Reservation would become LOCKED, after which no modifications to Future Reservation will be allowed. Applicable only after the Future Reservation is in the APPROVED state. The lock_time is an RFC3339 string. The procurement_status will transition to PROCURING state at this time. "procurementStatus": "A String", # Current state of this Future Reservation "specificSkuProperties": { # Properties to be set for the Future Reservation. "sourceInstanceTemplateId": "A String", # ID of the instance template used to populate the Future Reservation properties. }, }, "timeWindow": { # Time window for this Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, "zone": "A String", # [Output Only] URL of the Zone where this future reservation resides. }, ], "warning": { # Informational warning which replaces the list of future reservations when the list is empty. "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, }, }, "kind": "compute#futureReservationsAggregatedListResponse", # [Output Only] Type of resource. Always compute#futureReservationsAggregatedListResponse for future resevation aggregated list response. "nextPageToken": "A String", # [Output Only] This token allows you to get the next page of results for list requests. If the number of results is larger than maxResults, use the nextPageToken as a value for the query parameter pageToken in the next list request. Subsequent list requests will have their own nextPageToken to continue paging through the results. "selfLink": "A String", # [Output Only] Server-defined URL for this resource. "unreachables": [ # [Output Only] Unreachable resources. "A String", ], "warning": { # [Output Only] Informational warning message. "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, }
aggregatedList_next()
Retrieves the next page of results. Args: previous_request: The request for the previous page. (required) previous_response: The response from the request for the previous page. (required) Returns: A request object that you can call 'execute()' on to request the next page. Returns None if there are no more items in the collection.
cancel(project, zone, futureReservation, requestId=None, x__xgafv=None)
Cancel the specified future reservation. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) futureReservation: string, Name of the future reservation to retrieve. Name should conform to RFC1035. (required) requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000). x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/beta/globalOperations) * [Regional](/compute/docs/reference/rest/beta/regionOperations) * [Zonal](/compute/docs/reference/rest/beta/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zoneOperations` resource. For more information, read Global, Regional, and Zonal Resources. Note that completed Operation resources have a limited retention period. "clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise. "creationTimestamp": "A String", # [Deprecated] This field is deprecated. "description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created. "endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format. "error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated. "errors": [ # [Output Only] The array of errors encountered while processing this operation. { "code": "A String", # [Output Only] The error type identifier for this error. "errorDetails": [ # [Output Only] An optional list of messages that contain the error details. There is a set of defined message types to use for providing details.The syntax depends on the error code. For example, QuotaExceededInfo will have details when the error code is QUOTA_EXCEEDED. { "errorInfo": { # Describes the cause of the error with structured details. Example of an error when contacting the "pubsub.googleapis.com" API when it is not enabled: { "reason": "API_DISABLED" "domain": "googleapis.com" "metadata": { "resource": "projects/123", "service": "pubsub.googleapis.com" } } This response indicates that the pubsub.googleapis.com API is not enabled. Example of an error that is returned when attempting to create a Spanner instance in a region that is out of stock: { "reason": "STOCKOUT" "domain": "spanner.googleapis.com", "metadata": { "availableRegions": "us-central1,us-east2" } } "domain": "A String", # The logical grouping to which the "reason" belongs. The error domain is typically the registered service name of the tool or product that generates the error. Example: "pubsub.googleapis.com". If the error is generated by some common infrastructure, the error domain must be a globally unique value that identifies the infrastructure. For Google API infrastructure, the error domain is "googleapis.com". "metadatas": { # Additional structured details about this error. Keys must match /a-z+/ but should ideally be lowerCamelCase. Also they must be limited to 64 characters in length. When identifying the current value of an exceeded limit, the units should be contained in the key, not the value. For example, rather than {"instanceLimit": "100/request"}, should be returned as, {"instanceLimitPerRequest": "100"}, if the client exceeds the number of instances that can be created in a single (batch) request. "a_key": "A String", }, "reason": "A String", # The reason of the error. This is a constant value that identifies the proximate cause of the error. Error reasons are unique within a particular domain of errors. This should be at most 63 characters and match a regular expression of `A-Z+[A-Z0-9]`, which represents UPPER_SNAKE_CASE. }, "help": { # Provides links to documentation or for performing an out of band action. For example, if a quota check failed with an error indicating the calling project hasn't enabled the accessed service, this can contain a URL pointing directly to the right place in the developer console to flip the bit. "links": [ # URL(s) pointing to additional information on handling the current error. { # Describes a URL link. "description": "A String", # Describes what the link offers. "url": "A String", # The URL of the link. }, ], }, "localizedMessage": { # Provides a localized error message that is safe to return to the user which can be attached to an RPC error. "locale": "A String", # The locale used following the specification defined at https://www.rfc-editor.org/rfc/bcp/bcp47.txt. Examples are: "en-US", "fr-CH", "es-MX" "message": "A String", # The localized error message in the above locale. }, "quotaInfo": { # Additional details for quota exceeded error for resource quota. "dimensions": { # The map holding related quota dimensions. "a_key": "A String", }, "futureLimit": 3.14, # Future quota limit being rolled out. The limit's unit depends on the quota type or metric. "limit": 3.14, # Current effective quota limit. The limit's unit depends on the quota type or metric. "limitName": "A String", # The name of the quota limit. "metricName": "A String", # The Compute Engine quota metric name. "rolloutStatus": "A String", # Rollout status of the future quota limit. }, }, ], "location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional. "message": "A String", # [Output Only] An optional, human-readable error message. }, ], }, "httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`. "httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found. "id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server. "insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format. "instancesBulkInsertOperationMetadata": { "perLocationStatus": { # Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "createdVmCount": 42, # [Output Only] Count of VMs successfully created so far. "deletedVmCount": 42, # [Output Only] Count of VMs that got deleted during rollback. "failedToCreateVmCount": 42, # [Output Only] Count of VMs that started creating but encountered an error. "status": "A String", # [Output Only] Creation status of BulkInsert operation - information if the flow is rolling forward or rolling back. "targetVmCount": 42, # [Output Only] Count of VMs originally planned to be created. }, }, }, "kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources. "name": "A String", # [Output Only] Name of the operation. "operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request. "operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on. "progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses. "region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations. "selfLink": "A String", # [Output Only] Server-defined URL for the resource. "setCommonInstanceMetadataOperationMetadata": { # [Output Only] If the operation is for projects.setCommonInstanceMetadata, this field will contain information on all underlying zonal actions and their state. "clientOperationId": "A String", # [Output Only] The client operation id. "perLocationOperations": { # [Output Only] Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "error": { # The `Status` type defines a logical error model that is suitable for different programming environments, including REST APIs and RPC APIs. It is used by [gRPC](https://github.com/grpc). Each `Status` message contains three pieces of data: error code, error message, and error details. You can find out more about this error model and how to work with it in the [API Design Guide](https://cloud.google.com/apis/design/errors). # [Output Only] If state is `ABANDONED` or `FAILED`, this field is populated. "code": 42, # The status code, which should be an enum value of google.rpc.Code. "details": [ # A list of messages that carry the error details. There is a common set of message types for APIs to use. { "a_key": "", # Properties of the object. Contains field @type with type URL. }, ], "message": "A String", # A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the google.rpc.Status.details field, or localized by the client. }, "state": "A String", # [Output Only] Status of the action, which can be one of the following: `PROPAGATING`, `PROPAGATED`, `ABANDONED`, `FAILED`, or `DONE`. }, }, }, "startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format. "status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`. "statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation. "targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource. "targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the disk that the snapshot was created from. "user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com` or `alice_smith_identifier (global/workforcePools/example-com-us-employees)`. "warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated. { "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, ], "zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations. }
close()
Close httplib2 connections.
delete(project, zone, futureReservation, requestId=None, x__xgafv=None)
Deletes the specified future reservation. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) futureReservation: string, Name of the future reservation to retrieve. Name should conform to RFC1035. (required) requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000). x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/beta/globalOperations) * [Regional](/compute/docs/reference/rest/beta/regionOperations) * [Zonal](/compute/docs/reference/rest/beta/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zoneOperations` resource. For more information, read Global, Regional, and Zonal Resources. Note that completed Operation resources have a limited retention period. "clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise. "creationTimestamp": "A String", # [Deprecated] This field is deprecated. "description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created. "endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format. "error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated. "errors": [ # [Output Only] The array of errors encountered while processing this operation. { "code": "A String", # [Output Only] The error type identifier for this error. "errorDetails": [ # [Output Only] An optional list of messages that contain the error details. There is a set of defined message types to use for providing details.The syntax depends on the error code. For example, QuotaExceededInfo will have details when the error code is QUOTA_EXCEEDED. { "errorInfo": { # Describes the cause of the error with structured details. Example of an error when contacting the "pubsub.googleapis.com" API when it is not enabled: { "reason": "API_DISABLED" "domain": "googleapis.com" "metadata": { "resource": "projects/123", "service": "pubsub.googleapis.com" } } This response indicates that the pubsub.googleapis.com API is not enabled. Example of an error that is returned when attempting to create a Spanner instance in a region that is out of stock: { "reason": "STOCKOUT" "domain": "spanner.googleapis.com", "metadata": { "availableRegions": "us-central1,us-east2" } } "domain": "A String", # The logical grouping to which the "reason" belongs. The error domain is typically the registered service name of the tool or product that generates the error. Example: "pubsub.googleapis.com". If the error is generated by some common infrastructure, the error domain must be a globally unique value that identifies the infrastructure. For Google API infrastructure, the error domain is "googleapis.com". "metadatas": { # Additional structured details about this error. Keys must match /a-z+/ but should ideally be lowerCamelCase. Also they must be limited to 64 characters in length. When identifying the current value of an exceeded limit, the units should be contained in the key, not the value. For example, rather than {"instanceLimit": "100/request"}, should be returned as, {"instanceLimitPerRequest": "100"}, if the client exceeds the number of instances that can be created in a single (batch) request. "a_key": "A String", }, "reason": "A String", # The reason of the error. This is a constant value that identifies the proximate cause of the error. Error reasons are unique within a particular domain of errors. This should be at most 63 characters and match a regular expression of `A-Z+[A-Z0-9]`, which represents UPPER_SNAKE_CASE. }, "help": { # Provides links to documentation or for performing an out of band action. For example, if a quota check failed with an error indicating the calling project hasn't enabled the accessed service, this can contain a URL pointing directly to the right place in the developer console to flip the bit. "links": [ # URL(s) pointing to additional information on handling the current error. { # Describes a URL link. "description": "A String", # Describes what the link offers. "url": "A String", # The URL of the link. }, ], }, "localizedMessage": { # Provides a localized error message that is safe to return to the user which can be attached to an RPC error. "locale": "A String", # The locale used following the specification defined at https://www.rfc-editor.org/rfc/bcp/bcp47.txt. Examples are: "en-US", "fr-CH", "es-MX" "message": "A String", # The localized error message in the above locale. }, "quotaInfo": { # Additional details for quota exceeded error for resource quota. "dimensions": { # The map holding related quota dimensions. "a_key": "A String", }, "futureLimit": 3.14, # Future quota limit being rolled out. The limit's unit depends on the quota type or metric. "limit": 3.14, # Current effective quota limit. The limit's unit depends on the quota type or metric. "limitName": "A String", # The name of the quota limit. "metricName": "A String", # The Compute Engine quota metric name. "rolloutStatus": "A String", # Rollout status of the future quota limit. }, }, ], "location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional. "message": "A String", # [Output Only] An optional, human-readable error message. }, ], }, "httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`. "httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found. "id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server. "insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format. "instancesBulkInsertOperationMetadata": { "perLocationStatus": { # Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "createdVmCount": 42, # [Output Only] Count of VMs successfully created so far. "deletedVmCount": 42, # [Output Only] Count of VMs that got deleted during rollback. "failedToCreateVmCount": 42, # [Output Only] Count of VMs that started creating but encountered an error. "status": "A String", # [Output Only] Creation status of BulkInsert operation - information if the flow is rolling forward or rolling back. "targetVmCount": 42, # [Output Only] Count of VMs originally planned to be created. }, }, }, "kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources. "name": "A String", # [Output Only] Name of the operation. "operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request. "operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on. "progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses. "region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations. "selfLink": "A String", # [Output Only] Server-defined URL for the resource. "setCommonInstanceMetadataOperationMetadata": { # [Output Only] If the operation is for projects.setCommonInstanceMetadata, this field will contain information on all underlying zonal actions and their state. "clientOperationId": "A String", # [Output Only] The client operation id. "perLocationOperations": { # [Output Only] Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "error": { # The `Status` type defines a logical error model that is suitable for different programming environments, including REST APIs and RPC APIs. It is used by [gRPC](https://github.com/grpc). Each `Status` message contains three pieces of data: error code, error message, and error details. You can find out more about this error model and how to work with it in the [API Design Guide](https://cloud.google.com/apis/design/errors). # [Output Only] If state is `ABANDONED` or `FAILED`, this field is populated. "code": 42, # The status code, which should be an enum value of google.rpc.Code. "details": [ # A list of messages that carry the error details. There is a common set of message types for APIs to use. { "a_key": "", # Properties of the object. Contains field @type with type URL. }, ], "message": "A String", # A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the google.rpc.Status.details field, or localized by the client. }, "state": "A String", # [Output Only] Status of the action, which can be one of the following: `PROPAGATING`, `PROPAGATED`, `ABANDONED`, `FAILED`, or `DONE`. }, }, }, "startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format. "status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`. "statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation. "targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource. "targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the disk that the snapshot was created from. "user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com` or `alice_smith_identifier (global/workforcePools/example-com-us-employees)`. "warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated. { "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, ], "zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations. }
get(project, zone, futureReservation, x__xgafv=None)
Retrieves information about the specified future reservation. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) futureReservation: string, Name of the future reservation to retrieve. Name should conform to RFC1035. (required) x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { "autoCreatedReservationsDeleteTime": "A String", # Future timestamp when the FR auto-created reservations will be deleted by Compute Engine. Format of this field must be a valid href="https://www.ietf.org/rfc/rfc3339.txt">RFC3339 value. "autoCreatedReservationsDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the duration of auto-created reservations. It represents relative time to future reservation start_time when auto-created reservations will be automatically deleted by Compute Engine. Duration time unit is represented as a count of seconds and fractions of seconds at nanosecond resolution. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "autoDeleteAutoCreatedReservations": True or False, # Setting for enabling or disabling automatic deletion for auto-created reservation. If set to true, auto-created reservations will be deleted at Future Reservation's end time (default) or at user's defined timestamp if any of the [auto_created_reservations_delete_time, auto_created_reservations_duration] values is specified. For keeping auto-created reservation indefinitely, this value should be set to false. "creationTimestamp": "A String", # [Output Only] The creation timestamp for this future reservation in RFC3339 text format. "deploymentType": "A String", # Type of the deployment requested as part of future reservation. "description": "A String", # An optional description of this resource. Provide this property when you create the future reservation. "enableOpportunisticMaintenance": True or False, # Indicates if this group of VMs have opportunistic maintenance enabled. This will be set on the FR by customers, and will be used for reservation and reservation block maintenance . "id": "A String", # [Output Only] A unique identifier for this future reservation. The server defines this identifier. "instanceTerminationAction": "A String", # Action to take during reservation termination. "kind": "compute#futureReservation", # [Output Only] Type of the resource. Always compute#futureReservation for future reservations. "name": "A String", # The name of the resource, provided by the client when initially creating the resource. The resource name must be 1-63 characters long, and comply with RFC1035. 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. "namePrefix": "A String", # Name prefix for the reservations to be created at the time of delivery. The name prefix must comply with RFC1035. Maximum allowed length for name prefix is 20. Automatically created reservations name format will be -date-####. "planningStatus": "A String", # Planning state before being submitted for evaluation "reservationName": "A String", # Name of reservations where the capacity is provisioned at the time of delivery of future reservations. If the reservation with the given name does not exist already, it is created automatically at the time of Approval with INACTIVE state till specified start-time. Either provide the reservation_name or a name_prefix. "schedulingType": "A String", # Maintenance information for this reservation "selfLink": "A String", # [Output Only] Server-defined fully-qualified URL for this resource. "selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # List of Projects/Folders to share with. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificReservationRequired": True or False, # Indicates whether the auto-created reservation can be consumed by VMs with affinity for "any" reservation. If the field is set, then only VMs that target the reservation by name can consume from the delivered reservation. "specificSkuProperties": { # Future Reservation configuration to indicate instance properties and total count. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "status": { # [Output only] Represents status related to the future reservation. # [Output only] Status of the Future Reservation "amendmentStatus": "A String", # [Output Only] The current status of the requested amendment. "autoCreatedReservations": [ # Fully qualified urls of the automatically created reservations at start_time. "A String", ], "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the existing matching usage for the future reservation. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "fulfilledCount": "A String", # This count indicates the fulfilled capacity so far. This is set during "PROVISIONING" state. This count also includes capacity delivered as part of existing matching reservations. "lastKnownGoodState": { # The state that the future reservation will be reverted to should the amendment be declined. # [Output Only] This field represents the future reservation before an amendment was requested. If the amendment is declined, the Future Reservation will be reverted to the last known good state. The last known good state is not set when updating a future reservation whose Procurement Status is DRAFTING. "description": "A String", # [Output Only] The description of the FutureReservation before an amendment was requested. "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the matching usage for the future reservation before an amendment was requested. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "futureReservationSpecs": { # The properties of the last known good state for the Future Reservation. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # [Output Only] The previous share settings of the Future Reservation. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificSkuProperties": { # [Output Only] The previous instance related properties of the Future Reservation. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "timeWindow": { # [Output Only] The previous time window of the Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, }, "lockTime": "A String", # [Output Only] The lock time of the FutureReservation before an amendment was requested. "namePrefix": "A String", # [Output Only] The name prefix of the Future Reservation before an amendment was requested. "procurementStatus": "A String", # [Output Only] The status of the last known good state for the Future Reservation. }, "lockTime": "A String", # Time when Future Reservation would become LOCKED, after which no modifications to Future Reservation will be allowed. Applicable only after the Future Reservation is in the APPROVED state. The lock_time is an RFC3339 string. The procurement_status will transition to PROCURING state at this time. "procurementStatus": "A String", # Current state of this Future Reservation "specificSkuProperties": { # Properties to be set for the Future Reservation. "sourceInstanceTemplateId": "A String", # ID of the instance template used to populate the Future Reservation properties. }, }, "timeWindow": { # Time window for this Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, "zone": "A String", # [Output Only] URL of the Zone where this future reservation resides. }
insert(project, zone, body=None, requestId=None, x__xgafv=None)
Creates a new Future Reservation. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) body: object, The request body. The object takes the form of: { "autoCreatedReservationsDeleteTime": "A String", # Future timestamp when the FR auto-created reservations will be deleted by Compute Engine. Format of this field must be a valid href="https://www.ietf.org/rfc/rfc3339.txt">RFC3339 value. "autoCreatedReservationsDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the duration of auto-created reservations. It represents relative time to future reservation start_time when auto-created reservations will be automatically deleted by Compute Engine. Duration time unit is represented as a count of seconds and fractions of seconds at nanosecond resolution. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "autoDeleteAutoCreatedReservations": True or False, # Setting for enabling or disabling automatic deletion for auto-created reservation. If set to true, auto-created reservations will be deleted at Future Reservation's end time (default) or at user's defined timestamp if any of the [auto_created_reservations_delete_time, auto_created_reservations_duration] values is specified. For keeping auto-created reservation indefinitely, this value should be set to false. "creationTimestamp": "A String", # [Output Only] The creation timestamp for this future reservation in RFC3339 text format. "deploymentType": "A String", # Type of the deployment requested as part of future reservation. "description": "A String", # An optional description of this resource. Provide this property when you create the future reservation. "enableOpportunisticMaintenance": True or False, # Indicates if this group of VMs have opportunistic maintenance enabled. This will be set on the FR by customers, and will be used for reservation and reservation block maintenance . "id": "A String", # [Output Only] A unique identifier for this future reservation. The server defines this identifier. "instanceTerminationAction": "A String", # Action to take during reservation termination. "kind": "compute#futureReservation", # [Output Only] Type of the resource. Always compute#futureReservation for future reservations. "name": "A String", # The name of the resource, provided by the client when initially creating the resource. The resource name must be 1-63 characters long, and comply with RFC1035. 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. "namePrefix": "A String", # Name prefix for the reservations to be created at the time of delivery. The name prefix must comply with RFC1035. Maximum allowed length for name prefix is 20. Automatically created reservations name format will be -date-####. "planningStatus": "A String", # Planning state before being submitted for evaluation "reservationName": "A String", # Name of reservations where the capacity is provisioned at the time of delivery of future reservations. If the reservation with the given name does not exist already, it is created automatically at the time of Approval with INACTIVE state till specified start-time. Either provide the reservation_name or a name_prefix. "schedulingType": "A String", # Maintenance information for this reservation "selfLink": "A String", # [Output Only] Server-defined fully-qualified URL for this resource. "selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # List of Projects/Folders to share with. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificReservationRequired": True or False, # Indicates whether the auto-created reservation can be consumed by VMs with affinity for "any" reservation. If the field is set, then only VMs that target the reservation by name can consume from the delivered reservation. "specificSkuProperties": { # Future Reservation configuration to indicate instance properties and total count. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "status": { # [Output only] Represents status related to the future reservation. # [Output only] Status of the Future Reservation "amendmentStatus": "A String", # [Output Only] The current status of the requested amendment. "autoCreatedReservations": [ # Fully qualified urls of the automatically created reservations at start_time. "A String", ], "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the existing matching usage for the future reservation. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "fulfilledCount": "A String", # This count indicates the fulfilled capacity so far. This is set during "PROVISIONING" state. This count also includes capacity delivered as part of existing matching reservations. "lastKnownGoodState": { # The state that the future reservation will be reverted to should the amendment be declined. # [Output Only] This field represents the future reservation before an amendment was requested. If the amendment is declined, the Future Reservation will be reverted to the last known good state. The last known good state is not set when updating a future reservation whose Procurement Status is DRAFTING. "description": "A String", # [Output Only] The description of the FutureReservation before an amendment was requested. "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the matching usage for the future reservation before an amendment was requested. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "futureReservationSpecs": { # The properties of the last known good state for the Future Reservation. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # [Output Only] The previous share settings of the Future Reservation. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificSkuProperties": { # [Output Only] The previous instance related properties of the Future Reservation. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "timeWindow": { # [Output Only] The previous time window of the Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, }, "lockTime": "A String", # [Output Only] The lock time of the FutureReservation before an amendment was requested. "namePrefix": "A String", # [Output Only] The name prefix of the Future Reservation before an amendment was requested. "procurementStatus": "A String", # [Output Only] The status of the last known good state for the Future Reservation. }, "lockTime": "A String", # Time when Future Reservation would become LOCKED, after which no modifications to Future Reservation will be allowed. Applicable only after the Future Reservation is in the APPROVED state. The lock_time is an RFC3339 string. The procurement_status will transition to PROCURING state at this time. "procurementStatus": "A String", # Current state of this Future Reservation "specificSkuProperties": { # Properties to be set for the Future Reservation. "sourceInstanceTemplateId": "A String", # ID of the instance template used to populate the Future Reservation properties. }, }, "timeWindow": { # Time window for this Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, "zone": "A String", # [Output Only] URL of the Zone where this future reservation resides. } requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000). x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/beta/globalOperations) * [Regional](/compute/docs/reference/rest/beta/regionOperations) * [Zonal](/compute/docs/reference/rest/beta/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zoneOperations` resource. For more information, read Global, Regional, and Zonal Resources. Note that completed Operation resources have a limited retention period. "clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise. "creationTimestamp": "A String", # [Deprecated] This field is deprecated. "description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created. "endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format. "error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated. "errors": [ # [Output Only] The array of errors encountered while processing this operation. { "code": "A String", # [Output Only] The error type identifier for this error. "errorDetails": [ # [Output Only] An optional list of messages that contain the error details. There is a set of defined message types to use for providing details.The syntax depends on the error code. For example, QuotaExceededInfo will have details when the error code is QUOTA_EXCEEDED. { "errorInfo": { # Describes the cause of the error with structured details. Example of an error when contacting the "pubsub.googleapis.com" API when it is not enabled: { "reason": "API_DISABLED" "domain": "googleapis.com" "metadata": { "resource": "projects/123", "service": "pubsub.googleapis.com" } } This response indicates that the pubsub.googleapis.com API is not enabled. Example of an error that is returned when attempting to create a Spanner instance in a region that is out of stock: { "reason": "STOCKOUT" "domain": "spanner.googleapis.com", "metadata": { "availableRegions": "us-central1,us-east2" } } "domain": "A String", # The logical grouping to which the "reason" belongs. The error domain is typically the registered service name of the tool or product that generates the error. Example: "pubsub.googleapis.com". If the error is generated by some common infrastructure, the error domain must be a globally unique value that identifies the infrastructure. For Google API infrastructure, the error domain is "googleapis.com". "metadatas": { # Additional structured details about this error. Keys must match /a-z+/ but should ideally be lowerCamelCase. Also they must be limited to 64 characters in length. When identifying the current value of an exceeded limit, the units should be contained in the key, not the value. For example, rather than {"instanceLimit": "100/request"}, should be returned as, {"instanceLimitPerRequest": "100"}, if the client exceeds the number of instances that can be created in a single (batch) request. "a_key": "A String", }, "reason": "A String", # The reason of the error. This is a constant value that identifies the proximate cause of the error. Error reasons are unique within a particular domain of errors. This should be at most 63 characters and match a regular expression of `A-Z+[A-Z0-9]`, which represents UPPER_SNAKE_CASE. }, "help": { # Provides links to documentation or for performing an out of band action. For example, if a quota check failed with an error indicating the calling project hasn't enabled the accessed service, this can contain a URL pointing directly to the right place in the developer console to flip the bit. "links": [ # URL(s) pointing to additional information on handling the current error. { # Describes a URL link. "description": "A String", # Describes what the link offers. "url": "A String", # The URL of the link. }, ], }, "localizedMessage": { # Provides a localized error message that is safe to return to the user which can be attached to an RPC error. "locale": "A String", # The locale used following the specification defined at https://www.rfc-editor.org/rfc/bcp/bcp47.txt. Examples are: "en-US", "fr-CH", "es-MX" "message": "A String", # The localized error message in the above locale. }, "quotaInfo": { # Additional details for quota exceeded error for resource quota. "dimensions": { # The map holding related quota dimensions. "a_key": "A String", }, "futureLimit": 3.14, # Future quota limit being rolled out. The limit's unit depends on the quota type or metric. "limit": 3.14, # Current effective quota limit. The limit's unit depends on the quota type or metric. "limitName": "A String", # The name of the quota limit. "metricName": "A String", # The Compute Engine quota metric name. "rolloutStatus": "A String", # Rollout status of the future quota limit. }, }, ], "location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional. "message": "A String", # [Output Only] An optional, human-readable error message. }, ], }, "httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`. "httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found. "id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server. "insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format. "instancesBulkInsertOperationMetadata": { "perLocationStatus": { # Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "createdVmCount": 42, # [Output Only] Count of VMs successfully created so far. "deletedVmCount": 42, # [Output Only] Count of VMs that got deleted during rollback. "failedToCreateVmCount": 42, # [Output Only] Count of VMs that started creating but encountered an error. "status": "A String", # [Output Only] Creation status of BulkInsert operation - information if the flow is rolling forward or rolling back. "targetVmCount": 42, # [Output Only] Count of VMs originally planned to be created. }, }, }, "kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources. "name": "A String", # [Output Only] Name of the operation. "operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request. "operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on. "progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses. "region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations. "selfLink": "A String", # [Output Only] Server-defined URL for the resource. "setCommonInstanceMetadataOperationMetadata": { # [Output Only] If the operation is for projects.setCommonInstanceMetadata, this field will contain information on all underlying zonal actions and their state. "clientOperationId": "A String", # [Output Only] The client operation id. "perLocationOperations": { # [Output Only] Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "error": { # The `Status` type defines a logical error model that is suitable for different programming environments, including REST APIs and RPC APIs. It is used by [gRPC](https://github.com/grpc). Each `Status` message contains three pieces of data: error code, error message, and error details. You can find out more about this error model and how to work with it in the [API Design Guide](https://cloud.google.com/apis/design/errors). # [Output Only] If state is `ABANDONED` or `FAILED`, this field is populated. "code": 42, # The status code, which should be an enum value of google.rpc.Code. "details": [ # A list of messages that carry the error details. There is a common set of message types for APIs to use. { "a_key": "", # Properties of the object. Contains field @type with type URL. }, ], "message": "A String", # A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the google.rpc.Status.details field, or localized by the client. }, "state": "A String", # [Output Only] Status of the action, which can be one of the following: `PROPAGATING`, `PROPAGATED`, `ABANDONED`, `FAILED`, or `DONE`. }, }, }, "startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format. "status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`. "statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation. "targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource. "targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the disk that the snapshot was created from. "user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com` or `alice_smith_identifier (global/workforcePools/example-com-us-employees)`. "warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated. { "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, ], "zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations. }
list(project, zone, filter=None, maxResults=None, orderBy=None, pageToken=None, returnPartialSuccess=None, x__xgafv=None)
A list of all the future reservations that have been configured for the specified project in specified zone. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) filter: string, A filter expression that filters resources listed in the response. Most Compute resources support two types of filter expressions: expressions that support regular expressions and expressions that follow API improvement proposal AIP-160. These two types of filter expressions cannot be mixed in one request. If you want to use AIP-160, your expression must specify the field name, an operator, and the value that you want to use for filtering. The value must be a string, a number, or a boolean. The operator must be either `=`, `!=`, `>`, `<`, `<=`, `>=` or `:`. For example, if you are filtering Compute Engine instances, you can exclude instances named `example-instance` by specifying `name != example-instance`. The `:*` comparison can be used to test whether a key has been defined. For example, to find all objects with `owner` label use: ``` labels.owner:* ``` You can also filter nested fields. For example, you could specify `scheduling.automaticRestart = false` to include instances only if they are not scheduled for automatic restarts. You can use filtering on nested fields to filter based on resource labels. To filter on multiple expressions, provide each separate expression within parentheses. For example: ``` (scheduling.automaticRestart = true) (cpuPlatform = "Intel Skylake") ``` By default, each expression is an `AND` expression. However, you can include `AND` and `OR` expressions explicitly. For example: ``` (cpuPlatform = "Intel Skylake") OR (cpuPlatform = "Intel Broadwell") AND (scheduling.automaticRestart = true) ``` If you want to use a regular expression, use the `eq` (equal) or `ne` (not equal) operator against a single un-parenthesized expression with or without quotes or against multiple parenthesized expressions. Examples: `fieldname eq unquoted literal` `fieldname eq 'single quoted literal'` `fieldname eq "double quoted literal"` `(fieldname1 eq literal) (fieldname2 ne "literal")` The literal value is interpreted as a regular expression using Google RE2 library syntax. The literal value must match the entire field. For example, to filter for instances that do not end with name "instance", you would use `name ne .*instance`. You cannot combine constraints on multiple fields using regular expressions. maxResults: integer, The maximum number of results per page that should be returned. If the number of available results is larger than `maxResults`, Compute Engine returns a `nextPageToken` that can be used to get the next page of results in subsequent list requests. Acceptable values are `0` to `500`, inclusive. (Default: `500`) orderBy: string, Sorts list results by a certain order. By default, results are returned in alphanumerical order based on the resource name. You can also sort results in descending order based on the creation timestamp using `orderBy="creationTimestamp desc"`. This sorts results based on the `creationTimestamp` field in reverse chronological order (newest result first). Use this to sort resources like operations so that the newest operation is returned first. Currently, only sorting by `name` or `creationTimestamp desc` is supported. pageToken: string, Specifies a page token to use. Set `pageToken` to the `nextPageToken` returned by a previous list request to get the next page of results. returnPartialSuccess: boolean, Opt-in for partial success behavior which provides partial results in case of failure. The default value is false. For example, when partial success behavior is enabled, aggregatedList for a single zone scope either returns all resources in the zone or no resources, with an error code. x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { "etag": "A String", "id": "A String", # [Output Only] The unique identifier for the resource. This identifier is defined by the server. "items": [ # [Output Only] A list of future reservation resources. { "autoCreatedReservationsDeleteTime": "A String", # Future timestamp when the FR auto-created reservations will be deleted by Compute Engine. Format of this field must be a valid href="https://www.ietf.org/rfc/rfc3339.txt">RFC3339 value. "autoCreatedReservationsDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the duration of auto-created reservations. It represents relative time to future reservation start_time when auto-created reservations will be automatically deleted by Compute Engine. Duration time unit is represented as a count of seconds and fractions of seconds at nanosecond resolution. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "autoDeleteAutoCreatedReservations": True or False, # Setting for enabling or disabling automatic deletion for auto-created reservation. If set to true, auto-created reservations will be deleted at Future Reservation's end time (default) or at user's defined timestamp if any of the [auto_created_reservations_delete_time, auto_created_reservations_duration] values is specified. For keeping auto-created reservation indefinitely, this value should be set to false. "creationTimestamp": "A String", # [Output Only] The creation timestamp for this future reservation in RFC3339 text format. "deploymentType": "A String", # Type of the deployment requested as part of future reservation. "description": "A String", # An optional description of this resource. Provide this property when you create the future reservation. "enableOpportunisticMaintenance": True or False, # Indicates if this group of VMs have opportunistic maintenance enabled. This will be set on the FR by customers, and will be used for reservation and reservation block maintenance . "id": "A String", # [Output Only] A unique identifier for this future reservation. The server defines this identifier. "instanceTerminationAction": "A String", # Action to take during reservation termination. "kind": "compute#futureReservation", # [Output Only] Type of the resource. Always compute#futureReservation for future reservations. "name": "A String", # The name of the resource, provided by the client when initially creating the resource. The resource name must be 1-63 characters long, and comply with RFC1035. 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. "namePrefix": "A String", # Name prefix for the reservations to be created at the time of delivery. The name prefix must comply with RFC1035. Maximum allowed length for name prefix is 20. Automatically created reservations name format will be -date-####. "planningStatus": "A String", # Planning state before being submitted for evaluation "reservationName": "A String", # Name of reservations where the capacity is provisioned at the time of delivery of future reservations. If the reservation with the given name does not exist already, it is created automatically at the time of Approval with INACTIVE state till specified start-time. Either provide the reservation_name or a name_prefix. "schedulingType": "A String", # Maintenance information for this reservation "selfLink": "A String", # [Output Only] Server-defined fully-qualified URL for this resource. "selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # List of Projects/Folders to share with. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificReservationRequired": True or False, # Indicates whether the auto-created reservation can be consumed by VMs with affinity for "any" reservation. If the field is set, then only VMs that target the reservation by name can consume from the delivered reservation. "specificSkuProperties": { # Future Reservation configuration to indicate instance properties and total count. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "status": { # [Output only] Represents status related to the future reservation. # [Output only] Status of the Future Reservation "amendmentStatus": "A String", # [Output Only] The current status of the requested amendment. "autoCreatedReservations": [ # Fully qualified urls of the automatically created reservations at start_time. "A String", ], "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the existing matching usage for the future reservation. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "fulfilledCount": "A String", # This count indicates the fulfilled capacity so far. This is set during "PROVISIONING" state. This count also includes capacity delivered as part of existing matching reservations. "lastKnownGoodState": { # The state that the future reservation will be reverted to should the amendment be declined. # [Output Only] This field represents the future reservation before an amendment was requested. If the amendment is declined, the Future Reservation will be reverted to the last known good state. The last known good state is not set when updating a future reservation whose Procurement Status is DRAFTING. "description": "A String", # [Output Only] The description of the FutureReservation before an amendment was requested. "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the matching usage for the future reservation before an amendment was requested. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "futureReservationSpecs": { # The properties of the last known good state for the Future Reservation. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # [Output Only] The previous share settings of the Future Reservation. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificSkuProperties": { # [Output Only] The previous instance related properties of the Future Reservation. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "timeWindow": { # [Output Only] The previous time window of the Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, }, "lockTime": "A String", # [Output Only] The lock time of the FutureReservation before an amendment was requested. "namePrefix": "A String", # [Output Only] The name prefix of the Future Reservation before an amendment was requested. "procurementStatus": "A String", # [Output Only] The status of the last known good state for the Future Reservation. }, "lockTime": "A String", # Time when Future Reservation would become LOCKED, after which no modifications to Future Reservation will be allowed. Applicable only after the Future Reservation is in the APPROVED state. The lock_time is an RFC3339 string. The procurement_status will transition to PROCURING state at this time. "procurementStatus": "A String", # Current state of this Future Reservation "specificSkuProperties": { # Properties to be set for the Future Reservation. "sourceInstanceTemplateId": "A String", # ID of the instance template used to populate the Future Reservation properties. }, }, "timeWindow": { # Time window for this Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, "zone": "A String", # [Output Only] URL of the Zone where this future reservation resides. }, ], "kind": "compute#futureReservationsListResponse", # [Output Only] Type of resource.Always compute#FutureReservationsListResponse for lists of reservations "nextPageToken": "A String", # [Output Only] This token allows you to get the next page of results for list requests. If the number of results is larger than maxResults, use the nextPageToken as a value for the query parameter pageToken in the next list request. Subsequent list requests will have their own nextPageToken to continue paging through the results. "selfLink": "A String", # [Output Only] Server-defined URL for this resource. "unreachables": [ # [Output Only] Unreachable resources. "A String", ], "warning": { # [Output Only] Informational warning message. "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, }
list_next()
Retrieves the next page of results. Args: previous_request: The request for the previous page. (required) previous_response: The response from the request for the previous page. (required) Returns: A request object that you can call 'execute()' on to request the next page. Returns None if there are no more items in the collection.
update(project, zone, futureReservation, body=None, requestId=None, updateMask=None, x__xgafv=None)
Updates the specified future reservation. Args: project: string, Project ID for this request. (required) zone: string, Name of the zone for this request. Name should conform to RFC1035. (required) futureReservation: string, Name of the reservation to update. Name should conform to RFC1035. (required) body: object, The request body. The object takes the form of: { "autoCreatedReservationsDeleteTime": "A String", # Future timestamp when the FR auto-created reservations will be deleted by Compute Engine. Format of this field must be a valid href="https://www.ietf.org/rfc/rfc3339.txt">RFC3339 value. "autoCreatedReservationsDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the duration of auto-created reservations. It represents relative time to future reservation start_time when auto-created reservations will be automatically deleted by Compute Engine. Duration time unit is represented as a count of seconds and fractions of seconds at nanosecond resolution. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "autoDeleteAutoCreatedReservations": True or False, # Setting for enabling or disabling automatic deletion for auto-created reservation. If set to true, auto-created reservations will be deleted at Future Reservation's end time (default) or at user's defined timestamp if any of the [auto_created_reservations_delete_time, auto_created_reservations_duration] values is specified. For keeping auto-created reservation indefinitely, this value should be set to false. "creationTimestamp": "A String", # [Output Only] The creation timestamp for this future reservation in RFC3339 text format. "deploymentType": "A String", # Type of the deployment requested as part of future reservation. "description": "A String", # An optional description of this resource. Provide this property when you create the future reservation. "enableOpportunisticMaintenance": True or False, # Indicates if this group of VMs have opportunistic maintenance enabled. This will be set on the FR by customers, and will be used for reservation and reservation block maintenance . "id": "A String", # [Output Only] A unique identifier for this future reservation. The server defines this identifier. "instanceTerminationAction": "A String", # Action to take during reservation termination. "kind": "compute#futureReservation", # [Output Only] Type of the resource. Always compute#futureReservation for future reservations. "name": "A String", # The name of the resource, provided by the client when initially creating the resource. The resource name must be 1-63 characters long, and comply with RFC1035. 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. "namePrefix": "A String", # Name prefix for the reservations to be created at the time of delivery. The name prefix must comply with RFC1035. Maximum allowed length for name prefix is 20. Automatically created reservations name format will be -date-####. "planningStatus": "A String", # Planning state before being submitted for evaluation "reservationName": "A String", # Name of reservations where the capacity is provisioned at the time of delivery of future reservations. If the reservation with the given name does not exist already, it is created automatically at the time of Approval with INACTIVE state till specified start-time. Either provide the reservation_name or a name_prefix. "schedulingType": "A String", # Maintenance information for this reservation "selfLink": "A String", # [Output Only] Server-defined fully-qualified URL for this resource. "selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # List of Projects/Folders to share with. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificReservationRequired": True or False, # Indicates whether the auto-created reservation can be consumed by VMs with affinity for "any" reservation. If the field is set, then only VMs that target the reservation by name can consume from the delivered reservation. "specificSkuProperties": { # Future Reservation configuration to indicate instance properties and total count. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "status": { # [Output only] Represents status related to the future reservation. # [Output only] Status of the Future Reservation "amendmentStatus": "A String", # [Output Only] The current status of the requested amendment. "autoCreatedReservations": [ # Fully qualified urls of the automatically created reservations at start_time. "A String", ], "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the existing matching usage for the future reservation. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "fulfilledCount": "A String", # This count indicates the fulfilled capacity so far. This is set during "PROVISIONING" state. This count also includes capacity delivered as part of existing matching reservations. "lastKnownGoodState": { # The state that the future reservation will be reverted to should the amendment be declined. # [Output Only] This field represents the future reservation before an amendment was requested. If the amendment is declined, the Future Reservation will be reverted to the last known good state. The last known good state is not set when updating a future reservation whose Procurement Status is DRAFTING. "description": "A String", # [Output Only] The description of the FutureReservation before an amendment was requested. "existingMatchingUsageInfo": { # [Output Only] Represents the existing matching usage for the future reservation. # [Output Only] Represents the matching usage for the future reservation before an amendment was requested. "count": "A String", # Count to represent min(FR total_count, matching_reserved_capacity+matching_unreserved_instances) "timestamp": "A String", # Timestamp when the matching usage was calculated }, "futureReservationSpecs": { # The properties of the last known good state for the Future Reservation. "shareSettings": { # The share setting for reservations and sole tenancy node groups. # [Output Only] The previous share settings of the Future Reservation. "projectMap": { # A map of project id and project config. This is only valid when share_type's value is SPECIFIC_PROJECTS. "a_key": { # Config for each project in the share settings. "projectId": "A String", # The project ID, should be same as the key of this project config in the parent map. }, }, "projects": [ # A List of Project names to specify consumer projects for this shared-reservation. This is only valid when share_type's value is SPECIFIC_PROJECTS. "A String", ], "shareType": "A String", # Type of sharing for this shared-reservation }, "specificSkuProperties": { # [Output Only] The previous instance related properties of the Future Reservation. "instanceProperties": { # Properties of the SKU instances being reserved. Next ID: 9 # Properties of the SKU instances being reserved. "guestAccelerators": [ # Specifies accelerator type and count. { # A specification of the type and number of accelerator cards attached to the instance. "acceleratorCount": 42, # The number of the guest accelerator cards exposed to this instance. "acceleratorType": "A String", # Full or partial URL of the accelerator type resource to attach to this instance. For example: projects/my-project/zones/us-central1-c/acceleratorTypes/nvidia-tesla-p100 If you are creating an instance template, specify only the accelerator name. See GPUs on Compute Engine for a full list of accelerator types. }, ], "localSsds": [ # Specifies amount of local ssd to reserve with each instance. The type of disk is local-ssd. { "diskSizeGb": "A String", # Specifies the size of the disk in base-2 GB. "interface": "A String", # Specifies the disk interface to use for attaching this disk, which is either SCSI or NVME. The default is SCSI. For performance characteristics of SCSI over NVMe, see Local SSD performance. }, ], "locationHint": "A String", # An opaque location hint used to place the allocation close to other resources. This field is for use by internal tools that use the public API. "machineType": "A String", # Specifies type of machine (name only) which has fixed number of vCPUs and fixed amount of memory. This also includes specifying custom machine type following custom-NUMBER_OF_CPUS-AMOUNT_OF_MEMORY pattern. "maintenanceFreezeDurationHours": 42, # Specifies the number of hours after reservation creation where instances using the reservation won't be scheduled for maintenance. "maintenanceInterval": "A String", # Specifies the frequency of planned maintenance events. The accepted values are: `PERIODIC`. "minCpuPlatform": "A String", # Minimum cpu platform the reservation. }, "sourceInstanceTemplate": "A String", # The instance template that will be used to populate the ReservedInstanceProperties of the future reservation "totalCount": "A String", # Total number of instances for which capacity assurance is requested at a future time period. }, "timeWindow": { # [Output Only] The previous time window of the Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, }, "lockTime": "A String", # [Output Only] The lock time of the FutureReservation before an amendment was requested. "namePrefix": "A String", # [Output Only] The name prefix of the Future Reservation before an amendment was requested. "procurementStatus": "A String", # [Output Only] The status of the last known good state for the Future Reservation. }, "lockTime": "A String", # Time when Future Reservation would become LOCKED, after which no modifications to Future Reservation will be allowed. Applicable only after the Future Reservation is in the APPROVED state. The lock_time is an RFC3339 string. The procurement_status will transition to PROCURING state at this time. "procurementStatus": "A String", # Current state of this Future Reservation "specificSkuProperties": { # Properties to be set for the Future Reservation. "sourceInstanceTemplateId": "A String", # ID of the instance template used to populate the Future Reservation properties. }, }, "timeWindow": { # Time window for this Future Reservation. "duration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. "nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive. "seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years }, "endTime": "A String", "startTime": "A String", # Start time of the Future Reservation. The start_time is an RFC3339 string. }, "zone": "A String", # [Output Only] URL of the Zone where this future reservation resides. } requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000). updateMask: string, update_mask indicates fields to be updated as part of this request. x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/beta/globalOperations) * [Regional](/compute/docs/reference/rest/beta/regionOperations) * [Zonal](/compute/docs/reference/rest/beta/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zoneOperations` resource. For more information, read Global, Regional, and Zonal Resources. Note that completed Operation resources have a limited retention period. "clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise. "creationTimestamp": "A String", # [Deprecated] This field is deprecated. "description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created. "endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format. "error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated. "errors": [ # [Output Only] The array of errors encountered while processing this operation. { "code": "A String", # [Output Only] The error type identifier for this error. "errorDetails": [ # [Output Only] An optional list of messages that contain the error details. There is a set of defined message types to use for providing details.The syntax depends on the error code. For example, QuotaExceededInfo will have details when the error code is QUOTA_EXCEEDED. { "errorInfo": { # Describes the cause of the error with structured details. Example of an error when contacting the "pubsub.googleapis.com" API when it is not enabled: { "reason": "API_DISABLED" "domain": "googleapis.com" "metadata": { "resource": "projects/123", "service": "pubsub.googleapis.com" } } This response indicates that the pubsub.googleapis.com API is not enabled. Example of an error that is returned when attempting to create a Spanner instance in a region that is out of stock: { "reason": "STOCKOUT" "domain": "spanner.googleapis.com", "metadata": { "availableRegions": "us-central1,us-east2" } } "domain": "A String", # The logical grouping to which the "reason" belongs. The error domain is typically the registered service name of the tool or product that generates the error. Example: "pubsub.googleapis.com". If the error is generated by some common infrastructure, the error domain must be a globally unique value that identifies the infrastructure. For Google API infrastructure, the error domain is "googleapis.com". "metadatas": { # Additional structured details about this error. Keys must match /a-z+/ but should ideally be lowerCamelCase. Also they must be limited to 64 characters in length. When identifying the current value of an exceeded limit, the units should be contained in the key, not the value. For example, rather than {"instanceLimit": "100/request"}, should be returned as, {"instanceLimitPerRequest": "100"}, if the client exceeds the number of instances that can be created in a single (batch) request. "a_key": "A String", }, "reason": "A String", # The reason of the error. This is a constant value that identifies the proximate cause of the error. Error reasons are unique within a particular domain of errors. This should be at most 63 characters and match a regular expression of `A-Z+[A-Z0-9]`, which represents UPPER_SNAKE_CASE. }, "help": { # Provides links to documentation or for performing an out of band action. For example, if a quota check failed with an error indicating the calling project hasn't enabled the accessed service, this can contain a URL pointing directly to the right place in the developer console to flip the bit. "links": [ # URL(s) pointing to additional information on handling the current error. { # Describes a URL link. "description": "A String", # Describes what the link offers. "url": "A String", # The URL of the link. }, ], }, "localizedMessage": { # Provides a localized error message that is safe to return to the user which can be attached to an RPC error. "locale": "A String", # The locale used following the specification defined at https://www.rfc-editor.org/rfc/bcp/bcp47.txt. Examples are: "en-US", "fr-CH", "es-MX" "message": "A String", # The localized error message in the above locale. }, "quotaInfo": { # Additional details for quota exceeded error for resource quota. "dimensions": { # The map holding related quota dimensions. "a_key": "A String", }, "futureLimit": 3.14, # Future quota limit being rolled out. The limit's unit depends on the quota type or metric. "limit": 3.14, # Current effective quota limit. The limit's unit depends on the quota type or metric. "limitName": "A String", # The name of the quota limit. "metricName": "A String", # The Compute Engine quota metric name. "rolloutStatus": "A String", # Rollout status of the future quota limit. }, }, ], "location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional. "message": "A String", # [Output Only] An optional, human-readable error message. }, ], }, "httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`. "httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found. "id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server. "insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format. "instancesBulkInsertOperationMetadata": { "perLocationStatus": { # Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "createdVmCount": 42, # [Output Only] Count of VMs successfully created so far. "deletedVmCount": 42, # [Output Only] Count of VMs that got deleted during rollback. "failedToCreateVmCount": 42, # [Output Only] Count of VMs that started creating but encountered an error. "status": "A String", # [Output Only] Creation status of BulkInsert operation - information if the flow is rolling forward or rolling back. "targetVmCount": 42, # [Output Only] Count of VMs originally planned to be created. }, }, }, "kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources. "name": "A String", # [Output Only] Name of the operation. "operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request. "operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on. "progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses. "region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations. "selfLink": "A String", # [Output Only] Server-defined URL for the resource. "setCommonInstanceMetadataOperationMetadata": { # [Output Only] If the operation is for projects.setCommonInstanceMetadata, this field will contain information on all underlying zonal actions and their state. "clientOperationId": "A String", # [Output Only] The client operation id. "perLocationOperations": { # [Output Only] Status information per location (location name is key). Example key: zones/us-central1-a "a_key": { "error": { # The `Status` type defines a logical error model that is suitable for different programming environments, including REST APIs and RPC APIs. It is used by [gRPC](https://github.com/grpc). Each `Status` message contains three pieces of data: error code, error message, and error details. You can find out more about this error model and how to work with it in the [API Design Guide](https://cloud.google.com/apis/design/errors). # [Output Only] If state is `ABANDONED` or `FAILED`, this field is populated. "code": 42, # The status code, which should be an enum value of google.rpc.Code. "details": [ # A list of messages that carry the error details. There is a common set of message types for APIs to use. { "a_key": "", # Properties of the object. Contains field @type with type URL. }, ], "message": "A String", # A developer-facing error message, which should be in English. Any user-facing error message should be localized and sent in the google.rpc.Status.details field, or localized by the client. }, "state": "A String", # [Output Only] Status of the action, which can be one of the following: `PROPAGATING`, `PROPAGATED`, `ABANDONED`, `FAILED`, or `DONE`. }, }, }, "startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format. "status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`. "statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation. "targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource. "targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the disk that the snapshot was created from. "user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com` or `alice_smith_identifier (global/workforcePools/example-com-us-employees)`. "warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated. { "code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response. "data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" } { "key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding). "value": "A String", # [Output Only] A warning data value corresponding to the key. }, ], "message": "A String", # [Output Only] A human-readable description of the warning code. }, ], "zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations. }