Close httplib2 connections.
create(parent, body=None, reportId=None, requestId=None, x__xgafv=None)
Creates a report.
delete(name, requestId=None, x__xgafv=None)
Deletes a Report.
get(name, view=None, x__xgafv=None)
Gets details of a single Report.
list(parent, filter=None, orderBy=None, pageSize=None, pageToken=None, view=None, x__xgafv=None)
Lists Reports in a given ReportConfig.
Retrieves the next page of results.
close()
Close httplib2 connections.
create(parent, body=None, reportId=None, requestId=None, x__xgafv=None)
Creates a report. Args: parent: string, Required. Value for parent. (required) body: object, The request body. The object takes the form of: { # Report represents a point-in-time rendering of the ReportConfig results. "createTime": "A String", # Output only. Creation timestamp. "description": "A String", # Free-text description. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of resource. "state": "A String", # Report creation state. "summary": { # Describes the Summary view of a Report, which contains aggregated values for all the groups and preference sets included in this Report. # Output only. Summary view of the Report. "allAssetsStats": { # Aggregate statistics for a collection of assets. # Aggregate statistics for unique assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "databaseStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique database assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "groupFindings": [ # Findings for each Group included in this report. { # Summary Findings for a specific Group. "assetAggregateStats": { # Aggregate statistics for a collection of assets. # Summary statistics for all the assets in this group. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "assetType": "A String", # Output only. Asset type for the group finding. "databaseType": "A String", # Output only. Source asset database type for the group finding. Only present for databases. "description": "A String", # Description for this group finding. "displayName": "A String", # Display Name for this group finding. "group": "A String", # Output only. Full name of the group. "overlappingAssetCount": "A String", # This field is deprecated, do not rely on it having a value. "preferenceSetFindings": [ # Findings for each of the PreferenceSets for this group. { # Summary Findings for a specific Group/PreferenceSet combination. "databaseFinding": { # DatabaseFinding contains an aggregate costs and shapes for a single database type. # Output only. Details about databases in this finding. Only present for databases. "allocatedAssetCount": "A String", # Output only. Number of database assets which were successfully assigned in this finding. "totalAssets": "A String", # Output only. Number of database assets in this finding. }, "description": "A String", # Description for the Preference Set. "displayName": "A String", # Display Name of the Preference Set "machineFinding": { # A set of findings that applies to assets of type Virtual/Physical Machine. # Output only. A set of findings that applies to all virtual machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which were allocated. "allocatedDiskTypes": [ # Set of disk types allocated to assets. "A String", ], "allocatedRegions": [ # Set of regions in which the assets were allocated. "A String", ], "machineSeriesAllocations": [ # Distribution of assets based on the Machine Series. { # Represents a data point tracking the count of assets allocated for a specific Machine Series. "allocatedAssetCount": "A String", # Count of assets allocated to this machine series. "machineSeries": { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). # The Machine Series (e.g. "E2", "N2") "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, }, ], }, "machinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, "monthlyCostCompute": { # Represents an amount of money with its currency type. # Output only. Compute monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseBackup": { # Represents an amount of money with its currency type. # Output only. Backup monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseLicensing": { # Represents an amount of money with its currency type. # Output only. Database licensing monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostGcveProtected": { # Represents an amount of money with its currency type. # Output only. GCVE Protected nodes cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostNetworkEgress": { # Represents an amount of money with its currency type. # Output only. Network Egress monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOsLicense": { # Represents an amount of money with its currency type. # Output only. All operating systems licensing monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOther": { # Represents an amount of money with its currency type. # Output only. Miscellaneous monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostPortableVmwareLicense": { # Represents an amount of money with its currency type. # Output only. VMware portable license monthly cost for this preference set. Only present for VMware target with portable license service type. This cost is not paid to google, but is an estimate of license costs paid to VMware. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostStorage": { # Represents an amount of money with its currency type. # Output only. Storage monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostTotal": { # Represents an amount of money with its currency type. # Output only. Total monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "preferenceSet": { # The preferences that apply to all assets in a given context. # Output only. A copy of the preference set used for this finding. "createTime": "A String", # Output only. The timestamp when the preference set was created. "databasePreferences": { # DatabasePreferences enables you to create sets of preferences for your migrated databases. # Optional. A set of preferences that applies to all databases in the context. "mssqlToCloudSqlForSqlServerPreferences": { # Preferences for SQL Server on Cloud SQL. # Optional. Preferences for target SQL Server on Cloud SQL when migrating from source Microsoft SQL server. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, "multithreading": "A String", # Optional. Preferences for multithreading support. "versionType": "A String", # Optional. Edition of Microsoft SQL version that is used on a Cloud SQL for SQL server instance. }, "mysqlToCloudSqlForMysqlPreferences": { # Preferences for MySQL on Cloud SQL. # Optional. Preferences for target MySQL on Cloud SQL when migrating from source MySQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, "postgresqlToCloudSqlForPostgresqlPreferences": { # Preferences for PostgreSQL on Cloud SQL. # Optional. Preferences for target PostgreSQL on Cloud SQL when migrating from source PostgreSQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, }, "description": "A String", # A description of the preference set. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of the preference set. "regionPreferences": { # The user preferences relating to target regions. # Optional. Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If unspecified, VirtualMachinePreferences.RegionPreferences is used. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "updateTime": "A String", # Output only. The timestamp when the preference set was last updated. "virtualMachinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all virtual machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, }, "preferredRegion": "A String", # Target region for this Preference Set "pricingTrack": "A String", # Text describing the pricing track specified for this Preference Set "soleTenantFinding": { # A set of findings that applies to assets destined for Sole-Tenant nodes. # A set of findings that applies to Stole-Tenant machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets are allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents the assets allocated to a specific Sole-Tenant node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "node": { # A Sole Tenant node type. # Sole Tenant node type, e.g. "m3-node-128-3904" "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, "nodeCount": "A String", # Count of this node type to be provisioned }, ], }, "topPriority": "A String", # Text describing the business priority specified for this Preference Set "vmwareEngineFinding": { # A set of findings that applies to assets destined for VMWare Engine. # A set of findings that applies to VMWare machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets were allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents assets allocated to a specific VMWare Node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "nodeCount": "A String", # Count of this node type to be provisioned "vmwareNode": { # A VMWare Engine Node # VMWare node type, e.g. "ve1-standard-72" "code": "A String", # Code to identify VMware Engine node series, e.g. "ve1-standard-72". Based on the displayName of cloud.google.com/vmware-engine/docs/reference/rest/v1/projects.locations.nodeTypes }, }, ], }, }, ], }, ], "virtualMachineStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique virtual machine assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, }, "type": "A String", # Report type. "updateTime": "A String", # Output only. Last update timestamp. } reportId: string, Required. User specified id for the report. It will become the last component of the report name. The id must be unique within the project, must conform with RFC-1034, is restricted to lower-cased letters, and has a maximum length of 63 characters. The id must match the regular expression: [a-z]([a-z0-9-]{0,61}[a-z0-9])?. requestId: string, Optional. 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. The server will guarantee that for at least 60 minutes since the first request. 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: { # This resource represents a long-running operation that is the result of a network API call. "done": True or False, # If the value is `false`, it means the operation is still in progress. If `true`, the operation is completed, and either `error` or `response` is available. "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). # The error result of the operation in case of failure or cancellation. "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. }, "metadata": { # Service-specific metadata associated with the operation. It typically contains progress information and common metadata such as create time. Some services might not provide such metadata. Any method that returns a long-running operation should document the metadata type, if any. "a_key": "", # Properties of the object. Contains field @type with type URL. }, "name": "A String", # The server-assigned name, which is only unique within the same service that originally returns it. If you use the default HTTP mapping, the `name` should be a resource name ending with `operations/{unique_id}`. "response": { # The normal, successful response of the operation. If the original method returns no data on success, such as `Delete`, the response is `google.protobuf.Empty`. If the original method is standard `Get`/`Create`/`Update`, the response should be the resource. For other methods, the response should have the type `XxxResponse`, where `Xxx` is the original method name. For example, if the original method name is `TakeSnapshot()`, the inferred response type is `TakeSnapshotResponse`. "a_key": "", # Properties of the object. Contains field @type with type URL. }, }
delete(name, requestId=None, x__xgafv=None)
Deletes a Report. Args: name: string, Required. Name of the resource. (required) requestId: string, Optional. 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. The server will guarantee that for at least 60 minutes after the first request. 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: { # This resource represents a long-running operation that is the result of a network API call. "done": True or False, # If the value is `false`, it means the operation is still in progress. If `true`, the operation is completed, and either `error` or `response` is available. "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). # The error result of the operation in case of failure or cancellation. "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. }, "metadata": { # Service-specific metadata associated with the operation. It typically contains progress information and common metadata such as create time. Some services might not provide such metadata. Any method that returns a long-running operation should document the metadata type, if any. "a_key": "", # Properties of the object. Contains field @type with type URL. }, "name": "A String", # The server-assigned name, which is only unique within the same service that originally returns it. If you use the default HTTP mapping, the `name` should be a resource name ending with `operations/{unique_id}`. "response": { # The normal, successful response of the operation. If the original method returns no data on success, such as `Delete`, the response is `google.protobuf.Empty`. If the original method is standard `Get`/`Create`/`Update`, the response should be the resource. For other methods, the response should have the type `XxxResponse`, where `Xxx` is the original method name. For example, if the original method name is `TakeSnapshot()`, the inferred response type is `TakeSnapshotResponse`. "a_key": "", # Properties of the object. Contains field @type with type URL. }, }
get(name, view=None, x__xgafv=None)
Gets details of a single Report. Args: name: string, Required. Name of the resource. (required) view: string, Determines what information to retrieve for the Report. Allowed values REPORT_VIEW_UNSPECIFIED - The report view is not specified. The API displays the basic view by default. REPORT_VIEW_BASIC - The report view includes only basic metadata of the Report. Useful for list views. REPORT_VIEW_FULL - The report view includes all the metadata of the Report. Useful for preview. REPORT_VIEW_STANDARD - The report view includes the standard metadata of an report. Useful for detail view. x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Report represents a point-in-time rendering of the ReportConfig results. "createTime": "A String", # Output only. Creation timestamp. "description": "A String", # Free-text description. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of resource. "state": "A String", # Report creation state. "summary": { # Describes the Summary view of a Report, which contains aggregated values for all the groups and preference sets included in this Report. # Output only. Summary view of the Report. "allAssetsStats": { # Aggregate statistics for a collection of assets. # Aggregate statistics for unique assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "databaseStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique database assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "groupFindings": [ # Findings for each Group included in this report. { # Summary Findings for a specific Group. "assetAggregateStats": { # Aggregate statistics for a collection of assets. # Summary statistics for all the assets in this group. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "assetType": "A String", # Output only. Asset type for the group finding. "databaseType": "A String", # Output only. Source asset database type for the group finding. Only present for databases. "description": "A String", # Description for this group finding. "displayName": "A String", # Display Name for this group finding. "group": "A String", # Output only. Full name of the group. "overlappingAssetCount": "A String", # This field is deprecated, do not rely on it having a value. "preferenceSetFindings": [ # Findings for each of the PreferenceSets for this group. { # Summary Findings for a specific Group/PreferenceSet combination. "databaseFinding": { # DatabaseFinding contains an aggregate costs and shapes for a single database type. # Output only. Details about databases in this finding. Only present for databases. "allocatedAssetCount": "A String", # Output only. Number of database assets which were successfully assigned in this finding. "totalAssets": "A String", # Output only. Number of database assets in this finding. }, "description": "A String", # Description for the Preference Set. "displayName": "A String", # Display Name of the Preference Set "machineFinding": { # A set of findings that applies to assets of type Virtual/Physical Machine. # Output only. A set of findings that applies to all virtual machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which were allocated. "allocatedDiskTypes": [ # Set of disk types allocated to assets. "A String", ], "allocatedRegions": [ # Set of regions in which the assets were allocated. "A String", ], "machineSeriesAllocations": [ # Distribution of assets based on the Machine Series. { # Represents a data point tracking the count of assets allocated for a specific Machine Series. "allocatedAssetCount": "A String", # Count of assets allocated to this machine series. "machineSeries": { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). # The Machine Series (e.g. "E2", "N2") "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, }, ], }, "machinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, "monthlyCostCompute": { # Represents an amount of money with its currency type. # Output only. Compute monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseBackup": { # Represents an amount of money with its currency type. # Output only. Backup monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseLicensing": { # Represents an amount of money with its currency type. # Output only. Database licensing monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostGcveProtected": { # Represents an amount of money with its currency type. # Output only. GCVE Protected nodes cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostNetworkEgress": { # Represents an amount of money with its currency type. # Output only. Network Egress monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOsLicense": { # Represents an amount of money with its currency type. # Output only. All operating systems licensing monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOther": { # Represents an amount of money with its currency type. # Output only. Miscellaneous monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostPortableVmwareLicense": { # Represents an amount of money with its currency type. # Output only. VMware portable license monthly cost for this preference set. Only present for VMware target with portable license service type. This cost is not paid to google, but is an estimate of license costs paid to VMware. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostStorage": { # Represents an amount of money with its currency type. # Output only. Storage monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostTotal": { # Represents an amount of money with its currency type. # Output only. Total monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "preferenceSet": { # The preferences that apply to all assets in a given context. # Output only. A copy of the preference set used for this finding. "createTime": "A String", # Output only. The timestamp when the preference set was created. "databasePreferences": { # DatabasePreferences enables you to create sets of preferences for your migrated databases. # Optional. A set of preferences that applies to all databases in the context. "mssqlToCloudSqlForSqlServerPreferences": { # Preferences for SQL Server on Cloud SQL. # Optional. Preferences for target SQL Server on Cloud SQL when migrating from source Microsoft SQL server. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, "multithreading": "A String", # Optional. Preferences for multithreading support. "versionType": "A String", # Optional. Edition of Microsoft SQL version that is used on a Cloud SQL for SQL server instance. }, "mysqlToCloudSqlForMysqlPreferences": { # Preferences for MySQL on Cloud SQL. # Optional. Preferences for target MySQL on Cloud SQL when migrating from source MySQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, "postgresqlToCloudSqlForPostgresqlPreferences": { # Preferences for PostgreSQL on Cloud SQL. # Optional. Preferences for target PostgreSQL on Cloud SQL when migrating from source PostgreSQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, }, "description": "A String", # A description of the preference set. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of the preference set. "regionPreferences": { # The user preferences relating to target regions. # Optional. Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If unspecified, VirtualMachinePreferences.RegionPreferences is used. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "updateTime": "A String", # Output only. The timestamp when the preference set was last updated. "virtualMachinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all virtual machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, }, "preferredRegion": "A String", # Target region for this Preference Set "pricingTrack": "A String", # Text describing the pricing track specified for this Preference Set "soleTenantFinding": { # A set of findings that applies to assets destined for Sole-Tenant nodes. # A set of findings that applies to Stole-Tenant machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets are allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents the assets allocated to a specific Sole-Tenant node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "node": { # A Sole Tenant node type. # Sole Tenant node type, e.g. "m3-node-128-3904" "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, "nodeCount": "A String", # Count of this node type to be provisioned }, ], }, "topPriority": "A String", # Text describing the business priority specified for this Preference Set "vmwareEngineFinding": { # A set of findings that applies to assets destined for VMWare Engine. # A set of findings that applies to VMWare machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets were allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents assets allocated to a specific VMWare Node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "nodeCount": "A String", # Count of this node type to be provisioned "vmwareNode": { # A VMWare Engine Node # VMWare node type, e.g. "ve1-standard-72" "code": "A String", # Code to identify VMware Engine node series, e.g. "ve1-standard-72". Based on the displayName of cloud.google.com/vmware-engine/docs/reference/rest/v1/projects.locations.nodeTypes }, }, ], }, }, ], }, ], "virtualMachineStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique virtual machine assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, }, "type": "A String", # Report type. "updateTime": "A String", # Output only. Last update timestamp. }
list(parent, filter=None, orderBy=None, pageSize=None, pageToken=None, view=None, x__xgafv=None)
Lists Reports in a given ReportConfig. Args: parent: string, Required. Parent value for `ListReportsRequest`. (required) filter: string, Filtering results. orderBy: string, Field to sort by. See https://google.aip.dev/132#ordering for more details. pageSize: integer, Requested page size. The server may return fewer items than requested. If unspecified, the server will pick an appropriate default value. pageToken: string, A token identifying a page of results that the server should return. view: string, Determines what information to retrieve for each Report. Allowed values REPORT_VIEW_UNSPECIFIED - The report view is not specified. The API displays the basic view by default. REPORT_VIEW_BASIC - The report view includes only basic metadata of the Report. Useful for list views. REPORT_VIEW_FULL - The report view includes all the metadata of the Report. Useful for preview. REPORT_VIEW_STANDARD - The report view includes the standard metadata of an report. Useful for detail view. x__xgafv: string, V1 error format. Allowed values 1 - v1 error format 2 - v2 error format Returns: An object of the form: { # Response message for listing Reports. "nextPageToken": "A String", # A token identifying a page of results the server should return. "reports": [ # The list of Reports. { # Report represents a point-in-time rendering of the ReportConfig results. "createTime": "A String", # Output only. Creation timestamp. "description": "A String", # Free-text description. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of resource. "state": "A String", # Report creation state. "summary": { # Describes the Summary view of a Report, which contains aggregated values for all the groups and preference sets included in this Report. # Output only. Summary view of the Report. "allAssetsStats": { # Aggregate statistics for a collection of assets. # Aggregate statistics for unique assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "databaseStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique database assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "groupFindings": [ # Findings for each Group included in this report. { # Summary Findings for a specific Group. "assetAggregateStats": { # Aggregate statistics for a collection of assets. # Summary statistics for all the assets in this group. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, "assetType": "A String", # Output only. Asset type for the group finding. "databaseType": "A String", # Output only. Source asset database type for the group finding. Only present for databases. "description": "A String", # Description for this group finding. "displayName": "A String", # Display Name for this group finding. "group": "A String", # Output only. Full name of the group. "overlappingAssetCount": "A String", # This field is deprecated, do not rely on it having a value. "preferenceSetFindings": [ # Findings for each of the PreferenceSets for this group. { # Summary Findings for a specific Group/PreferenceSet combination. "databaseFinding": { # DatabaseFinding contains an aggregate costs and shapes for a single database type. # Output only. Details about databases in this finding. Only present for databases. "allocatedAssetCount": "A String", # Output only. Number of database assets which were successfully assigned in this finding. "totalAssets": "A String", # Output only. Number of database assets in this finding. }, "description": "A String", # Description for the Preference Set. "displayName": "A String", # Display Name of the Preference Set "machineFinding": { # A set of findings that applies to assets of type Virtual/Physical Machine. # Output only. A set of findings that applies to all virtual machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which were allocated. "allocatedDiskTypes": [ # Set of disk types allocated to assets. "A String", ], "allocatedRegions": [ # Set of regions in which the assets were allocated. "A String", ], "machineSeriesAllocations": [ # Distribution of assets based on the Machine Series. { # Represents a data point tracking the count of assets allocated for a specific Machine Series. "allocatedAssetCount": "A String", # Count of assets allocated to this machine series. "machineSeries": { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). # The Machine Series (e.g. "E2", "N2") "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, }, ], }, "machinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, "monthlyCostCompute": { # Represents an amount of money with its currency type. # Output only. Compute monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseBackup": { # Represents an amount of money with its currency type. # Output only. Backup monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostDatabaseLicensing": { # Represents an amount of money with its currency type. # Output only. Database licensing monthly cost for this preference set. Only present for databases. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostGcveProtected": { # Represents an amount of money with its currency type. # Output only. GCVE Protected nodes cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostNetworkEgress": { # Represents an amount of money with its currency type. # Output only. Network Egress monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOsLicense": { # Represents an amount of money with its currency type. # Output only. All operating systems licensing monthly cost for this preference set. Only present for virtual machines. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostOther": { # Represents an amount of money with its currency type. # Output only. Miscellaneous monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostPortableVmwareLicense": { # Represents an amount of money with its currency type. # Output only. VMware portable license monthly cost for this preference set. Only present for VMware target with portable license service type. This cost is not paid to google, but is an estimate of license costs paid to VMware. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostStorage": { # Represents an amount of money with its currency type. # Output only. Storage monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "monthlyCostTotal": { # Represents an amount of money with its currency type. # Output only. Total monthly cost for this preference set. "currencyCode": "A String", # The three-letter currency code defined in ISO 4217. "nanos": 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000. "units": "A String", # The whole units of the amount. For example if `currencyCode` is `"USD"`, then 1 unit is one US dollar. }, "preferenceSet": { # The preferences that apply to all assets in a given context. # Output only. A copy of the preference set used for this finding. "createTime": "A String", # Output only. The timestamp when the preference set was created. "databasePreferences": { # DatabasePreferences enables you to create sets of preferences for your migrated databases. # Optional. A set of preferences that applies to all databases in the context. "mssqlToCloudSqlForSqlServerPreferences": { # Preferences for SQL Server on Cloud SQL. # Optional. Preferences for target SQL Server on Cloud SQL when migrating from source Microsoft SQL server. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, "multithreading": "A String", # Optional. Preferences for multithreading support. "versionType": "A String", # Optional. Edition of Microsoft SQL version that is used on a Cloud SQL for SQL server instance. }, "mysqlToCloudSqlForMysqlPreferences": { # Preferences for MySQL on Cloud SQL. # Optional. Preferences for target MySQL on Cloud SQL when migrating from source MySQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, "postgresqlToCloudSqlForPostgresqlPreferences": { # Preferences for PostgreSQL on Cloud SQL. # Optional. Preferences for target PostgreSQL on Cloud SQL when migrating from source PostgreSQL. "common": { # Preferences common to Cloud SQL databases. # Optional. Preferences to Cloud SQL databases. "backup": { # Preferences for database backups. # Optional. Preferences for database backups. "backupMode": "A String", # Optional. Automated backup mode. }, "commitmentPlan": "A String", # Optional. Commitment plan to consider when calculating costs. Only regular CUDs (not flexible) are currently available. "edition": "A String", # Optional. Preferred Cloud SQL edition. "persistentDiskType": "A String", # Optional. Persistent disk type to use. If unspecified, a disk type is recommended based on available usage data. For SQL Server, only SSD is available. For MySQL and PostgreSQL, only STANDARD (HDD) and SSD types are available. "sizingOptimizationStrategy": "A String", # Optional. Sizing optimization strategy of the database. Currently supported for Cloud SQL are just two values: SIZING_OPTIMIZATION_STRATEGY_MODERATE and SIZING_OPTIMIZATION_STRATEGY_SAME_AS_SOURCE. SIZING_OPTIMIZATION_STRATEGY_UNSPECIFIED will behave like SIZING_OPTIMIZATION_STRATEGY_MODERATE. "zoneAvailability": "A String", # Optional. Preferred zone availability. }, }, }, "description": "A String", # A description of the preference set. "displayName": "A String", # User-friendly display name. Maximum length is 63 characters. "name": "A String", # Output only. Name of the preference set. "regionPreferences": { # The user preferences relating to target regions. # Optional. Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If unspecified, VirtualMachinePreferences.RegionPreferences is used. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "updateTime": "A String", # Output only. The timestamp when the preference set was last updated. "virtualMachinePreferences": { # VirtualMachinePreferences enables you to create sets of preferences, for example, a geographical location and pricing track, for your migrated virtual machines. The set of preferences influence recommendations for migrating virtual machine assets. # A set of preferences that applies to all virtual machines in the context. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "computeEnginePreferences": { # The user preferences relating to Compute Engine target platform. # Compute Engine preferences concern insights and recommendations for Compute Engine target. "licenseType": "A String", # License type to consider when calculating costs for operating systems. If unspecified, costs are calculated based on the default licensing plan. If os_pricing_preferences is specified, it overrides this field. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for GCE. Not all machine types are available in all zones and regions. # Preferences concerning the machine types to consider on Compute Engine. "allowedMachineSeries": [ # Compute Engine machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], }, "multithreading": "A String", # Optional. Preferences for multithreading support on Windows Server. "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, "persistentDiskType": "A String", # Persistent disk type to use. If unspecified (default), all types are considered, based on available usage data. }, "networkCostParameters": { # Parameters that affect network cost estimations. # Optional. Parameters that affect network cost estimations. If not set, default values will be used for the parameters. "estimatedEgressTrafficPercentage": 42, # Optional. An estimated percentage of priced outbound traffic (egress traffic) from the measured outbound traffic. Must be in the interval [0, 100]. }, "regionPreferences": { # The user preferences relating to target regions. # Region preferences for assets using this preference set. If you are unsure which value to set, the migration service API region is often a good value to start with. If PreferenceSet.RegionPreferences is specified, it overrides this field. "preferredRegions": [ # A list of preferred regions, ordered by the most preferred region first. Set only valid Google Cloud region names. See https://cloud.google.com/compute/docs/regions-zones for available regions. "A String", ], }, "sizingOptimizationCustomParameters": { # Custom data to use for sizing optimizations. # Optional. Custom data to use for sizing optimizations. Relevant when SizingOptimizationStrategy is set to "custom". "aggregationMethod": "A String", # Optional. Type of statistical aggregation of a resource utilization data, on which to base the sizing metrics. "cpuUsagePercentage": 42, # Optional. Desired percentage of CPU usage. Must be in the interval [1, 100] (or 0 for default value). "memoryUsagePercentage": 42, # Optional. Desired percentage of memory usage. Must be in the interval [1, 100] (or 0 for default value). "storageMultiplier": 3.14, # Optional. Desired increase factor of storage, relative to currently used storage. Must be in the interval [1.0, 2.0] (or 0 for default value). }, "sizingOptimizationStrategy": "A String", # Sizing optimization strategy specifies the preferred strategy used when extrapolating usage data to calculate insights and recommendations for a virtual machine. If you are unsure which value to set, a moderate sizing optimization strategy is often a good value to start with. "soleTenancyPreferences": { # Preferences concerning Sole Tenancy nodes and VMs. # Preferences concerning Sole Tenant nodes and virtual machines. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 2.0 inclusive. "hostMaintenancePolicy": "A String", # Sole Tenancy nodes maintenance policy. "nodeTypes": [ # A list of sole tenant node types. An empty list means that all possible node types will be considered. { # A Sole Tenant node type. "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, ], "osPricingPreferences": { # Pricing options for OS images. # Optional. Pricing options for OS images. "rhel": { # Pricing options of an OS image. # Optional. Pricing options for RHEL images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "sles": { # Pricing options of an OS image. # Optional. Pricing options for SLES images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "slesForSap": { # Pricing options of an OS image. # Optional. Pricing options for SLES for SAP images. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, "windows": { # Pricing options of an OS image. # Optional. Pricing options for Windows images. No commitment plans are available, set it to unspecified. "commitmentPlan": "A String", # Optional. The plan of commitments for committed use discounts (CUD). "licenseType": "A String", # Optional. License type for premium images (RHEL, RHEL for SAP, SLES, SLES for SAP, Windows Server). }, }, }, "targetProduct": "A String", # Target product for assets using this preference set. Specify either target product or business goal, but not both. "vmwareEnginePreferences": { # The user preferences relating to Google Cloud VMware Engine target platform. # Preferences concerning insights and recommendations for Google Cloud VMware Engine. "commitmentPlan": "A String", # Commitment plan to consider when calculating costs for virtual machine insights and recommendations. If you are unsure which value to set, a 3 year commitment plan is often a good value to start with. "cpuOvercommitRatio": 3.14, # CPU overcommit ratio. Acceptable values are between 1.0 and 8.0, with 0.1 increment. "licenseDiscountPercentage": 3.14, # Optional. Discount percentage for the license type offered to you by Broadcom. Must be between 0 and 100. Only valid when service_type is set to SERVICE_TYPE_PORTABLE_LICENSE. "machinePreferences": { # The type of machines to consider when calculating virtual machine migration insights and recommendations for VMware Engine. Not all machine types are available in all zones and regions. # Optional. Preferences concerning the machine types to consider on Google Cloud VMware Engine. "allowedMachineSeries": [ # Optional. VMware Engine on Google Cloud machine series to consider for insights and recommendations. If empty, no restriction is applied on the machine series. { # A machine series, for a target product (e.g. Compute Engine, Google Cloud VMware Engine). "code": "A String", # Code to identify a machine series. Consult this for more details on the available series for Compute Engine: https://cloud.google.com/compute/docs/machine-resource#machine_type_comparison Consult this for more details on the available series for Google Cloud VMware Engine: https://cloud.google.com/vmware-engine/pricing }, ], "protectedNodes": "A String", # Optional. Whether to use VMware Engine Protected offering. "storageOnlyNodes": "A String", # Optional. Whether to use storage-only nodes, if those are available. }, "memoryOvercommitRatio": 3.14, # Memory overcommit ratio. Acceptable values are 1.0, 1.25, 1.5, 1.75 and 2.0. "serviceType": "A String", # Optional. VMWare Service Type (Fully Licensed or Portable License). "storageDeduplicationCompressionRatio": 3.14, # The Deduplication and Compression ratio is based on the logical (Used Before) space required to store data before applying deduplication and compression, in relation to the physical (Used After) space required after applying deduplication and compression. Specifically, the ratio is the Used Before space divided by the Used After space. For example, if the Used Before space is 3 GB, but the physical Used After space is 1 GB, the deduplication and compression ratio is 3x. Acceptable values are between 1.0 and 4.0. }, }, }, "preferredRegion": "A String", # Target region for this Preference Set "pricingTrack": "A String", # Text describing the pricing track specified for this Preference Set "soleTenantFinding": { # A set of findings that applies to assets destined for Sole-Tenant nodes. # A set of findings that applies to Stole-Tenant machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets are allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents the assets allocated to a specific Sole-Tenant node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "node": { # A Sole Tenant node type. # Sole Tenant node type, e.g. "m3-node-128-3904" "nodeName": "A String", # Name of the Sole Tenant node. Consult https://cloud.google.com/compute/docs/nodes/sole-tenant-nodes }, "nodeCount": "A String", # Count of this node type to be provisioned }, ], }, "topPriority": "A String", # Text describing the business priority specified for this Preference Set "vmwareEngineFinding": { # A set of findings that applies to assets destined for VMWare Engine. # A set of findings that applies to VMWare machines in the input. Only present for virtual machines. "allocatedAssetCount": "A String", # Count of assets which are allocated "allocatedRegions": [ # Set of regions in which the assets were allocated "A String", ], "nodeAllocations": [ # Set of per-nodetype allocation records { # Represents assets allocated to a specific VMWare Node type. "allocatedAssetCount": "A String", # Count of assets allocated to these nodes "nodeCount": "A String", # Count of this node type to be provisioned "vmwareNode": { # A VMWare Engine Node # VMWare node type, e.g. "ve1-standard-72" "code": "A String", # Code to identify VMware Engine node series, e.g. "ve1-standard-72". Based on the displayName of cloud.google.com/vmware-engine/docs/reference/rest/v1/projects.locations.nodeTypes }, }, ], }, }, ], }, ], "virtualMachineStats": { # Aggregate statistics for a collection of assets. # Output only. Aggregate statistics for unique virtual machine assets across all the groups. "assetAge": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by age. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "coreCountHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of logical CPU core counts. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "databaseTypes": { # Describes a collection of data points rendered as a Chart. # Output only. Count of assets grouped by database type. Keys here are taken from DatabaseType enum. Only present for databases. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of memory sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "memoryUtilization": { # Describes a collection of data points rendered as a Chart. # Total memory split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "memoryUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "operatingSystem": { # Describes a collection of data points rendered as a Chart. # Count of assets grouped by Operating System families. Only present for virtual machines. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageBytesHistogram": { # A Histogram Chart shows a distribution of values into buckets, showing a count of values which fall into a bucket. # Histogram showing a distribution of storage sizes. "buckets": [ # Buckets in the histogram. There will be `n+1` buckets matching `n` lower bounds in the request. The first bucket will be from -infinity to the first bound. Subsequent buckets will be between one bound and the next. The final bucket will be from the final bound to infinity. { # A histogram bucket with a lower and upper bound, and a count of items with a field value between those bounds. The lower bound is inclusive and the upper bound is exclusive. Lower bound may be -infinity and upper bound may be infinity. "count": "A String", # Count of items in the bucket. "lowerBound": "A String", # Lower bound - inclusive. "upperBound": "A String", # Upper bound - exclusive. }, ], }, "storageUtilization": { # Describes a collection of data points rendered as a Chart. # Total storage split into Used/Free buckets. "dataPoints": [ # Each data point in the chart is represented as a name-value pair with the name being the x-axis label, and the value being the y-axis value. { # Describes a single data point in the Chart. "label": "A String", # The X-axis label for this data point. "value": 3.14, # The Y-axis value for this data point. }, ], }, "storageUtilizationChart": { # Utilization Chart is a specific type of visualization which displays a metric classified into "Used" and "Free" buckets. # Total memory split into Used/Free buckets. "free": "A String", # Aggregate value which falls into the "Free" bucket. "used": "A String", # Aggregate value which falls into the "Used" bucket. }, "totalAssets": "A String", # Count of the number of unique assets in this collection. "totalCores": "A String", # Sum of the CPU core count of all the assets in this collection. "totalMemoryBytes": "A String", # Sum of the memory in bytes of all the assets in this collection. "totalStorageBytes": "A String", # Sum of persistent storage in bytes of all the assets in this collection. }, }, "type": "A String", # Report type. "updateTime": "A String", # Output only. Last update timestamp. }, ], "unreachable": [ # Locations that could not be reached. "A String", ], }
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.