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compute_alpha.backendServices.html
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<h1><a href="compute_alpha.html">Compute Engine API</a> . <a href="compute_alpha.backendServices.html">backendServices</a></h1>
<h2>Instance Methods</h2>
<p class="toc_element">
<code><a href="#addSignedUrlKey">addSignedUrlKey(project, backendService, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Adds a key for validating requests with signed URLs for this backend service.</p>
<p class="toc_element">
<code><a href="#aggregatedList">aggregatedList(project, filter=None, includeAllScopes=None, maxResults=None, orderBy=None, pageToken=None, returnPartialSuccess=None, x__xgafv=None)</a></code></p>
<p class="firstline">Retrieves the list of all BackendService resources, regional and global, available to the specified project.</p>
<p class="toc_element">
<code><a href="#aggregatedList_next">aggregatedList_next(previous_request, previous_response)</a></code></p>
<p class="firstline">Retrieves the next page of results.</p>
<p class="toc_element">
<code><a href="#close">close()</a></code></p>
<p class="firstline">Close httplib2 connections.</p>
<p class="toc_element">
<code><a href="#delete">delete(project, backendService, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Deletes the specified BackendService resource.</p>
<p class="toc_element">
<code><a href="#deleteSignedUrlKey">deleteSignedUrlKey(project, backendService, keyName, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Deletes a key for validating requests with signed URLs for this backend service.</p>
<p class="toc_element">
<code><a href="#get">get(project, backendService, x__xgafv=None)</a></code></p>
<p class="firstline">Returns the specified BackendService resource. Gets a list of available backend services.</p>
<p class="toc_element">
<code><a href="#getHealth">getHealth(project, backendService, body=None, x__xgafv=None)</a></code></p>
<p class="firstline">Gets the most recent health check results for this BackendService. Example request body: { "group": "/zones/us-east1-b/instanceGroups/lb-backend-example" }</p>
<p class="toc_element">
<code><a href="#getIamPolicy">getIamPolicy(project, resource, optionsRequestedPolicyVersion=None, x__xgafv=None)</a></code></p>
<p class="firstline">Gets the access control policy for a resource. May be empty if no such policy or resource exists.</p>
<p class="toc_element">
<code><a href="#insert">insert(project, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Creates a BackendService resource in the specified project using the data included in the request. For more information, see Backend services overview .</p>
<p class="toc_element">
<code><a href="#list">list(project, filter=None, maxResults=None, orderBy=None, pageToken=None, returnPartialSuccess=None, x__xgafv=None)</a></code></p>
<p class="firstline">Retrieves the list of BackendService resources available to the specified project.</p>
<p class="toc_element">
<code><a href="#list_next">list_next(previous_request, previous_response)</a></code></p>
<p class="firstline">Retrieves the next page of results.</p>
<p class="toc_element">
<code><a href="#patch">patch(project, backendService, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Patches the specified BackendService resource with the data included in the request. For more information, see Backend services overview. This method supports PATCH semantics and uses the JSON merge patch format and processing rules.</p>
<p class="toc_element">
<code><a href="#setEdgeSecurityPolicy">setEdgeSecurityPolicy(project, backendService, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Sets the edge security policy for the specified backend service.</p>
<p class="toc_element">
<code><a href="#setIamPolicy">setIamPolicy(project, resource, body=None, x__xgafv=None)</a></code></p>
<p class="firstline">Sets the access control policy on the specified resource. Replaces any existing policy.</p>
<p class="toc_element">
<code><a href="#setSecurityPolicy">setSecurityPolicy(project, backendService, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Sets the Google Cloud Armor security policy for the specified backend service. For more information, see Google Cloud Armor Overview</p>
<p class="toc_element">
<code><a href="#testIamPermissions">testIamPermissions(project, resource, body=None, x__xgafv=None)</a></code></p>
<p class="firstline">Returns permissions that a caller has on the specified resource.</p>
<p class="toc_element">
<code><a href="#update">update(project, backendService, body=None, requestId=None, x__xgafv=None)</a></code></p>
<p class="firstline">Updates the specified BackendService resource with the data included in the request. For more information, see Backend services overview.</p>
<h3>Method Details</h3>
<div class="method">
<code class="details" id="addSignedUrlKey">addSignedUrlKey(project, backendService, body=None, requestId=None, x__xgafv=None)</code>
<pre>Adds a key for validating requests with signed URLs for this backend service.
Args:
project: string, Project ID for this request. (required)
backendService: string, Name of the BackendService resource to which the Signed URL Key should be added. The name should conform to RFC1035. (required)
body: object, The request body.
The object takes the form of:
{ # Represents a customer-supplied Signing Key used by Cloud CDN Signed URLs
"keyName": "A String", # Name of the key. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression `[a-z]([-a-z0-9]*[a-z0-9])?` which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
"keyValue": "A String", # 128-bit key value used for signing the URL. The key value must be a valid RFC 4648 Section 5 base64url encoded string.
}
requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
x__xgafv: string, V1 error format.
Allowed values
1 - v1 error format
2 - v2 error format
Returns:
An object of the form:
{ # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/alpha/globalOperations) * [Regional](/compute/docs/reference/rest/alpha/regionOperations) * [Zonal](/compute/docs/reference/rest/alpha/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zonalOperations` resource. For more information, read Global, Regional, and Zonal Resources.
"clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise.
"creationTimestamp": "A String", # [Deprecated] This field is deprecated.
"description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created.
"endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format.
"error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated.
"errors": [ # [Output Only] The array of errors encountered while processing this operation.
{
"code": "A String", # [Output Only] The error type identifier for this error.
"location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional.
"message": "A String", # [Output Only] An optional, human-readable error message.
},
],
},
"httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`.
"httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found.
"id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server.
"insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format.
"kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources.
"name": "A String", # [Output Only] Name of the operation.
"operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request.
"operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on.
"progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses.
"region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations.
"selfLink": "A String", # [Output Only] Server-defined URL for the resource.
"selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id.
"startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format.
"status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`.
"statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation.
"targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource.
"targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the persistent disk that the snapshot was created from.
"user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com`.
"warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated.
{
"code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response.
"data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" }
{
"key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding).
"value": "A String", # [Output Only] A warning data value corresponding to the key.
},
],
"message": "A String", # [Output Only] A human-readable description of the warning code.
},
],
"zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations.
}</pre>
</div>
<div class="method">
<code class="details" id="aggregatedList">aggregatedList(project, filter=None, includeAllScopes=None, maxResults=None, orderBy=None, pageToken=None, returnPartialSuccess=None, x__xgafv=None)</code>
<pre>Retrieves the list of all BackendService resources, regional and global, available to the specified project.
Args:
project: string, Name of the project scoping this request. (required)
filter: string, A filter expression that filters resources listed in the response. The expression must specify the field name, a comparison operator, and the value that you want to use for filtering. The value must be a string, a number, or a boolean. The comparison operator must be either `=`, `!=`, `>`, or `<`. For example, if you are filtering Compute Engine instances, you can exclude instances named `example-instance` by specifying `name != example-instance`. You can also filter nested fields. For example, you could specify `scheduling.automaticRestart = false` to include instances only if they are not scheduled for automatic restarts. You can use filtering on nested fields to filter based on resource labels. To filter on multiple expressions, provide each separate expression within parentheses. For example: ``` (scheduling.automaticRestart = true) (cpuPlatform = "Intel Skylake") ``` By default, each expression is an `AND` expression. However, you can include `AND` and `OR` expressions explicitly. For example: ``` (cpuPlatform = "Intel Skylake") OR (cpuPlatform = "Intel Broadwell") AND (scheduling.automaticRestart = true) ```
includeAllScopes: boolean, Indicates whether every visible scope for each scope type (zone, region, global) should be included in the response. For new resource types added after this field, the flag has no effect as new resource types will always include every visible scope for each scope type in response. For resource types which predate this field, if this flag is omitted or false, only scopes of the scope types where the resource type is expected to be found will be included.
maxResults: integer, The maximum number of results per page that should be returned. If the number of available results is larger than `maxResults`, Compute Engine returns a `nextPageToken` that can be used to get the next page of results in subsequent list requests. Acceptable values are `0` to `500`, inclusive. (Default: `500`)
orderBy: string, Sorts list results by a certain order. By default, results are returned in alphanumerical order based on the resource name. You can also sort results in descending order based on the creation timestamp using `orderBy="creationTimestamp desc"`. This sorts results based on the `creationTimestamp` field in reverse chronological order (newest result first). Use this to sort resources like operations so that the newest operation is returned first. Currently, only sorting by `name` or `creationTimestamp desc` is supported.
pageToken: string, Specifies a page token to use. Set `pageToken` to the `nextPageToken` returned by a previous list request to get the next page of results.
returnPartialSuccess: boolean, Opt-in for partial success behavior which provides partial results in case of failure. The default value is false.
x__xgafv: string, V1 error format.
Allowed values
1 - v1 error format
2 - v2 error format
Returns:
An object of the form:
{ # Contains a list of BackendServicesScopedList.
"id": "A String", # [Output Only] Unique identifier for the resource; defined by the server.
"items": { # A list of BackendServicesScopedList resources.
"a_key": { # Name of the scope containing this set of BackendServices.
"backendServices": [ # A list of BackendServices contained in this scope.
{ # Represents a Backend Service resource. A backend service defines how Google Cloud load balancers distribute traffic. The backend service configuration contains a set of values, such as the protocol used to connect to backends, various distribution and session settings, health checks, and timeouts. These settings provide fine-grained control over how your load balancer behaves. Most of the settings have default values that allow for easy configuration if you need to get started quickly. Backend services in Google Compute Engine can be either regionally or globally scoped. * [Global](/compute/docs/reference/rest/alpha/backendServices) * [Regional](/compute/docs/reference/rest/alpha/regionBackendServices) For more information, see Backend Services.
"affinityCookieTtlSec": 42, # Lifetime of cookies in seconds. Only applicable if the loadBalancingScheme is EXTERNAL, INTERNAL_SELF_MANAGED, or INTERNAL_MANAGED, the protocol is HTTP or HTTPS, and the sessionAffinity is GENERATED_COOKIE, or HTTP_COOKIE. If set to 0, the cookie is non-persistent and lasts only until the end of the browser session (or equivalent). The maximum allowed value is one day ( 86,400). Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"backends": [ # The list of backends that serve this BackendService.
{ # Message containing information of one individual backend.
"balancingMode": "A String", # Specifies how to determine whether the backend of a load balancer can handle additional traffic or is fully loaded. For usage guidelines, see Connection balancing mode.
"capacityScaler": 3.14, # A multiplier applied to the backend's target capacity of its balancing mode. The default value is 1, which means the group serves up to 100% of its configured capacity (depending on balancingMode). A setting of 0 means the group is completely drained, offering 0% of its available capacity. The valid ranges are 0.0 and [0.1,1.0]. You cannot configure a setting larger than 0 and smaller than 0.1. You cannot configure a setting of 0 when there is only one backend attached to the backend service. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing
"description": "A String", # An optional description of this resource. Provide this property when you create the resource.
"failover": True or False, # This field designates whether this is a failover backend. More than one failover backend can be configured for a given BackendService.
"group": "A String", # The fully-qualified URL of an instance group or network endpoint group (NEG) resource. The type of backend that a backend service supports depends on the backend service's loadBalancingScheme. - When the loadBalancingScheme for the backend service is EXTERNAL (except Network Load Balancing), INTERNAL_SELF_MANAGED, or INTERNAL_MANAGED , the backend can be either an instance group or a NEG. The backends on the backend service must be either all instance groups or all NEGs. You cannot mix instance group and NEG backends on the same backend service. - When the loadBalancingScheme for the backend service is EXTERNAL for Network Load Balancing or INTERNAL for Internal TCP/UDP Load Balancing, the backend must be an instance group. NEGs are not supported. For regional services, the backend must be in the same region as the backend service. You must use the *fully-qualified* URL (starting with https://www.googleapis.com/) to specify the instance group or NEG. Partial URLs are not supported.
"maxConnections": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing
"maxConnectionsPerEndpoint": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing.
"maxConnectionsPerInstance": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing.
"maxRate": 42, # Defines a maximum number of HTTP requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxRatePerEndpoint": 3.14, # Defines a maximum target for requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxRatePerInstance": 3.14, # Defines a maximum target for requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxUtilization": 3.14,
},
],
"cdnPolicy": { # Message containing Cloud CDN configuration for a backend service. # Cloud CDN configuration for this BackendService. Only available for external HTTP(S) Load Balancing.
"bypassCacheOnRequestHeaders": [ # Bypass the cache when the specified request headers are matched - e.g. Pragma or Authorization headers. Up to 5 headers can be specified. The cache is bypassed for all cdnPolicy.cacheMode settings.
{ # Bypass the cache when the specified request headers are present, e.g. Pragma or Authorization headers. Values are case insensitive. The presence of such a header overrides the cache_mode setting.
"headerName": "A String", # The header field name to match on when bypassing cache. Values are case-insensitive.
},
],
"cacheKeyPolicy": { # Message containing what to include in the cache key for a request for Cloud CDN. # The CacheKeyPolicy for this CdnPolicy.
"includeHost": True or False, # If true, requests to different hosts will be cached separately.
"includeHttpHeaders": [ # Allows HTTP request headers (by name) to be used in the cache key.
"A String",
],
"includeNamedCookies": [ # Allows HTTP cookies (by name) to be used in the cache key. The name=value pair will be used in the cache key Cloud CDN generates.
"A String",
],
"includeProtocol": True or False, # If true, http and https requests will be cached separately.
"includeQueryString": True or False, # If true, include query string parameters in the cache key according to query_string_whitelist and query_string_blacklist. If neither is set, the entire query string will be included. If false, the query string will be excluded from the cache key entirely.
"queryStringBlacklist": [ # Names of query string parameters to exclude in cache keys. All other parameters will be included. Either specify query_string_whitelist or query_string_blacklist, not both. '&' and '=' will be percent encoded and not treated as delimiters.
"A String",
],
"queryStringWhitelist": [ # Names of query string parameters to include in cache keys. All other parameters will be excluded. Either specify query_string_whitelist or query_string_blacklist, not both. '&' and '=' will be percent encoded and not treated as delimiters.
"A String",
],
},
"cacheMode": "A String", # Specifies the cache setting for all responses from this backend. The possible values are: USE_ORIGIN_HEADERS Requires the origin to set valid caching headers to cache content. Responses without these headers will not be cached at Google's edge, and will require a full trip to the origin on every request, potentially impacting performance and increasing load on the origin server. FORCE_CACHE_ALL Cache all content, ignoring any "private", "no-store" or "no-cache" directives in Cache-Control response headers. Warning: this may result in Cloud CDN caching private, per-user (user identifiable) content. CACHE_ALL_STATIC Automatically cache static content, including common image formats, media (video and audio), and web assets (JavaScript and CSS). Requests and responses that are marked as uncacheable, as well as dynamic content (including HTML), will not be cached.
"clientTtl": 42, # Specifies a separate client (e.g. browser client) maximum TTL. This is used to clamp the max-age (or Expires) value sent to the client. With FORCE_CACHE_ALL, the lesser of client_ttl and default_ttl is used for the response max-age directive, along with a "public" directive. For cacheable content in CACHE_ALL_STATIC mode, client_ttl clamps the max-age from the origin (if specified), or else sets the response max-age directive to the lesser of the client_ttl and default_ttl, and also ensures a "public" cache-control directive is present. If a client TTL is not specified, a default value (1 hour) will be used. The maximum allowed value is 86400s (1 day).
"defaultTtl": 42, # Specifies the default TTL for cached content served by this origin for responses that do not have an existing valid TTL (max-age or s-max-age). Setting a TTL of "0" means "always revalidate". The value of defaultTTL cannot be set to a value greater than that of maxTTL, but can be equal. When the cacheMode is set to FORCE_CACHE_ALL, the defaultTTL will overwrite the TTL set in all responses. The maximum allowed value is 31,622,400s (1 year), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
"maxTtl": 42, # Specifies the maximum allowed TTL for cached content served by this origin. Cache directives that attempt to set a max-age or s-maxage higher than this, or an Expires header more than maxTTL seconds in the future will be capped at the value of maxTTL, as if it were the value of an s-maxage Cache-Control directive. Headers sent to the client will not be modified. Setting a TTL of "0" means "always revalidate". The maximum allowed value is 31,622,400s (1 year), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
"negativeCaching": True or False, # Negative caching allows per-status code TTLs to be set, in order to apply fine-grained caching for common errors or redirects. This can reduce the load on your origin and improve end-user experience by reducing response latency. When the cache mode is set to CACHE_ALL_STATIC or USE_ORIGIN_HEADERS, negative caching applies to responses with the specified response code that lack any Cache-Control, Expires, or Pragma: no-cache directives. When the cache mode is set to FORCE_CACHE_ALL, negative caching applies to all responses with the specified response code, and override any caching headers. By default, Cloud CDN will apply the following default TTLs to these status codes: HTTP 300 (Multiple Choice), 301, 308 (Permanent Redirects): 10m HTTP 404 (Not Found), 410 (Gone), 451 (Unavailable For Legal Reasons): 120s HTTP 405 (Method Not Found), 421 (Misdirected Request), 501 (Not Implemented): 60s. These defaults can be overridden in negative_caching_policy.
"negativeCachingPolicy": [ # Sets a cache TTL for the specified HTTP status code. negative_caching must be enabled to configure negative_caching_policy. Omitting the policy and leaving negative_caching enabled will use Cloud CDN's default cache TTLs. Note that when specifying an explicit negative_caching_policy, you should take care to specify a cache TTL for all response codes that you wish to cache. Cloud CDN will not apply any default negative caching when a policy exists.
{ # Specify CDN TTLs for response error codes.
"code": 42, # The HTTP status code to define a TTL against. Only HTTP status codes 300, 301, 302, 307, 308, 404, 405, 410, 421, 451 and 501 are can be specified as values, and you cannot specify a status code more than once.
"ttl": 42, # The TTL (in seconds) for which to cache responses with the corresponding status code. The maximum allowed value is 1800s (30 minutes), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
},
],
"requestCoalescing": True or False, # If true then Cloud CDN will combine multiple concurrent cache fill requests into a small number of requests to the origin.
"serveWhileStale": 42, # Serve existing content from the cache (if available) when revalidating content with the origin, or when an error is encountered when refreshing the cache. This setting defines the default "max-stale" duration for any cached responses that do not specify a max-stale directive. Stale responses that exceed the TTL configured here will not be served. The default limit (max-stale) is 86400s (1 day), which will allow stale content to be served up to this limit beyond the max-age (or s-max-age) of a cached response. The maximum allowed value is 604800 (1 week). Set this to zero (0) to disable serve-while-stale.
"signedUrlCacheMaxAgeSec": "A String", # Maximum number of seconds the response to a signed URL request will be considered fresh. After this time period, the response will be revalidated before being served. Defaults to 1hr (3600s). When serving responses to signed URL requests, Cloud CDN will internally behave as though all responses from this backend had a "Cache-Control: public, max-age=[TTL]" header, regardless of any existing Cache-Control header. The actual headers served in responses will not be altered.
"signedUrlKeyNames": [ # [Output Only] Names of the keys for signing request URLs.
"A String",
],
},
"circuitBreakers": { # Settings controlling the volume of connections to a backend service.
"connectTimeout": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # The timeout for new network connections to hosts.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"maxConnections": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxPendingRequests": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxRequests": 42, # The maximum number of parallel requests that allowed to the backend service. If not specified, there is no limit.
"maxRequestsPerConnection": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxRetries": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
},
"compressionMode": "A String", # Compress text responses using Brotli or gzip compression, based on the client鈥檚 Accept-Encoding header.
"connectionDraining": { # Message containing connection draining configuration.
"drainingTimeoutSec": 42, # Configures a duration timeout for existing requests on a removed backend instance. For supported load balancers and protocols, as described in Enabling connection draining.
},
"connectionTrackingPolicy": { # Connection Tracking configuration for this BackendService.
"connectionPersistenceOnUnhealthyBackends": "A String", # Specifies connection persistence when backends are unhealthy. The default value is DEFAULT_FOR_PROTOCOL. If set to DEFAULT_FOR_PROTOCOL, the existing connections persist on unhealthy backends only for connection-oriented protocols (TCP and SCTP) and only if the Tracking Mode is PER_CONNECTION (default tracking mode) or the Session Affinity is configured for 5-tuple. They do not persist for UDP. If set to NEVER_PERSIST, after a backend becomes unhealthy, the existing connections on the unhealthy backend are never persisted on the unhealthy backend. They are always diverted to newly selected healthy backends (unless all backends are unhealthy). If set to ALWAYS_PERSIST, existing connections always persist on unhealthy backends regardless of protocol and session affinity. It is generally not recommended to use this mode overriding the default.
"idleTimeoutSec": 42, # Specifies how long to keep a Connection Tracking entry while there is no matching traffic (in seconds). For L4 ILB the minimum(default) is 10 minutes and maximum is 16 hours. For NLB the minimum(default) is 60 seconds and the maximum is 16 hours. This field will be supported only if the Connection Tracking key is less than 5-tuple.
"trackingMode": "A String", # Specifies the key used for connection tracking. There are two options: PER_CONNECTION: This is the default mode. The Connection Tracking is performed as per the Connection Key (default Hash Method) for the specific protocol. PER_SESSION: The Connection Tracking is performed as per the configured Session Affinity. It matches the configured Session Affinity.
},
"consistentHash": { # This message defines settings for a consistent hash style load balancer. # Consistent Hash-based load balancing can be used to provide soft session affinity based on HTTP headers, cookies or other properties. This load balancing policy is applicable only for HTTP connections. The affinity to a particular destination host will be lost when one or more hosts are added/removed from the destination service. This field specifies parameters that control consistent hashing. This field is only applicable when localityLbPolicy is set to MAGLEV or RING_HASH. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"httpCookie": { # The information about the HTTP Cookie on which the hash function is based for load balancing policies that use a consistent hash. # Hash is based on HTTP Cookie. This field describes a HTTP cookie that will be used as the hash key for the consistent hash load balancer. If the cookie is not present, it will be generated. This field is applicable if the sessionAffinity is set to HTTP_COOKIE.
"name": "A String", # Name of the cookie.
"path": "A String", # Path to set for the cookie.
"ttl": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Lifetime of the cookie.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
},
"httpHeaderName": "A String", # The hash based on the value of the specified header field. This field is applicable if the sessionAffinity is set to HEADER_FIELD.
"minimumRingSize": "A String", # The minimum number of virtual nodes to use for the hash ring. Defaults to 1024. Larger ring sizes result in more granular load distributions. If the number of hosts in the load balancing pool is larger than the ring size, each host will be assigned a single virtual node.
},
"creationTimestamp": "A String", # [Output Only] Creation timestamp in RFC3339 text format.
"customRequestHeaders": [ # Headers that the HTTP/S load balancer should add to proxied requests.
"A String",
],
"customResponseHeaders": [ # Headers that the HTTP/S load balancer should add to proxied responses.
"A String",
],
"description": "A String", # An optional description of this resource. Provide this property when you create the resource.
"edgeSecurityPolicy": "A String", # [Output Only] The resource URL for the edge security policy associated with this backend service.
"enableCDN": True or False, # If true, enables Cloud CDN for the backend service. Only applicable if the loadBalancingScheme is EXTERNAL and the protocol is HTTP or HTTPS.
"failoverPolicy": { # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. On failover or failback, this field indicates whether connection draining will be honored. GCP has a fixed connection draining timeout of 10 minutes. A setting of true terminates existing TCP connections to the active pool during failover and failback, immediately draining traffic. A setting of false allows existing TCP connections to persist, even on VMs no longer in the active pool, for up to the duration of the connection draining timeout (10 minutes). # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. Requires at least one backend instance group to be defined as a backup (failover) backend.
"disableConnectionDrainOnFailover": True or False, # This can be set to true only if the protocol is TCP. The default is false.
"dropTrafficIfUnhealthy": True or False, # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing, If set to true, connections to the load balancer are dropped when all primary and all backup backend VMs are unhealthy.If set to false, connections are distributed among all primary VMs when all primary and all backup backend VMs are unhealthy. The default is false.
"failoverRatio": 3.14, # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. The value of the field must be in the range [0, 1]. If the value is 0, the load balancer performs a failover when the number of healthy primary VMs equals zero. For all other values, the load balancer performs a failover when the total number of healthy primary VMs is less than this ratio.
},
"fingerprint": "A String", # Fingerprint of this resource. A hash of the contents stored in this object. This field is used in optimistic locking. This field will be ignored when inserting a BackendService. An up-to-date fingerprint must be provided in order to update the BackendService, otherwise the request will fail with error 412 conditionNotMet. To see the latest fingerprint, make a get() request to retrieve a BackendService.
"healthChecks": [ # The list of URLs to the healthChecks, httpHealthChecks (legacy), or httpsHealthChecks (legacy) resource for health checking this backend service. Not all backend services support legacy health checks. See Load balancer guide. Currently, at most one health check can be specified for each backend service. Backend services with instance group or zonal NEG backends must have a health check. Backend services with internet or serverless NEG backends must not have a health check.
"A String",
],
"iap": { # Identity-Aware Proxy # The configurations for Identity-Aware Proxy on this resource. Not available for Internal TCP/UDP Load Balancing and Network Load Balancing.
"enabled": True or False, # Whether the serving infrastructure will authenticate and authorize all incoming requests. If true, the oauth2ClientId and oauth2ClientSecret fields must be non-empty.
"oauth2ClientId": "A String", # OAuth2 client ID to use for the authentication flow.
"oauth2ClientInfo": { # [Input Only] OAuth client info required to generate client id to be used for IAP.
"applicationName": "A String", # Application name to be used in OAuth consent screen.
"clientName": "A String", # Name of the client to be generated. Optional - If not provided, the name will be autogenerated by the backend.
"developerEmailAddress": "A String", # Developer's information to be used in OAuth consent screen.
},
"oauth2ClientSecret": "A String", # OAuth2 client secret to use for the authentication flow. For security reasons, this value cannot be retrieved via the API. Instead, the SHA-256 hash of the value is returned in the oauth2ClientSecretSha256 field. @InputOnly
"oauth2ClientSecretSha256": "A String", # [Output Only] SHA256 hash value for the field oauth2_client_secret above.
},
"id": "A String", # [Output Only] The unique identifier for the resource. This identifier is defined by the server.
"kind": "compute#backendService", # [Output Only] Type of resource. Always compute#backendService for backend services.
"loadBalancingScheme": "A String", # Specifies the load balancer type. Choose EXTERNAL for external HTTP(S), SSL Proxy, TCP Proxy and Network Load Balancing. Choose INTERNAL for Internal TCP/UDP Load Balancing. Choose INTERNAL_MANAGED for Internal HTTP(S) Load Balancing. INTERNAL_SELF_MANAGED for Traffic Director. A backend service created for one type of load balancer cannot be used with another. For more information, refer to Choosing a load balancer.
"localityLbPolicy": "A String", # The load balancing algorithm used within the scope of the locality. The possible values are: - ROUND_ROBIN: This is a simple policy in which each healthy backend is selected in round robin order. This is the default. - LEAST_REQUEST: An O(1) algorithm which selects two random healthy hosts and picks the host which has fewer active requests. - RING_HASH: The ring/modulo hash load balancer implements consistent hashing to backends. The algorithm has the property that the addition/removal of a host from a set of N hosts only affects 1/N of the requests. - RANDOM: The load balancer selects a random healthy host. - ORIGINAL_DESTINATION: Backend host is selected based on the client connection metadata, i.e., connections are opened to the same address as the destination address of the incoming connection before the connection was redirected to the load balancer. - MAGLEV: used as a drop in replacement for the ring hash load balancer. Maglev is not as stable as ring hash but has faster table lookup build times and host selection times. For more information about Maglev, see https://ai.google/research/pubs/pub44824 This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. If sessionAffinity is not NONE, and this field is not set to MAGLEV or RING_HASH, session affinity settings will not take effect. Only the default ROUND_ROBIN policy is supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"logConfig": { # The available logging options for the load balancer traffic served by this backend service. # This field denotes the logging options for the load balancer traffic served by this backend service. If logging is enabled, logs will be exported to Stackdriver.
"enable": True or False, # This field denotes whether to enable logging for the load balancer traffic served by this backend service.
"sampleRate": 3.14, # This field can only be specified if logging is enabled for this backend service. The value of the field must be in [0, 1]. This configures the sampling rate of requests to the load balancer where 1.0 means all logged requests are reported and 0.0 means no logged requests are reported. The default value is 1.0.
},
"maxStreamDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the default maximum duration (timeout) for streams to this service. Duration is computed from the beginning of the stream until the response has been completely processed, including all retries. A stream that does not complete in this duration is closed. If not specified, there will be no timeout limit, i.e. the maximum duration is infinite. This value can be overridden in the PathMatcher configuration of the UrlMap that references this backend service. This field is only allowed when the loadBalancingScheme of the backend service is INTERNAL_SELF_MANAGED.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"name": "A String", # Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression `[a-z]([-a-z0-9]*[a-z0-9])?` which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
"network": "A String", # The URL of the network to which this backend service belongs. This field can only be specified when the load balancing scheme is set to INTERNAL.
"outlierDetection": { # Settings controlling the eviction of unhealthy hosts from the load balancing pool for the backend service. # Settings controlling the eviction of unhealthy hosts from the load balancing pool for the backend service. If not set, this feature is considered disabled. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"baseEjectionTime": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # The base time that a host is ejected for. The real ejection time is equal to the base ejection time multiplied by the number of times the host has been ejected. Defaults to 30000ms or 30s.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"consecutiveErrors": 42, # Number of errors before a host is ejected from the connection pool. When the backend host is accessed over HTTP, a 5xx return code qualifies as an error. Defaults to 5.
"consecutiveGatewayFailure": 42, # The number of consecutive gateway failures (502, 503, 504 status or connection errors that are mapped to one of those status codes) before a consecutive gateway failure ejection occurs. Defaults to 3.
"enforcingConsecutiveErrors": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through consecutive 5xx. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 0.
"enforcingConsecutiveGatewayFailure": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through consecutive gateway failures. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 100.
"enforcingSuccessRate": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through success rate statistics. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 100.
"interval": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Time interval between ejection analysis sweeps. This can result in both new ejections as well as hosts being returned to service. Defaults to 1 second.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"maxEjectionPercent": 42, # Maximum percentage of hosts in the load balancing pool for the backend service that can be ejected. Defaults to 50%.
"successRateMinimumHosts": 42, # The number of hosts in a cluster that must have enough request volume to detect success rate outliers. If the number of hosts is less than this setting, outlier detection via success rate statistics is not performed for any host in the cluster. Defaults to 5.
"successRateRequestVolume": 42, # The minimum number of total requests that must be collected in one interval (as defined by the interval duration above) to include this host in success rate based outlier detection. If the volume is lower than this setting, outlier detection via success rate statistics is not performed for that host. Defaults to 100.
"successRateStdevFactor": 42, # This factor is used to determine the ejection threshold for success rate outlier ejection. The ejection threshold is the difference between the mean success rate, and the product of this factor and the standard deviation of the mean success rate: mean - (stdev * success_rate_stdev_factor). This factor is divided by a thousand to get a double. That is, if the desired factor is 1.9, the runtime value should be 1900. Defaults to 1900.
},
"port": 42, # Deprecated in favor of portName. The TCP port to connect on the backend. The default value is 80. Backend services for Internal TCP/UDP Load Balancing and Network Load Balancing require you omit port.
"portName": "A String", # A named port on a backend instance group representing the port for communication to the backend VMs in that group. Required when the loadBalancingScheme is EXTERNAL (except Network Load Balancing), INTERNAL_MANAGED, or INTERNAL_SELF_MANAGED and the backends are instance groups. The named port must be defined on each backend instance group. This parameter has no meaning if the backends are NEGs. Backend services for Internal TCP/UDP Load Balancing and Network Load Balancing require you omit port_name.
"protocol": "A String", # The protocol this BackendService uses to communicate with backends. Possible values are HTTP, HTTPS, HTTP2, TCP, SSL, UDP or GRPC. depending on the chosen load balancer or Traffic Director configuration. Refer to the documentation for the load balancer or for Traffic Director for more information. Must be set to GRPC when the backend service is referenced by a URL map that is bound to target gRPC proxy.
"region": "A String", # [Output Only] URL of the region where the regional backend service resides. This field is not applicable to global backend services. You must specify this field as part of the HTTP request URL. It is not settable as a field in the request body.
"securityPolicy": "A String", # [Output Only] The resource URL for the security policy associated with this backend service.
"securitySettings": { # The authentication and authorization settings for a BackendService. # This field specifies the security policy that applies to this backend service. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED.
"authentication": "A String", # [Deprecated] Use clientTlsPolicy instead.
"authenticationPolicy": { # [Deprecated] The authentication settings for the backend service. The authentication settings for the backend service. # [Deprecated] Authentication policy defines what authentication methods can be accepted on backends, and if authenticated, which method/certificate will set the request principal. request principal.
"origins": [ # List of authentication methods that can be used for origin authentication. Similar to peers, these will be evaluated in order the first valid one will be used to set origin identity. If none of these methods pass, the request will be rejected with authentication failed error (401). Leave the list empty if origin authentication is not required.
{ # [Deprecated] Configuration for the origin authentication method. Configuration for the origin authentication method.
"jwt": { # [Deprecated] JWT configuration for origin authentication. JWT configuration for origin authentication.
"audiences": [ # A JWT containing any of these audiences will be accepted. The service name will be accepted if audiences is empty. Examples: bookstore_android.apps.googleusercontent.com, bookstore_web.apps.googleusercontent.com
"A String",
],
"issuer": "A String", # Identifies the issuer that issued the JWT, which is usually a URL or an email address. Examples: https://securetoken.google.com, 1234567-compute@developer.gserviceaccount.com
"jwksPublicKeys": "A String", # The provider's public key set to validate the signature of the JWT.
"jwtHeaders": [ # jwt_headers and jwt_params define where to extract the JWT from an HTTP request. If no explicit location is specified, the following default locations are tried in order: 1. The Authorization header using the Bearer schema. See `here `_. Example: Authorization: Bearer . 2. `access_token` query parameter. See `this `_ Multiple JWTs can be verified for a request. Each JWT has to be extracted from the locations its issuer specified or from the default locations. This field is set if JWT is sent in a request header. This field specifies the header name. For example, if `header=x-goog-iap-jwt-assertion`, the header format will be x-goog-iap-jwt-assertion: .
{ # [Deprecated] This message specifies a header location to extract JWT token. This message specifies a header location to extract JWT token.
"name": "A String", # The HTTP header name.
"valuePrefix": "A String", # The value prefix. The value format is "value_prefix" For example, for "Authorization: Bearer ", value_prefix="Bearer " with a space at the end.
},
],
"jwtParams": [ # This field is set if JWT is sent in a query parameter. This field specifies the query parameter name. For example, if jwt_params[0] is jwt_token, the JWT format in the query parameter is /path?jwt_token=.
"A String",
],
},
},
],
"peers": [ # List of authentication methods that can be used for peer authentication. They will be evaluated in order the first valid one will be used to set peer identity. If none of these methods pass, the request will be rejected with authentication failed error (401). Leave the list empty if peer authentication is not required.
{ # [Deprecated] Configuration for the peer authentication method. Configuration for the peer authentication method.
"mtls": { # [Deprecated] Configuration for the mutual Tls mode for peer authentication. Configuration for the mutual Tls mode for peer authentication. # Set if mTLS is used for peer authentication.
"mode": "A String", # Specifies if the server TLS is configured to be strict or permissive. This field can be set to one of the following: STRICT: Client certificate must be presented, connection is in TLS. PERMISSIVE: Client certificate can be omitted, connection can be either plaintext or TLS.
},
},
],
"principalBinding": "A String", # Define whether peer or origin identity should be used for principal. Default value is USE_PEER. If peer (or origin) identity is not available, either because peer/origin authentication is not defined, or failed, principal will be left unset. In other words, binding rule does not affect the decision to accept or reject request. This field can be set to one of the following: USE_PEER: Principal will be set to the identity from peer authentication. USE_ORIGIN: Principal will be set to the identity from origin authentication.
"serverTlsContext": { # [Deprecated] The TLS settings for the client or server. The TLS settings for the client or server. # Configures the mechanism to obtain server-side security certificates and identity information.
"certificateContext": { # [Deprecated] Defines the mechanism to obtain the client or server certificate. Defines the mechanism to obtain the client or server certificate. # Defines the mechanism to obtain the client or server certificate.
"certificatePaths": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # Specifies the certificate and private key paths. This field is applicable only if tlsCertificateSource is set to USE_PATH.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"certificateSource": "A String", # Defines how TLS certificates are obtained.
"sdsConfig": { # [Deprecated] The configuration to access the SDS server. The configuration to access the SDS server. # Specifies the config to retrieve certificates through SDS. This field is applicable only if tlsCertificateSource is set to USE_SDS.
"grpcServiceConfig": { # [Deprecated] gRPC config to access the SDS server. gRPC config to access the SDS server. # The configuration to access the SDS server over GRPC.
"callCredentials": { # [Deprecated] gRPC call credentials to access the SDS server. gRPC call credentials to access the SDS server. # The call credentials to access the SDS server.
"callCredentialType": "A String", # The type of call credentials to use for GRPC requests to the SDS server. This field can be set to one of the following: - GCE_VM: The local GCE VM service account credentials are used to access the SDS server. - FROM_PLUGIN: Custom authenticator credentials are used to access the SDS server.
"fromPlugin": { # [Deprecated] Custom authenticator credentials. Custom authenticator credentials. # Custom authenticator credentials. Valid if callCredentialType is FROM_PLUGIN.
"name": "A String", # Plugin name.
"structConfig": "A String", # A text proto that conforms to a Struct type definition interpreted by the plugin.
},
},
"channelCredentials": { # [Deprecated] gRPC channel credentials to access the SDS server. gRPC channel credentials to access the SDS server. # The channel credentials to access the SDS server.
"certificates": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # The call credentials to access the SDS server.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"channelCredentialType": "A String", # The channel credentials to access the SDS server. This field can be set to one of the following: CERTIFICATES: Use TLS certificates to access the SDS server. GCE_VM: Use local GCE VM credentials to access the SDS server.
},
"targetUri": "A String", # The target URI of the SDS server.
},
},
},
"validationContext": { # [Deprecated] Defines the mechanism to obtain the Certificate Authority certificate to validate the client/server certificate. validate the client/server certificate. # Defines the mechanism to obtain the Certificate Authority certificate to validate the client/server certificate. If omitted, the proxy will not validate the server or client certificate.
"certificatePath": "A String", # The path to the file holding the CA certificate to validate the client or server certificate.
"sdsConfig": { # [Deprecated] The configuration to access the SDS server. The configuration to access the SDS server. # Specifies the config to retrieve certificates through SDS. This field is applicable only if tlsCertificateSource is set to USE_SDS.
"grpcServiceConfig": { # [Deprecated] gRPC config to access the SDS server. gRPC config to access the SDS server. # The configuration to access the SDS server over GRPC.
"callCredentials": { # [Deprecated] gRPC call credentials to access the SDS server. gRPC call credentials to access the SDS server. # The call credentials to access the SDS server.
"callCredentialType": "A String", # The type of call credentials to use for GRPC requests to the SDS server. This field can be set to one of the following: - GCE_VM: The local GCE VM service account credentials are used to access the SDS server. - FROM_PLUGIN: Custom authenticator credentials are used to access the SDS server.
"fromPlugin": { # [Deprecated] Custom authenticator credentials. Custom authenticator credentials. # Custom authenticator credentials. Valid if callCredentialType is FROM_PLUGIN.
"name": "A String", # Plugin name.
"structConfig": "A String", # A text proto that conforms to a Struct type definition interpreted by the plugin.
},
},
"channelCredentials": { # [Deprecated] gRPC channel credentials to access the SDS server. gRPC channel credentials to access the SDS server. # The channel credentials to access the SDS server.
"certificates": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # The call credentials to access the SDS server.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"channelCredentialType": "A String", # The channel credentials to access the SDS server. This field can be set to one of the following: CERTIFICATES: Use TLS certificates to access the SDS server. GCE_VM: Use local GCE VM credentials to access the SDS server.
},
"targetUri": "A String", # The target URI of the SDS server.
},
},
"validationSource": "A String", # Defines how TLS certificates are obtained.
},
},
},
"authorizationConfig": { # [Deprecated] Authorization configuration provides service-level and method-level access control for a service. control for a service. # [Deprecated] Authorization config defines the Role Based Access Control (RBAC) config. Authorization config defines the Role Based Access Control (RBAC) config.
"policies": [ # List of RbacPolicies.
{
"name": "A String", # Name of the RbacPolicy.
"permissions": [ # The list of permissions.
{ # [Deprecated] All fields defined in a permission are ANDed.
"constraints": [ # Extra custom constraints. The constraints are ANDed together.
{ # Custom constraint that specifies a key and a list of allowed values for Istio attributes.
"key": "A String", # Key of the constraint.
"values": [ # A list of allowed values.
"A String",
],
},
],
"hosts": [ # Used in Ingress or Egress Gateway cases to specify hosts that the policy applies to. Exact match, prefix match, and suffix match are supported.
"A String",
],
"methods": [ # HTTP method.
"A String",
],
"notHosts": [ # Negate of hosts. Specifies exclusions.
"A String",
],
"notMethods": [ # Negate of methods. Specifies exclusions.
"A String",
],
"notPaths": [ # Negate of paths. Specifies exclusions.
"A String",
],
"notPorts": [ # Negate of ports. Specifies exclusions.
"A String",
],
"paths": [ # HTTP request paths or gRPC methods. Exact match, prefix match, and suffix match are supported.
"A String",
],
"ports": [ # Port names or numbers.
"A String",
],
},
],
"principals": [ # The list of principals.
{ # [Deprecated] All fields defined in a principal are ANDed.
"condition": "A String", # An expression to specify custom condition.
"groups": [ # The groups the principal belongs to. Exact match, prefix match, and suffix match are supported.
"A String",
],
"ips": [ # IPv4 or IPv6 address or range (In CIDR format)
"A String",
],
"namespaces": [ # The namespaces. Exact match, prefix match, and suffix match are supported.
"A String",
],
"notGroups": [ # Negate of groups. Specifies exclusions.
"A String",
],
"notIps": [ # Negate of IPs. Specifies exclusions.
"A String",
],
"notNamespaces": [ # Negate of namespaces. Specifies exclusions.
"A String",
],
"notUsers": [ # Negate of users. Specifies exclusions.
"A String",
],
"properties": { # A map of Istio attribute to expected values. Exact match, prefix match, and suffix match are supported for values. For example, `request.headers[version]: "v1"`. The properties are ANDed together.
"a_key": "A String",
},
"users": [ # The user names/IDs or service accounts. Exact match, prefix match, and suffix match are supported.
"A String",
],
},
],
},
],
},
"clientTlsPolicy": "A String", # Optional. A URL referring to a networksecurity.ClientTlsPolicy resource that describes how clients should authenticate with this service's backends. clientTlsPolicy only applies to a global BackendService with the loadBalancingScheme set to INTERNAL_SELF_MANAGED. If left blank, communications are not encrypted. Note: This field currently has no impact.
"clientTlsSettings": { # [Deprecated] The client side authentication settings for connection originating from the backend service. the backend service. # [Deprecated] TLS Settings for the backend service.
"clientTlsContext": { # [Deprecated] The TLS settings for the client or server. The TLS settings for the client or server. # Configures the mechanism to obtain client-side security certificates and identity information. This field is only applicable when mode is set to MUTUAL.
"certificateContext": { # [Deprecated] Defines the mechanism to obtain the client or server certificate. Defines the mechanism to obtain the client or server certificate. # Defines the mechanism to obtain the client or server certificate.
"certificatePaths": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # Specifies the certificate and private key paths. This field is applicable only if tlsCertificateSource is set to USE_PATH.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"certificateSource": "A String", # Defines how TLS certificates are obtained.
"sdsConfig": { # [Deprecated] The configuration to access the SDS server. The configuration to access the SDS server. # Specifies the config to retrieve certificates through SDS. This field is applicable only if tlsCertificateSource is set to USE_SDS.
"grpcServiceConfig": { # [Deprecated] gRPC config to access the SDS server. gRPC config to access the SDS server. # The configuration to access the SDS server over GRPC.
"callCredentials": { # [Deprecated] gRPC call credentials to access the SDS server. gRPC call credentials to access the SDS server. # The call credentials to access the SDS server.
"callCredentialType": "A String", # The type of call credentials to use for GRPC requests to the SDS server. This field can be set to one of the following: - GCE_VM: The local GCE VM service account credentials are used to access the SDS server. - FROM_PLUGIN: Custom authenticator credentials are used to access the SDS server.
"fromPlugin": { # [Deprecated] Custom authenticator credentials. Custom authenticator credentials. # Custom authenticator credentials. Valid if callCredentialType is FROM_PLUGIN.
"name": "A String", # Plugin name.
"structConfig": "A String", # A text proto that conforms to a Struct type definition interpreted by the plugin.
},
},
"channelCredentials": { # [Deprecated] gRPC channel credentials to access the SDS server. gRPC channel credentials to access the SDS server. # The channel credentials to access the SDS server.
"certificates": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # The call credentials to access the SDS server.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"channelCredentialType": "A String", # The channel credentials to access the SDS server. This field can be set to one of the following: CERTIFICATES: Use TLS certificates to access the SDS server. GCE_VM: Use local GCE VM credentials to access the SDS server.
},
"targetUri": "A String", # The target URI of the SDS server.
},
},
},
"validationContext": { # [Deprecated] Defines the mechanism to obtain the Certificate Authority certificate to validate the client/server certificate. validate the client/server certificate. # Defines the mechanism to obtain the Certificate Authority certificate to validate the client/server certificate. If omitted, the proxy will not validate the server or client certificate.
"certificatePath": "A String", # The path to the file holding the CA certificate to validate the client or server certificate.
"sdsConfig": { # [Deprecated] The configuration to access the SDS server. The configuration to access the SDS server. # Specifies the config to retrieve certificates through SDS. This field is applicable only if tlsCertificateSource is set to USE_SDS.
"grpcServiceConfig": { # [Deprecated] gRPC config to access the SDS server. gRPC config to access the SDS server. # The configuration to access the SDS server over GRPC.
"callCredentials": { # [Deprecated] gRPC call credentials to access the SDS server. gRPC call credentials to access the SDS server. # The call credentials to access the SDS server.
"callCredentialType": "A String", # The type of call credentials to use for GRPC requests to the SDS server. This field can be set to one of the following: - GCE_VM: The local GCE VM service account credentials are used to access the SDS server. - FROM_PLUGIN: Custom authenticator credentials are used to access the SDS server.
"fromPlugin": { # [Deprecated] Custom authenticator credentials. Custom authenticator credentials. # Custom authenticator credentials. Valid if callCredentialType is FROM_PLUGIN.
"name": "A String", # Plugin name.
"structConfig": "A String", # A text proto that conforms to a Struct type definition interpreted by the plugin.
},
},
"channelCredentials": { # [Deprecated] gRPC channel credentials to access the SDS server. gRPC channel credentials to access the SDS server. # The channel credentials to access the SDS server.
"certificates": { # [Deprecated] The paths to the mounted TLS Certificates and private key. The paths to the mounted TLS Certificates and private key. # The call credentials to access the SDS server.
"certificatePath": "A String", # The path to the file holding the client or server TLS certificate to use.
"privateKeyPath": "A String", # The path to the file holding the client or server private key.
},
"channelCredentialType": "A String", # The channel credentials to access the SDS server. This field can be set to one of the following: CERTIFICATES: Use TLS certificates to access the SDS server. GCE_VM: Use local GCE VM credentials to access the SDS server.
},
"targetUri": "A String", # The target URI of the SDS server.
},
},
"validationSource": "A String", # Defines how TLS certificates are obtained.
},
},
"mode": "A String", # Indicates whether connections to this port should be secured using TLS. The value of this field determines how TLS is enforced. This can be set to one of the following values: DISABLE: Do not setup a TLS connection to the backends. SIMPLE: Originate a TLS connection to the backends. MUTUAL: Secure connections to the backends using mutual TLS by presenting client certificates for authentication.
"sni": "A String", # SNI string to present to the server during TLS handshake. This field is applicable only when mode is SIMPLE or MUTUAL.
"subjectAltNames": [ # A list of alternate names to verify the subject identity in the certificate.If specified, the proxy will verify that the server certificate's subject alt name matches one of the specified values. This field is applicable only when mode is SIMPLE or MUTUAL.
"A String",
],
},
"subjectAltNames": [ # Optional. A list of Subject Alternative Names (SANs) that the client verifies during a mutual TLS handshake with an server/endpoint for this BackendService. When the server presents its X.509 certificate to the client, the client inspects the certificate's subjectAltName field. If the field contains one of the specified values, the communication continues. Otherwise, it fails. This additional check enables the client to verify that the server is authorized to run the requested service. Note that the contents of the server certificate's subjectAltName field are configured by the Public Key Infrastructure which provisions server identities. Only applies to a global BackendService with loadBalancingScheme set to INTERNAL_SELF_MANAGED. Only applies when BackendService has an attached clientTlsPolicy with clientCertificate (mTLS mode). Note: This field currently has no impact.
"A String",
],
},
"selfLink": "A String", # [Output Only] Server-defined URL for the resource.
"selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id.
"sessionAffinity": "A String", # Type of session affinity to use. The default is NONE. When the loadBalancingScheme is EXTERNAL: * For Network Load Balancing, the possible values are NONE, CLIENT_IP, CLIENT_IP_PROTO, or CLIENT_IP_PORT_PROTO. * For all other load balancers that use loadBalancingScheme=EXTERNAL, the possible values are NONE, CLIENT_IP, or GENERATED_COOKIE. * You can use GENERATED_COOKIE if the protocol is HTTP, HTTP2, or HTTPS. When the loadBalancingScheme is INTERNAL, possible values are NONE, CLIENT_IP, CLIENT_IP_PROTO, or CLIENT_IP_PORT_PROTO. When the loadBalancingScheme is INTERNAL_SELF_MANAGED, or INTERNAL_MANAGED, possible values are NONE, CLIENT_IP, GENERATED_COOKIE, HEADER_FIELD, or HTTP_COOKIE. Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"subsetting": { # Subsetting configuration for this BackendService. Currently this is applicable only for Internal TCP/UDP load balancing, Internal HTTP(S) load balancing and Traffic Director.
"policy": "A String",
},
"timeoutSec": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true. Instead, use maxStreamDuration.
},
],
"warning": { # Informational warning which replaces the list of backend services when the list is empty.
"code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response.
"data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" }
{
"key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding).
"value": "A String", # [Output Only] A warning data value corresponding to the key.
},
],
"message": "A String", # [Output Only] A human-readable description of the warning code.
},
},
},
"kind": "compute#backendServiceAggregatedList", # Type of resource.
"nextPageToken": "A String", # [Output Only] This token allows you to get the next page of results for list requests. If the number of results is larger than maxResults, use the nextPageToken as a value for the query parameter pageToken in the next list request. Subsequent list requests will have their own nextPageToken to continue paging through the results.
"selfLink": "A String", # [Output Only] Server-defined URL for this resource.
"unreachables": [ # [Output Only] Unreachable resources.
"A String",
],
"warning": { # [Output Only] Informational warning message.
"code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response.
"data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" }
{
"key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding).
"value": "A String", # [Output Only] A warning data value corresponding to the key.
},
],
"message": "A String", # [Output Only] A human-readable description of the warning code.
},
}</pre>
</div>
<div class="method">
<code class="details" id="aggregatedList_next">aggregatedList_next(previous_request, previous_response)</code>
<pre>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.
</pre>
</div>
<div class="method">
<code class="details" id="close">close()</code>
<pre>Close httplib2 connections.</pre>
</div>
<div class="method">
<code class="details" id="delete">delete(project, backendService, requestId=None, x__xgafv=None)</code>
<pre>Deletes the specified BackendService resource.
Args:
project: string, Project ID for this request. (required)
backendService: string, Name of the BackendService resource to delete. (required)
requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
x__xgafv: string, V1 error format.
Allowed values
1 - v1 error format
2 - v2 error format
Returns:
An object of the form:
{ # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/alpha/globalOperations) * [Regional](/compute/docs/reference/rest/alpha/regionOperations) * [Zonal](/compute/docs/reference/rest/alpha/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zonalOperations` resource. For more information, read Global, Regional, and Zonal Resources.
"clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise.
"creationTimestamp": "A String", # [Deprecated] This field is deprecated.
"description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created.
"endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format.
"error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated.
"errors": [ # [Output Only] The array of errors encountered while processing this operation.
{
"code": "A String", # [Output Only] The error type identifier for this error.
"location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional.
"message": "A String", # [Output Only] An optional, human-readable error message.
},
],
},
"httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`.
"httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found.
"id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server.
"insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format.
"kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources.
"name": "A String", # [Output Only] Name of the operation.
"operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request.
"operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on.
"progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses.
"region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations.
"selfLink": "A String", # [Output Only] Server-defined URL for the resource.
"selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id.
"startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format.
"status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`.
"statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation.
"targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource.
"targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the persistent disk that the snapshot was created from.
"user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com`.
"warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated.
{
"code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response.
"data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" }
{
"key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding).
"value": "A String", # [Output Only] A warning data value corresponding to the key.
},
],
"message": "A String", # [Output Only] A human-readable description of the warning code.
},
],
"zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations.
}</pre>
</div>
<div class="method">
<code class="details" id="deleteSignedUrlKey">deleteSignedUrlKey(project, backendService, keyName, requestId=None, x__xgafv=None)</code>
<pre>Deletes a key for validating requests with signed URLs for this backend service.
Args:
project: string, Project ID for this request. (required)
backendService: string, Name of the BackendService resource to which the Signed URL Key should be added. The name should conform to RFC1035. (required)
keyName: string, The name of the Signed URL Key to delete. (required)
requestId: string, An optional request ID to identify requests. Specify a unique request ID so that if you must retry your request, the server will know to ignore the request if it has already been completed. For example, consider a situation where you make an initial request and the request times out. If you make the request again with the same request ID, the server can check if original operation with the same request ID was received, and if so, will ignore the second request. This prevents clients from accidentally creating duplicate commitments. The request ID must be a valid UUID with the exception that zero UUID is not supported ( 00000000-0000-0000-0000-000000000000).
x__xgafv: string, V1 error format.
Allowed values
1 - v1 error format
2 - v2 error format
Returns:
An object of the form:
{ # Represents an Operation resource. Google Compute Engine has three Operation resources: * [Global](/compute/docs/reference/rest/alpha/globalOperations) * [Regional](/compute/docs/reference/rest/alpha/regionOperations) * [Zonal](/compute/docs/reference/rest/alpha/zoneOperations) You can use an operation resource to manage asynchronous API requests. For more information, read Handling API responses. Operations can be global, regional or zonal. - For global operations, use the `globalOperations` resource. - For regional operations, use the `regionOperations` resource. - For zonal operations, use the `zonalOperations` resource. For more information, read Global, Regional, and Zonal Resources.
"clientOperationId": "A String", # [Output Only] The value of `requestId` if you provided it in the request. Not present otherwise.
"creationTimestamp": "A String", # [Deprecated] This field is deprecated.
"description": "A String", # [Output Only] A textual description of the operation, which is set when the operation is created.
"endTime": "A String", # [Output Only] The time that this operation was completed. This value is in RFC3339 text format.
"error": { # [Output Only] If errors are generated during processing of the operation, this field will be populated.
"errors": [ # [Output Only] The array of errors encountered while processing this operation.
{
"code": "A String", # [Output Only] The error type identifier for this error.
"location": "A String", # [Output Only] Indicates the field in the request that caused the error. This property is optional.
"message": "A String", # [Output Only] An optional, human-readable error message.
},
],
},
"httpErrorMessage": "A String", # [Output Only] If the operation fails, this field contains the HTTP error message that was returned, such as `NOT FOUND`.
"httpErrorStatusCode": 42, # [Output Only] If the operation fails, this field contains the HTTP error status code that was returned. For example, a `404` means the resource was not found.
"id": "A String", # [Output Only] The unique identifier for the operation. This identifier is defined by the server.
"insertTime": "A String", # [Output Only] The time that this operation was requested. This value is in RFC3339 text format.
"kind": "compute#operation", # [Output Only] Type of the resource. Always `compute#operation` for Operation resources.
"name": "A String", # [Output Only] Name of the operation.
"operationGroupId": "A String", # [Output Only] An ID that represents a group of operations, such as when a group of operations results from a `bulkInsert` API request.
"operationType": "A String", # [Output Only] The type of operation, such as `insert`, `update`, or `delete`, and so on.
"progress": 42, # [Output Only] An optional progress indicator that ranges from 0 to 100. There is no requirement that this be linear or support any granularity of operations. This should not be used to guess when the operation will be complete. This number should monotonically increase as the operation progresses.
"region": "A String", # [Output Only] The URL of the region where the operation resides. Only applicable when performing regional operations.
"selfLink": "A String", # [Output Only] Server-defined URL for the resource.
"selfLinkWithId": "A String", # [Output Only] Server-defined URL for this resource with the resource id.
"startTime": "A String", # [Output Only] The time that this operation was started by the server. This value is in RFC3339 text format.
"status": "A String", # [Output Only] The status of the operation, which can be one of the following: `PENDING`, `RUNNING`, or `DONE`.
"statusMessage": "A String", # [Output Only] An optional textual description of the current status of the operation.
"targetId": "A String", # [Output Only] The unique target ID, which identifies a specific incarnation of the target resource.
"targetLink": "A String", # [Output Only] The URL of the resource that the operation modifies. For operations related to creating a snapshot, this points to the persistent disk that the snapshot was created from.
"user": "A String", # [Output Only] User who requested the operation, for example: `user@example.com`.
"warnings": [ # [Output Only] If warning messages are generated during processing of the operation, this field will be populated.
{
"code": "A String", # [Output Only] A warning code, if applicable. For example, Compute Engine returns NO_RESULTS_ON_PAGE if there are no results in the response.
"data": [ # [Output Only] Metadata about this warning in key: value format. For example: "data": [ { "key": "scope", "value": "zones/us-east1-d" }
{
"key": "A String", # [Output Only] A key that provides more detail on the warning being returned. For example, for warnings where there are no results in a list request for a particular zone, this key might be scope and the key value might be the zone name. Other examples might be a key indicating a deprecated resource and a suggested replacement, or a warning about invalid network settings (for example, if an instance attempts to perform IP forwarding but is not enabled for IP forwarding).
"value": "A String", # [Output Only] A warning data value corresponding to the key.
},
],
"message": "A String", # [Output Only] A human-readable description of the warning code.
},
],
"zone": "A String", # [Output Only] The URL of the zone where the operation resides. Only applicable when performing per-zone operations.
}</pre>
</div>
<div class="method">
<code class="details" id="get">get(project, backendService, x__xgafv=None)</code>
<pre>Returns the specified BackendService resource. Gets a list of available backend services.
Args:
project: string, Project ID for this request. (required)
backendService: string, Name of the BackendService resource to return. (required)
x__xgafv: string, V1 error format.
Allowed values
1 - v1 error format
2 - v2 error format
Returns:
An object of the form:
{ # Represents a Backend Service resource. A backend service defines how Google Cloud load balancers distribute traffic. The backend service configuration contains a set of values, such as the protocol used to connect to backends, various distribution and session settings, health checks, and timeouts. These settings provide fine-grained control over how your load balancer behaves. Most of the settings have default values that allow for easy configuration if you need to get started quickly. Backend services in Google Compute Engine can be either regionally or globally scoped. * [Global](/compute/docs/reference/rest/alpha/backendServices) * [Regional](/compute/docs/reference/rest/alpha/regionBackendServices) For more information, see Backend Services.
"affinityCookieTtlSec": 42, # Lifetime of cookies in seconds. Only applicable if the loadBalancingScheme is EXTERNAL, INTERNAL_SELF_MANAGED, or INTERNAL_MANAGED, the protocol is HTTP or HTTPS, and the sessionAffinity is GENERATED_COOKIE, or HTTP_COOKIE. If set to 0, the cookie is non-persistent and lasts only until the end of the browser session (or equivalent). The maximum allowed value is one day ( 86,400). Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"backends": [ # The list of backends that serve this BackendService.
{ # Message containing information of one individual backend.
"balancingMode": "A String", # Specifies how to determine whether the backend of a load balancer can handle additional traffic or is fully loaded. For usage guidelines, see Connection balancing mode.
"capacityScaler": 3.14, # A multiplier applied to the backend's target capacity of its balancing mode. The default value is 1, which means the group serves up to 100% of its configured capacity (depending on balancingMode). A setting of 0 means the group is completely drained, offering 0% of its available capacity. The valid ranges are 0.0 and [0.1,1.0]. You cannot configure a setting larger than 0 and smaller than 0.1. You cannot configure a setting of 0 when there is only one backend attached to the backend service. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing
"description": "A String", # An optional description of this resource. Provide this property when you create the resource.
"failover": True or False, # This field designates whether this is a failover backend. More than one failover backend can be configured for a given BackendService.
"group": "A String", # The fully-qualified URL of an instance group or network endpoint group (NEG) resource. The type of backend that a backend service supports depends on the backend service's loadBalancingScheme. - When the loadBalancingScheme for the backend service is EXTERNAL (except Network Load Balancing), INTERNAL_SELF_MANAGED, or INTERNAL_MANAGED , the backend can be either an instance group or a NEG. The backends on the backend service must be either all instance groups or all NEGs. You cannot mix instance group and NEG backends on the same backend service. - When the loadBalancingScheme for the backend service is EXTERNAL for Network Load Balancing or INTERNAL for Internal TCP/UDP Load Balancing, the backend must be an instance group. NEGs are not supported. For regional services, the backend must be in the same region as the backend service. You must use the *fully-qualified* URL (starting with https://www.googleapis.com/) to specify the instance group or NEG. Partial URLs are not supported.
"maxConnections": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing
"maxConnectionsPerEndpoint": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing.
"maxConnectionsPerInstance": 42, # Defines a target maximum number of simultaneous connections. For usage guidelines, see Connection balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is RATE. Not supported by: - Internal TCP/UDP Load Balancing - Network Load Balancing.
"maxRate": 42, # Defines a maximum number of HTTP requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxRatePerEndpoint": 3.14, # Defines a maximum target for requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxRatePerInstance": 3.14, # Defines a maximum target for requests per second (RPS). For usage guidelines, see Rate balancing mode and Utilization balancing mode. Not available if the backend's balancingMode is CONNECTION.
"maxUtilization": 3.14,
},
],
"cdnPolicy": { # Message containing Cloud CDN configuration for a backend service. # Cloud CDN configuration for this BackendService. Only available for external HTTP(S) Load Balancing.
"bypassCacheOnRequestHeaders": [ # Bypass the cache when the specified request headers are matched - e.g. Pragma or Authorization headers. Up to 5 headers can be specified. The cache is bypassed for all cdnPolicy.cacheMode settings.
{ # Bypass the cache when the specified request headers are present, e.g. Pragma or Authorization headers. Values are case insensitive. The presence of such a header overrides the cache_mode setting.
"headerName": "A String", # The header field name to match on when bypassing cache. Values are case-insensitive.
},
],
"cacheKeyPolicy": { # Message containing what to include in the cache key for a request for Cloud CDN. # The CacheKeyPolicy for this CdnPolicy.
"includeHost": True or False, # If true, requests to different hosts will be cached separately.
"includeHttpHeaders": [ # Allows HTTP request headers (by name) to be used in the cache key.
"A String",
],
"includeNamedCookies": [ # Allows HTTP cookies (by name) to be used in the cache key. The name=value pair will be used in the cache key Cloud CDN generates.
"A String",
],
"includeProtocol": True or False, # If true, http and https requests will be cached separately.
"includeQueryString": True or False, # If true, include query string parameters in the cache key according to query_string_whitelist and query_string_blacklist. If neither is set, the entire query string will be included. If false, the query string will be excluded from the cache key entirely.
"queryStringBlacklist": [ # Names of query string parameters to exclude in cache keys. All other parameters will be included. Either specify query_string_whitelist or query_string_blacklist, not both. '&' and '=' will be percent encoded and not treated as delimiters.
"A String",
],
"queryStringWhitelist": [ # Names of query string parameters to include in cache keys. All other parameters will be excluded. Either specify query_string_whitelist or query_string_blacklist, not both. '&' and '=' will be percent encoded and not treated as delimiters.
"A String",
],
},
"cacheMode": "A String", # Specifies the cache setting for all responses from this backend. The possible values are: USE_ORIGIN_HEADERS Requires the origin to set valid caching headers to cache content. Responses without these headers will not be cached at Google's edge, and will require a full trip to the origin on every request, potentially impacting performance and increasing load on the origin server. FORCE_CACHE_ALL Cache all content, ignoring any "private", "no-store" or "no-cache" directives in Cache-Control response headers. Warning: this may result in Cloud CDN caching private, per-user (user identifiable) content. CACHE_ALL_STATIC Automatically cache static content, including common image formats, media (video and audio), and web assets (JavaScript and CSS). Requests and responses that are marked as uncacheable, as well as dynamic content (including HTML), will not be cached.
"clientTtl": 42, # Specifies a separate client (e.g. browser client) maximum TTL. This is used to clamp the max-age (or Expires) value sent to the client. With FORCE_CACHE_ALL, the lesser of client_ttl and default_ttl is used for the response max-age directive, along with a "public" directive. For cacheable content in CACHE_ALL_STATIC mode, client_ttl clamps the max-age from the origin (if specified), or else sets the response max-age directive to the lesser of the client_ttl and default_ttl, and also ensures a "public" cache-control directive is present. If a client TTL is not specified, a default value (1 hour) will be used. The maximum allowed value is 86400s (1 day).
"defaultTtl": 42, # Specifies the default TTL for cached content served by this origin for responses that do not have an existing valid TTL (max-age or s-max-age). Setting a TTL of "0" means "always revalidate". The value of defaultTTL cannot be set to a value greater than that of maxTTL, but can be equal. When the cacheMode is set to FORCE_CACHE_ALL, the defaultTTL will overwrite the TTL set in all responses. The maximum allowed value is 31,622,400s (1 year), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
"maxTtl": 42, # Specifies the maximum allowed TTL for cached content served by this origin. Cache directives that attempt to set a max-age or s-maxage higher than this, or an Expires header more than maxTTL seconds in the future will be capped at the value of maxTTL, as if it were the value of an s-maxage Cache-Control directive. Headers sent to the client will not be modified. Setting a TTL of "0" means "always revalidate". The maximum allowed value is 31,622,400s (1 year), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
"negativeCaching": True or False, # Negative caching allows per-status code TTLs to be set, in order to apply fine-grained caching for common errors or redirects. This can reduce the load on your origin and improve end-user experience by reducing response latency. When the cache mode is set to CACHE_ALL_STATIC or USE_ORIGIN_HEADERS, negative caching applies to responses with the specified response code that lack any Cache-Control, Expires, or Pragma: no-cache directives. When the cache mode is set to FORCE_CACHE_ALL, negative caching applies to all responses with the specified response code, and override any caching headers. By default, Cloud CDN will apply the following default TTLs to these status codes: HTTP 300 (Multiple Choice), 301, 308 (Permanent Redirects): 10m HTTP 404 (Not Found), 410 (Gone), 451 (Unavailable For Legal Reasons): 120s HTTP 405 (Method Not Found), 421 (Misdirected Request), 501 (Not Implemented): 60s. These defaults can be overridden in negative_caching_policy.
"negativeCachingPolicy": [ # Sets a cache TTL for the specified HTTP status code. negative_caching must be enabled to configure negative_caching_policy. Omitting the policy and leaving negative_caching enabled will use Cloud CDN's default cache TTLs. Note that when specifying an explicit negative_caching_policy, you should take care to specify a cache TTL for all response codes that you wish to cache. Cloud CDN will not apply any default negative caching when a policy exists.
{ # Specify CDN TTLs for response error codes.
"code": 42, # The HTTP status code to define a TTL against. Only HTTP status codes 300, 301, 302, 307, 308, 404, 405, 410, 421, 451 and 501 are can be specified as values, and you cannot specify a status code more than once.
"ttl": 42, # The TTL (in seconds) for which to cache responses with the corresponding status code. The maximum allowed value is 1800s (30 minutes), noting that infrequently accessed objects may be evicted from the cache before the defined TTL.
},
],
"requestCoalescing": True or False, # If true then Cloud CDN will combine multiple concurrent cache fill requests into a small number of requests to the origin.
"serveWhileStale": 42, # Serve existing content from the cache (if available) when revalidating content with the origin, or when an error is encountered when refreshing the cache. This setting defines the default "max-stale" duration for any cached responses that do not specify a max-stale directive. Stale responses that exceed the TTL configured here will not be served. The default limit (max-stale) is 86400s (1 day), which will allow stale content to be served up to this limit beyond the max-age (or s-max-age) of a cached response. The maximum allowed value is 604800 (1 week). Set this to zero (0) to disable serve-while-stale.
"signedUrlCacheMaxAgeSec": "A String", # Maximum number of seconds the response to a signed URL request will be considered fresh. After this time period, the response will be revalidated before being served. Defaults to 1hr (3600s). When serving responses to signed URL requests, Cloud CDN will internally behave as though all responses from this backend had a "Cache-Control: public, max-age=[TTL]" header, regardless of any existing Cache-Control header. The actual headers served in responses will not be altered.
"signedUrlKeyNames": [ # [Output Only] Names of the keys for signing request URLs.
"A String",
],
},
"circuitBreakers": { # Settings controlling the volume of connections to a backend service.
"connectTimeout": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # The timeout for new network connections to hosts.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"maxConnections": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxPendingRequests": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxRequests": 42, # The maximum number of parallel requests that allowed to the backend service. If not specified, there is no limit.
"maxRequestsPerConnection": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"maxRetries": 42, # Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
},
"compressionMode": "A String", # Compress text responses using Brotli or gzip compression, based on the client鈥檚 Accept-Encoding header.
"connectionDraining": { # Message containing connection draining configuration.
"drainingTimeoutSec": 42, # Configures a duration timeout for existing requests on a removed backend instance. For supported load balancers and protocols, as described in Enabling connection draining.
},
"connectionTrackingPolicy": { # Connection Tracking configuration for this BackendService.
"connectionPersistenceOnUnhealthyBackends": "A String", # Specifies connection persistence when backends are unhealthy. The default value is DEFAULT_FOR_PROTOCOL. If set to DEFAULT_FOR_PROTOCOL, the existing connections persist on unhealthy backends only for connection-oriented protocols (TCP and SCTP) and only if the Tracking Mode is PER_CONNECTION (default tracking mode) or the Session Affinity is configured for 5-tuple. They do not persist for UDP. If set to NEVER_PERSIST, after a backend becomes unhealthy, the existing connections on the unhealthy backend are never persisted on the unhealthy backend. They are always diverted to newly selected healthy backends (unless all backends are unhealthy). If set to ALWAYS_PERSIST, existing connections always persist on unhealthy backends regardless of protocol and session affinity. It is generally not recommended to use this mode overriding the default.
"idleTimeoutSec": 42, # Specifies how long to keep a Connection Tracking entry while there is no matching traffic (in seconds). For L4 ILB the minimum(default) is 10 minutes and maximum is 16 hours. For NLB the minimum(default) is 60 seconds and the maximum is 16 hours. This field will be supported only if the Connection Tracking key is less than 5-tuple.
"trackingMode": "A String", # Specifies the key used for connection tracking. There are two options: PER_CONNECTION: This is the default mode. The Connection Tracking is performed as per the Connection Key (default Hash Method) for the specific protocol. PER_SESSION: The Connection Tracking is performed as per the configured Session Affinity. It matches the configured Session Affinity.
},
"consistentHash": { # This message defines settings for a consistent hash style load balancer. # Consistent Hash-based load balancing can be used to provide soft session affinity based on HTTP headers, cookies or other properties. This load balancing policy is applicable only for HTTP connections. The affinity to a particular destination host will be lost when one or more hosts are added/removed from the destination service. This field specifies parameters that control consistent hashing. This field is only applicable when localityLbPolicy is set to MAGLEV or RING_HASH. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"httpCookie": { # The information about the HTTP Cookie on which the hash function is based for load balancing policies that use a consistent hash. # Hash is based on HTTP Cookie. This field describes a HTTP cookie that will be used as the hash key for the consistent hash load balancer. If the cookie is not present, it will be generated. This field is applicable if the sessionAffinity is set to HTTP_COOKIE.
"name": "A String", # Name of the cookie.
"path": "A String", # Path to set for the cookie.
"ttl": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Lifetime of the cookie.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
},
"httpHeaderName": "A String", # The hash based on the value of the specified header field. This field is applicable if the sessionAffinity is set to HEADER_FIELD.
"minimumRingSize": "A String", # The minimum number of virtual nodes to use for the hash ring. Defaults to 1024. Larger ring sizes result in more granular load distributions. If the number of hosts in the load balancing pool is larger than the ring size, each host will be assigned a single virtual node.
},
"creationTimestamp": "A String", # [Output Only] Creation timestamp in RFC3339 text format.
"customRequestHeaders": [ # Headers that the HTTP/S load balancer should add to proxied requests.
"A String",
],
"customResponseHeaders": [ # Headers that the HTTP/S load balancer should add to proxied responses.
"A String",
],
"description": "A String", # An optional description of this resource. Provide this property when you create the resource.
"edgeSecurityPolicy": "A String", # [Output Only] The resource URL for the edge security policy associated with this backend service.
"enableCDN": True or False, # If true, enables Cloud CDN for the backend service. Only applicable if the loadBalancingScheme is EXTERNAL and the protocol is HTTP or HTTPS.
"failoverPolicy": { # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. On failover or failback, this field indicates whether connection draining will be honored. GCP has a fixed connection draining timeout of 10 minutes. A setting of true terminates existing TCP connections to the active pool during failover and failback, immediately draining traffic. A setting of false allows existing TCP connections to persist, even on VMs no longer in the active pool, for up to the duration of the connection draining timeout (10 minutes). # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. Requires at least one backend instance group to be defined as a backup (failover) backend.
"disableConnectionDrainOnFailover": True or False, # This can be set to true only if the protocol is TCP. The default is false.
"dropTrafficIfUnhealthy": True or False, # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing, If set to true, connections to the load balancer are dropped when all primary and all backup backend VMs are unhealthy.If set to false, connections are distributed among all primary VMs when all primary and all backup backend VMs are unhealthy. The default is false.
"failoverRatio": 3.14, # Applicable only to Failover for Internal TCP/UDP Load Balancing and Network Load Balancing. The value of the field must be in the range [0, 1]. If the value is 0, the load balancer performs a failover when the number of healthy primary VMs equals zero. For all other values, the load balancer performs a failover when the total number of healthy primary VMs is less than this ratio.
},
"fingerprint": "A String", # Fingerprint of this resource. A hash of the contents stored in this object. This field is used in optimistic locking. This field will be ignored when inserting a BackendService. An up-to-date fingerprint must be provided in order to update the BackendService, otherwise the request will fail with error 412 conditionNotMet. To see the latest fingerprint, make a get() request to retrieve a BackendService.
"healthChecks": [ # The list of URLs to the healthChecks, httpHealthChecks (legacy), or httpsHealthChecks (legacy) resource for health checking this backend service. Not all backend services support legacy health checks. See Load balancer guide. Currently, at most one health check can be specified for each backend service. Backend services with instance group or zonal NEG backends must have a health check. Backend services with internet or serverless NEG backends must not have a health check.
"A String",
],
"iap": { # Identity-Aware Proxy # The configurations for Identity-Aware Proxy on this resource. Not available for Internal TCP/UDP Load Balancing and Network Load Balancing.
"enabled": True or False, # Whether the serving infrastructure will authenticate and authorize all incoming requests. If true, the oauth2ClientId and oauth2ClientSecret fields must be non-empty.
"oauth2ClientId": "A String", # OAuth2 client ID to use for the authentication flow.
"oauth2ClientInfo": { # [Input Only] OAuth client info required to generate client id to be used for IAP.
"applicationName": "A String", # Application name to be used in OAuth consent screen.
"clientName": "A String", # Name of the client to be generated. Optional - If not provided, the name will be autogenerated by the backend.
"developerEmailAddress": "A String", # Developer's information to be used in OAuth consent screen.
},
"oauth2ClientSecret": "A String", # OAuth2 client secret to use for the authentication flow. For security reasons, this value cannot be retrieved via the API. Instead, the SHA-256 hash of the value is returned in the oauth2ClientSecretSha256 field. @InputOnly
"oauth2ClientSecretSha256": "A String", # [Output Only] SHA256 hash value for the field oauth2_client_secret above.
},
"id": "A String", # [Output Only] The unique identifier for the resource. This identifier is defined by the server.
"kind": "compute#backendService", # [Output Only] Type of resource. Always compute#backendService for backend services.
"loadBalancingScheme": "A String", # Specifies the load balancer type. Choose EXTERNAL for external HTTP(S), SSL Proxy, TCP Proxy and Network Load Balancing. Choose INTERNAL for Internal TCP/UDP Load Balancing. Choose INTERNAL_MANAGED for Internal HTTP(S) Load Balancing. INTERNAL_SELF_MANAGED for Traffic Director. A backend service created for one type of load balancer cannot be used with another. For more information, refer to Choosing a load balancer.
"localityLbPolicy": "A String", # The load balancing algorithm used within the scope of the locality. The possible values are: - ROUND_ROBIN: This is a simple policy in which each healthy backend is selected in round robin order. This is the default. - LEAST_REQUEST: An O(1) algorithm which selects two random healthy hosts and picks the host which has fewer active requests. - RING_HASH: The ring/modulo hash load balancer implements consistent hashing to backends. The algorithm has the property that the addition/removal of a host from a set of N hosts only affects 1/N of the requests. - RANDOM: The load balancer selects a random healthy host. - ORIGINAL_DESTINATION: Backend host is selected based on the client connection metadata, i.e., connections are opened to the same address as the destination address of the incoming connection before the connection was redirected to the load balancer. - MAGLEV: used as a drop in replacement for the ring hash load balancer. Maglev is not as stable as ring hash but has faster table lookup build times and host selection times. For more information about Maglev, see https://ai.google/research/pubs/pub44824 This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. If sessionAffinity is not NONE, and this field is not set to MAGLEV or RING_HASH, session affinity settings will not take effect. Only the default ROUND_ROBIN policy is supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"logConfig": { # The available logging options for the load balancer traffic served by this backend service. # This field denotes the logging options for the load balancer traffic served by this backend service. If logging is enabled, logs will be exported to Stackdriver.
"enable": True or False, # This field denotes whether to enable logging for the load balancer traffic served by this backend service.
"sampleRate": 3.14, # This field can only be specified if logging is enabled for this backend service. The value of the field must be in [0, 1]. This configures the sampling rate of requests to the load balancer where 1.0 means all logged requests are reported and 0.0 means no logged requests are reported. The default value is 1.0.
},
"maxStreamDuration": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Specifies the default maximum duration (timeout) for streams to this service. Duration is computed from the beginning of the stream until the response has been completely processed, including all retries. A stream that does not complete in this duration is closed. If not specified, there will be no timeout limit, i.e. the maximum duration is infinite. This value can be overridden in the PathMatcher configuration of the UrlMap that references this backend service. This field is only allowed when the loadBalancingScheme of the backend service is INTERNAL_SELF_MANAGED.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"name": "A String", # Name of the resource. Provided by the client when the resource is created. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression `[a-z]([-a-z0-9]*[a-z0-9])?` which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash.
"network": "A String", # The URL of the network to which this backend service belongs. This field can only be specified when the load balancing scheme is set to INTERNAL.
"outlierDetection": { # Settings controlling the eviction of unhealthy hosts from the load balancing pool for the backend service. # Settings controlling the eviction of unhealthy hosts from the load balancing pool for the backend service. If not set, this feature is considered disabled. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED. Not supported when the backend service is referenced by a URL map that is bound to target gRPC proxy that has validateForProxyless field set to true.
"baseEjectionTime": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # The base time that a host is ejected for. The real ejection time is equal to the base ejection time multiplied by the number of times the host has been ejected. Defaults to 30000ms or 30s.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"consecutiveErrors": 42, # Number of errors before a host is ejected from the connection pool. When the backend host is accessed over HTTP, a 5xx return code qualifies as an error. Defaults to 5.
"consecutiveGatewayFailure": 42, # The number of consecutive gateway failures (502, 503, 504 status or connection errors that are mapped to one of those status codes) before a consecutive gateway failure ejection occurs. Defaults to 3.
"enforcingConsecutiveErrors": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through consecutive 5xx. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 0.
"enforcingConsecutiveGatewayFailure": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through consecutive gateway failures. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 100.
"enforcingSuccessRate": 42, # The percentage chance that a host will be actually ejected when an outlier status is detected through success rate statistics. This setting can be used to disable ejection or to ramp it up slowly. Defaults to 100.
"interval": { # A Duration represents a fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like "day" or "month". Range is approximately 10,000 years. # Time interval between ejection analysis sweeps. This can result in both new ejections as well as hosts being returned to service. Defaults to 1 second.
"nanos": 42, # Span of time that's a fraction of a second at nanosecond resolution. Durations less than one second are represented with a 0 `seconds` field and a positive `nanos` field. Must be from 0 to 999,999,999 inclusive.
"seconds": "A String", # Span of time at a resolution of a second. Must be from 0 to 315,576,000,000 inclusive. Note: these bounds are computed from: 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
},
"maxEjectionPercent": 42, # Maximum percentage of hosts in the load balancing pool for the backend service that can be ejected. Defaults to 50%.
"successRateMinimumHosts": 42, # The number of hosts in a cluster that must have enough request volume to detect success rate outliers. If the number of hosts is less than this setting, outlier detection via success rate statistics is not performed for any host in the cluster. Defaults to 5.
"successRateRequestVolume": 42, # The minimum number of total requests that must be collected in one interval (as defined by the interval duration above) to include this host in success rate based outlier detection. If the volume is lower than this setting, outlier detection via success rate statistics is not performed for that host. Defaults to 100.
"successRateStdevFactor": 42, # This factor is used to determine the ejection threshold for success rate outlier ejection. The ejection threshold is the difference between the mean success rate, and the product of this factor and the standard deviation of the mean success rate: mean - (stdev * success_rate_stdev_factor). This factor is divided by a thousand to get a double. That is, if the desired factor is 1.9, the runtime value should be 1900. Defaults to 1900.
},
"port": 42, # Deprecated in favor of portName. The TCP port to connect on the backend. The default value is 80. Backend services for Internal TCP/UDP Load Balancing and Network Load Balancing require you omit port.
"portName": "A String", # A named port on a backend instance group representing the port for communication to the backend VMs in that group. Required when the loadBalancingScheme is EXTERNAL (except Network Load Balancing), INTERNAL_MANAGED, or INTERNAL_SELF_MANAGED and the backends are instance groups. The named port must be defined on each backend instance group. This parameter has no meaning if the backends are NEGs. Backend services for Internal TCP/UDP Load Balancing and Network Load Balancing require you omit port_name.
"protocol": "A String", # The protocol this BackendService uses to communicate with backends. Possible values are HTTP, HTTPS, HTTP2, TCP, SSL, UDP or GRPC. depending on the chosen load balancer or Traffic Director configuration. Refer to the documentation for the load balancer or for Traffic Director for more information. Must be set to GRPC when the backend service is referenced by a URL map that is bound to target gRPC proxy.
"region": "A String", # [Output Only] URL of the region where the regional backend service resides. This field is not applicable to global backend services. You must specify this field as part of the HTTP request URL. It is not settable as a field in the request body.
"securityPolicy": "A String", # [Output Only] The resource URL for the security policy associated with this backend service.
"securitySettings": { # The authentication and authorization settings for a BackendService. # This field specifies the security policy that applies to this backend service. This field is applicable to either: - A regional backend service with the service_protocol set to HTTP, HTTPS, or HTTP2, and load_balancing_scheme set to INTERNAL_MANAGED. - A global backend service with the load_balancing_scheme set to INTERNAL_SELF_MANAGED.
"authentication": "A String", # [Deprecated] Use clientTlsPolicy instead.
"authenticationPolicy": { # [Deprecated] The authentication settings for the backend service. The authentication settings for the backend service. # [Deprecated] Authentication policy defines what authentication methods can be accepted on backends, and if authenticated, which method/certificate will set the request principal. request principal.
"origins": [ # List of authentication methods that can be used for origin authentication. Similar to peers, these will be evaluated in order the first valid one will be used to set origin identity. If none of these methods pass, the request will be rejected with authentication failed error (401). Leave the list empty if origin authentication is not required.
{ # [Deprecated] Configuration for the origin authentication method. Configuration for the origin authentication method.
"jwt": { # [Deprecated] JWT configuration for origin authentication. JWT configuration for origin authentication.
"audiences": [ # A JWT containing any of these audiences will be accepted. The service name will be accepted if audiences is empty. Examples: bookstore_android.apps.googleusercontent.com, bookstore_web.apps.googleusercontent.com
"A String",
],
"issuer": "A String", # Identifies the issuer that issued the JWT, which is usually a URL or an email address. Examples: https://securetoken.google.com, 1234567-compute@developer.gserviceaccount.com
"jwksPublicKeys": "A String", # The provider's public key set to validate the signature of the JWT.
"jwtHeaders": [ # jwt_headers and jwt_params define where to extract the JWT from an HTTP request. If no explicit location is specified, the following default locations are tried in order: 1. The Authorization header using the Bearer schema. See `here `_. Example: Authorization: Bearer . 2. `access_token` query parameter. See `this `_ Multiple JWTs can be verified for a request. Each JWT has to be extracted from the locations its issuer specified or from the default locations. This field is set if JWT is sent in a request header. This field specifies the header name. For example, if `header=x-goog-iap-jwt-assertion`, the header format will be x-goog-iap-jwt-assertion: .
{ # [Deprecated] This message specifies a header location to extract JWT token. This message specifies a header location to extract JWT token.
"name": "A String", # The HTTP header name.
"valuePrefix": "A String", # The value prefix. The value format is "value_prefix" For example, for "Authorization: Bearer ", value_prefix="Bearer " with a space at the end.
},
],
"jwtParams": [ # This field is set if JWT is sent in a query parameter. This field specifies the query parameter name. For example, if jwt_params[0] is jwt_token, the JWT format in the query parameter is /path?jwt_token=.
"A String",
],
},
},
],
"peers": [ # List of authentication methods that can be used for peer authentication. They will be evaluated in order the first valid one will be used to set peer identity. If none of these methods pass, the request will be rejected with authentication failed error (401). Leave the list empty if peer authentication is not required.
{ # [Deprecated] Configuration for the peer authentication method. Configuration for the peer authentication method.
"mtls": { # [Deprecated] Configuration for the mutual Tls mode for peer authentication. Configuration for the mutual Tls mode for peer authentication. # Set if mTLS is used for peer authentication.
"mode": "A String", # Specifies if the server TLS is configured to be strict or permissive. This field can be set to one of the following: STRICT: Client certificate must be presented, connection is in TLS. PERMISSIVE: Client certificate can be omitted, connection can be either plaintext or TLS.
},
},
],