aws_sdk_appsync::operation::update_api_cache::builders

Struct UpdateApiCacheInputBuilder

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#[non_exhaustive]
pub struct UpdateApiCacheInputBuilder { /* private fields */ }
Expand description

A builder for UpdateApiCacheInput.

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impl UpdateApiCacheInputBuilder

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pub fn api_id(self, input: impl Into<String>) -> Self

The GraphQL API ID.

This field is required.
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pub fn set_api_id(self, input: Option<String>) -> Self

The GraphQL API ID.

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pub fn get_api_id(&self) -> &Option<String>

The GraphQL API ID.

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pub fn ttl(self, input: i64) -> Self

TTL in seconds for cache entries.

Valid values are 1–3,600 seconds.

This field is required.
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pub fn set_ttl(self, input: Option<i64>) -> Self

TTL in seconds for cache entries.

Valid values are 1–3,600 seconds.

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pub fn get_ttl(&self) -> &Option<i64>

TTL in seconds for cache entries.

Valid values are 1–3,600 seconds.

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pub fn api_caching_behavior(self, input: ApiCachingBehavior) -> Self

Caching behavior.

  • FULL_REQUEST_CACHING: All requests from the same user are cached. Individual resolvers are automatically cached. All API calls will try to return responses from the cache.

  • PER_RESOLVER_CACHING: Individual resolvers that you specify are cached.

  • OPERATION_LEVEL_CACHING: Full requests are cached together and returned without executing resolvers.

This field is required.
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pub fn set_api_caching_behavior(self, input: Option<ApiCachingBehavior>) -> Self

Caching behavior.

  • FULL_REQUEST_CACHING: All requests from the same user are cached. Individual resolvers are automatically cached. All API calls will try to return responses from the cache.

  • PER_RESOLVER_CACHING: Individual resolvers that you specify are cached.

  • OPERATION_LEVEL_CACHING: Full requests are cached together and returned without executing resolvers.

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pub fn get_api_caching_behavior(&self) -> &Option<ApiCachingBehavior>

Caching behavior.

  • FULL_REQUEST_CACHING: All requests from the same user are cached. Individual resolvers are automatically cached. All API calls will try to return responses from the cache.

  • PER_RESOLVER_CACHING: Individual resolvers that you specify are cached.

  • OPERATION_LEVEL_CACHING: Full requests are cached together and returned without executing resolvers.

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pub fn type(self, input: ApiCacheType) -> Self

The cache instance type. Valid values are

  • SMALL

  • MEDIUM

  • LARGE

  • XLARGE

  • LARGE_2X

  • LARGE_4X

  • LARGE_8X (not available in all regions)

  • LARGE_12X

Historically, instance types were identified by an EC2-style value. As of July 2020, this is deprecated, and the generic identifiers above should be used.

The following legacy instance types are available, but their use is discouraged:

  • T2_SMALL: A t2.small instance type.

  • T2_MEDIUM: A t2.medium instance type.

  • R4_LARGE: A r4.large instance type.

  • R4_XLARGE: A r4.xlarge instance type.

  • R4_2XLARGE: A r4.2xlarge instance type.

  • R4_4XLARGE: A r4.4xlarge instance type.

  • R4_8XLARGE: A r4.8xlarge instance type.

This field is required.
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pub fn set_type(self, input: Option<ApiCacheType>) -> Self

The cache instance type. Valid values are

  • SMALL

  • MEDIUM

  • LARGE

  • XLARGE

  • LARGE_2X

  • LARGE_4X

  • LARGE_8X (not available in all regions)

  • LARGE_12X

Historically, instance types were identified by an EC2-style value. As of July 2020, this is deprecated, and the generic identifiers above should be used.

The following legacy instance types are available, but their use is discouraged:

  • T2_SMALL: A t2.small instance type.

  • T2_MEDIUM: A t2.medium instance type.

  • R4_LARGE: A r4.large instance type.

  • R4_XLARGE: A r4.xlarge instance type.

  • R4_2XLARGE: A r4.2xlarge instance type.

  • R4_4XLARGE: A r4.4xlarge instance type.

  • R4_8XLARGE: A r4.8xlarge instance type.

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pub fn get_type(&self) -> &Option<ApiCacheType>

The cache instance type. Valid values are

  • SMALL

  • MEDIUM

  • LARGE

  • XLARGE

  • LARGE_2X

  • LARGE_4X

  • LARGE_8X (not available in all regions)

  • LARGE_12X

Historically, instance types were identified by an EC2-style value. As of July 2020, this is deprecated, and the generic identifiers above should be used.

The following legacy instance types are available, but their use is discouraged:

  • T2_SMALL: A t2.small instance type.

  • T2_MEDIUM: A t2.medium instance type.

  • R4_LARGE: A r4.large instance type.

  • R4_XLARGE: A r4.xlarge instance type.

  • R4_2XLARGE: A r4.2xlarge instance type.

  • R4_4XLARGE: A r4.4xlarge instance type.

  • R4_8XLARGE: A r4.8xlarge instance type.

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pub fn health_metrics_config(self, input: CacheHealthMetricsConfig) -> Self

Controls how cache health metrics will be emitted to CloudWatch. Cache health metrics include:

  • NetworkBandwidthOutAllowanceExceeded: The network packets dropped because the throughput exceeded the aggregated bandwidth limit. This is useful for diagnosing bottlenecks in a cache configuration.

  • EngineCPUUtilization: The CPU utilization (percentage) allocated to the Redis process. This is useful for diagnosing bottlenecks in a cache configuration.

Metrics will be recorded by API ID. You can set the value to ENABLED or DISABLED.

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pub fn set_health_metrics_config( self, input: Option<CacheHealthMetricsConfig>, ) -> Self

Controls how cache health metrics will be emitted to CloudWatch. Cache health metrics include:

  • NetworkBandwidthOutAllowanceExceeded: The network packets dropped because the throughput exceeded the aggregated bandwidth limit. This is useful for diagnosing bottlenecks in a cache configuration.

  • EngineCPUUtilization: The CPU utilization (percentage) allocated to the Redis process. This is useful for diagnosing bottlenecks in a cache configuration.

Metrics will be recorded by API ID. You can set the value to ENABLED or DISABLED.

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pub fn get_health_metrics_config(&self) -> &Option<CacheHealthMetricsConfig>

Controls how cache health metrics will be emitted to CloudWatch. Cache health metrics include:

  • NetworkBandwidthOutAllowanceExceeded: The network packets dropped because the throughput exceeded the aggregated bandwidth limit. This is useful for diagnosing bottlenecks in a cache configuration.

  • EngineCPUUtilization: The CPU utilization (percentage) allocated to the Redis process. This is useful for diagnosing bottlenecks in a cache configuration.

Metrics will be recorded by API ID. You can set the value to ENABLED or DISABLED.

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pub fn build(self) -> Result<UpdateApiCacheInput, BuildError>

Consumes the builder and constructs a UpdateApiCacheInput.

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impl UpdateApiCacheInputBuilder

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pub async fn send_with( self, client: &Client, ) -> Result<UpdateApiCacheOutput, SdkError<UpdateApiCacheError, HttpResponse>>

Sends a request with this input using the given client.

Trait Implementations§

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impl Clone for UpdateApiCacheInputBuilder

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fn clone(&self) -> UpdateApiCacheInputBuilder

Returns a duplicate of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for UpdateApiCacheInputBuilder

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

Formats the value using the given formatter. Read more
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impl Default for UpdateApiCacheInputBuilder

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fn default() -> UpdateApiCacheInputBuilder

Returns the “default value” for a type. Read more
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impl PartialEq for UpdateApiCacheInputBuilder

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

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

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

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