Struct aws_sdk_sts::config::Builder
source · pub struct Builder { /* private fields */ }
Expand description
Builder for creating a Config
.
Implementations§
source§impl Builder
impl Builder
sourcepub fn stalled_stream_protection(
self,
stalled_stream_protection_config: StalledStreamProtectionConfig,
) -> Self
pub fn stalled_stream_protection( self, stalled_stream_protection_config: StalledStreamProtectionConfig, ) -> Self
Set the StalledStreamProtectionConfig
to configure protection for stalled streams.
sourcepub fn set_stalled_stream_protection(
&mut self,
stalled_stream_protection_config: Option<StalledStreamProtectionConfig>,
) -> &mut Self
pub fn set_stalled_stream_protection( &mut self, stalled_stream_protection_config: Option<StalledStreamProtectionConfig>, ) -> &mut Self
Set the StalledStreamProtectionConfig
to configure protection for stalled streams.
sourcepub fn http_client(self, http_client: impl HttpClient + 'static) -> Self
pub fn http_client(self, http_client: impl HttpClient + 'static) -> Self
Sets the HTTP client to use when making requests.
§Examples
use std::time::Duration;
use aws_sdk_sts::config::Config;
use aws_smithy_runtime::client::http::hyper_014::HyperClientBuilder;
let https_connector = hyper_rustls::HttpsConnectorBuilder::new()
.with_webpki_roots()
.https_only()
.enable_http1()
.enable_http2()
.build();
let hyper_client = HyperClientBuilder::new().build(https_connector);
// This connector can then be given to a generated service Config
let config = my_service_client::Config::builder()
.endpoint_url("https://example.com")
.http_client(hyper_client)
.build();
let client = my_service_client::Client::from_conf(config);
sourcepub fn set_http_client(
&mut self,
http_client: Option<SharedHttpClient>,
) -> &mut Self
pub fn set_http_client( &mut self, http_client: Option<SharedHttpClient>, ) -> &mut Self
Sets the HTTP client to use when making requests.
§Examples
use std::time::Duration;
use aws_sdk_sts::config::{Builder, Config};
use aws_smithy_runtime::client::http::hyper_014::HyperClientBuilder;
fn override_http_client(builder: &mut Builder) {
let https_connector = hyper_rustls::HttpsConnectorBuilder::new()
.with_webpki_roots()
.https_only()
.enable_http1()
.enable_http2()
.build();
let hyper_client = HyperClientBuilder::new().build(https_connector);
builder.set_http_client(Some(hyper_client));
}
let mut builder = aws_sdk_sts::Config::builder();
override_http_client(&mut builder);
let config = builder.build();
sourcepub fn endpoint_resolver(
self,
endpoint_resolver: impl ResolveEndpoint + 'static,
) -> Self
pub fn endpoint_resolver( self, endpoint_resolver: impl ResolveEndpoint + 'static, ) -> Self
Sets the endpoint resolver to use when making requests.
When unset, the client will used a generated endpoint resolver based on the endpoint resolution
rules for aws_sdk_sts
.
Note: setting an endpoint resolver will replace any endpoint URL that has been set.
This method accepts an endpoint resolver specific to this service. If you want to
provide a shared endpoint resolver, use Self::set_endpoint_resolver
.
§Examples
Create a custom endpoint resolver that resolves a different endpoing per-stage, e.g. staging vs. production.
use aws_sdk_sts::config::endpoint::{ResolveEndpoint, EndpointFuture, Params, Endpoint};
#[derive(Debug)]
struct StageResolver { stage: String }
impl ResolveEndpoint for StageResolver {
fn resolve_endpoint(&self, params: &Params) -> EndpointFuture<'_> {
let stage = &self.stage;
EndpointFuture::ready(Ok(Endpoint::builder().url(format!("{stage}.myservice.com")).build()))
}
}
let resolver = StageResolver { stage: std::env::var("STAGE").unwrap() };
let config = aws_sdk_sts::Config::builder().endpoint_resolver(resolver).build();
let client = aws_sdk_sts::Client::from_conf(config);
sourcepub fn set_endpoint_resolver(
&mut self,
endpoint_resolver: Option<SharedEndpointResolver>,
) -> &mut Self
pub fn set_endpoint_resolver( &mut self, endpoint_resolver: Option<SharedEndpointResolver>, ) -> &mut Self
Sets the endpoint resolver to use when making requests.
When unset, the client will used a generated endpoint resolver based on the endpoint resolution
rules for aws_sdk_sts
.
sourcepub fn retry_config(self, retry_config: RetryConfig) -> Self
pub fn retry_config(self, retry_config: RetryConfig) -> Self
Set the retry_config for the builder
§Examples
use aws_sdk_sts::config::Config;
use aws_sdk_sts::config::retry::RetryConfig;
let retry_config = RetryConfig::standard().with_max_attempts(5);
let config = Config::builder().retry_config(retry_config).build();
sourcepub fn set_retry_config(
&mut self,
retry_config: Option<RetryConfig>,
) -> &mut Self
pub fn set_retry_config( &mut self, retry_config: Option<RetryConfig>, ) -> &mut Self
Set the retry_config for the builder
§Examples
use aws_sdk_sts::config::{Builder, Config};
use aws_sdk_sts::config::retry::RetryConfig;
fn disable_retries(builder: &mut Builder) {
let retry_config = RetryConfig::standard().with_max_attempts(1);
builder.set_retry_config(Some(retry_config));
}
let mut builder = Config::builder();
disable_retries(&mut builder);
let config = builder.build();
sourcepub fn sleep_impl(self, sleep_impl: impl AsyncSleep + 'static) -> Self
pub fn sleep_impl(self, sleep_impl: impl AsyncSleep + 'static) -> Self
Set the sleep_impl for the builder
§Examples
use aws_sdk_sts::config::{AsyncSleep, Config, SharedAsyncSleep, Sleep};
#[derive(Debug)]
pub struct ForeverSleep;
impl AsyncSleep for ForeverSleep {
fn sleep(&self, duration: std::time::Duration) -> Sleep {
Sleep::new(std::future::pending())
}
}
let sleep_impl = SharedAsyncSleep::new(ForeverSleep);
let config = Config::builder().sleep_impl(sleep_impl).build();
sourcepub fn set_sleep_impl(
&mut self,
sleep_impl: Option<SharedAsyncSleep>,
) -> &mut Self
pub fn set_sleep_impl( &mut self, sleep_impl: Option<SharedAsyncSleep>, ) -> &mut Self
Set the sleep_impl for the builder
§Examples
use aws_sdk_sts::config::{AsyncSleep, Builder, Config, SharedAsyncSleep, Sleep};
#[derive(Debug)]
pub struct ForeverSleep;
impl AsyncSleep for ForeverSleep {
fn sleep(&self, duration: std::time::Duration) -> Sleep {
Sleep::new(std::future::pending())
}
}
fn set_never_ending_sleep_impl(builder: &mut Builder) {
let sleep_impl = SharedAsyncSleep::new(ForeverSleep);
builder.set_sleep_impl(Some(sleep_impl));
}
let mut builder = Config::builder();
set_never_ending_sleep_impl(&mut builder);
let config = builder.build();
sourcepub fn timeout_config(self, timeout_config: TimeoutConfig) -> Self
pub fn timeout_config(self, timeout_config: TimeoutConfig) -> Self
Set the timeout_config for the builder
§Examples
use aws_sdk_sts::config::Config;
use aws_sdk_sts::config::timeout::TimeoutConfig;
let timeout_config = TimeoutConfig::builder()
.operation_attempt_timeout(Duration::from_secs(1))
.build();
let config = Config::builder().timeout_config(timeout_config).build();
sourcepub fn set_timeout_config(
&mut self,
timeout_config: Option<TimeoutConfig>,
) -> &mut Self
pub fn set_timeout_config( &mut self, timeout_config: Option<TimeoutConfig>, ) -> &mut Self
Set the timeout_config for the builder.
Setting this to None
has no effect if another source of configuration has set timeouts. If you
are attempting to disable timeouts, use TimeoutConfig::disabled
§Examples
use aws_sdk_sts::config::{Builder, Config};
use aws_sdk_sts::config::timeout::TimeoutConfig;
fn set_request_timeout(builder: &mut Builder) {
let timeout_config = TimeoutConfig::builder()
.operation_attempt_timeout(Duration::from_secs(1))
.build();
builder.set_timeout_config(Some(timeout_config));
}
let mut builder = Config::builder();
set_request_timeout(&mut builder);
let config = builder.build();
sourcepub fn retry_partition(self, retry_partition: RetryPartition) -> Self
pub fn retry_partition(self, retry_partition: RetryPartition) -> Self
Set the partition for retry-related state. When clients share a retry partition, they will also share things like token buckets and client rate limiters. By default, all clients for the same service will share a partition.
sourcepub fn set_retry_partition(
&mut self,
retry_partition: Option<RetryPartition>,
) -> &mut Self
pub fn set_retry_partition( &mut self, retry_partition: Option<RetryPartition>, ) -> &mut Self
Set the partition for retry-related state. When clients share a retry partition, they will also share things like token buckets and client rate limiters. By default, all clients for the same service will share a partition.
sourcepub fn identity_cache(
self,
identity_cache: impl ResolveCachedIdentity + 'static,
) -> Self
pub fn identity_cache( self, identity_cache: impl ResolveCachedIdentity + 'static, ) -> Self
Set the identity cache for auth.
The identity cache defaults to a lazy caching implementation that will resolve an identity when it is requested, and place it in the cache thereafter. Subsequent requests will take the value from the cache while it is still valid. Once it expires, the next request will result in refreshing the identity.
This configuration allows you to disable or change the default caching mechanism.
To use a custom caching mechanism, implement the ResolveCachedIdentity
trait and pass that implementation into this function.
§Examples
Disabling identity caching:
use aws_sdk_sts::config::IdentityCache;
let config = aws_sdk_sts::Config::builder()
.identity_cache(IdentityCache::no_cache())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
Customizing lazy caching:
use aws_sdk_sts::config::IdentityCache;
use std::time::Duration;
let config = aws_sdk_sts::Config::builder()
.identity_cache(
IdentityCache::lazy()
// change the load timeout to 10 seconds
.load_timeout(Duration::from_secs(10))
.build()
)
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
sourcepub fn set_identity_cache(
&mut self,
identity_cache: impl ResolveCachedIdentity + 'static,
) -> &mut Self
pub fn set_identity_cache( &mut self, identity_cache: impl ResolveCachedIdentity + 'static, ) -> &mut Self
Set the identity cache for auth.
The identity cache defaults to a lazy caching implementation that will resolve an identity when it is requested, and place it in the cache thereafter. Subsequent requests will take the value from the cache while it is still valid. Once it expires, the next request will result in refreshing the identity.
This configuration allows you to disable or change the default caching mechanism.
To use a custom caching mechanism, implement the ResolveCachedIdentity
trait and pass that implementation into this function.
§Examples
Disabling identity caching:
use aws_sdk_sts::config::IdentityCache;
let config = aws_sdk_sts::Config::builder()
.identity_cache(IdentityCache::no_cache())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
Customizing lazy caching:
use aws_sdk_sts::config::IdentityCache;
use std::time::Duration;
let config = aws_sdk_sts::Config::builder()
.identity_cache(
IdentityCache::lazy()
// change the load timeout to 10 seconds
.load_timeout(Duration::from_secs(10))
.build()
)
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
sourcepub fn interceptor(self, interceptor: impl Intercept + 'static) -> Self
pub fn interceptor(self, interceptor: impl Intercept + 'static) -> Self
Add an interceptor that runs at specific stages of the request execution pipeline.
Interceptors targeted at a certain stage are executed according to the pre-defined priority. The SDK provides a default set of interceptors. An interceptor configured by this method will run after those default interceptors.
§Examples
use aws_smithy_runtime_api::client::interceptors::context::phase::BeforeTransmit;
use aws_smithy_runtime_api::client::interceptors::{Interceptor, InterceptorContext};
use aws_smithy_types::config_bag::ConfigBag;
use aws_sdk_sts::config::Config;
fn base_url() -> String {
// ...
}
#[derive(Debug)]
pub struct UriModifierInterceptor;
impl Intercept for UriModifierInterceptor {
fn modify_before_signing(
&self,
context: &mut InterceptorContext<BeforeTransmit>,
_cfg: &mut ConfigBag,
) -> Result<(), aws_smithy_runtime_api::client::interceptors::BoxError> {
let request = context.request_mut();
let uri = format!("{}{}", base_url(), request.uri().path());
*request.uri_mut() = uri.parse()?;
Ok(())
}
}
let config = Config::builder()
.interceptor(UriModifierInterceptor)
.build();
sourcepub fn push_interceptor(&mut self, interceptor: SharedInterceptor) -> &mut Self
pub fn push_interceptor(&mut self, interceptor: SharedInterceptor) -> &mut Self
Add a SharedInterceptor
that runs at specific stages of the request execution pipeline.
Interceptors targeted at a certain stage are executed according to the pre-defined priority. The SDK provides a default set of interceptors. An interceptor configured by this method will run after those default interceptors.
§Examples
use aws_smithy_runtime_api::client::interceptors::context::phase::BeforeTransmit;
use aws_smithy_runtime_api::client::interceptors::{Interceptor, InterceptorContext, SharedInterceptor};
use aws_smithy_types::config_bag::ConfigBag;
use aws_sdk_sts::config::{Builder, Config};
fn base_url() -> String {
// ...
}
fn modify_request_uri(builder: &mut Builder) {
#[derive(Debug)]
pub struct UriModifierInterceptor;
impl Intercept for UriModifierInterceptor {
fn modify_before_signing(
&self,
context: &mut InterceptorContext<BeforeTransmit>,
_cfg: &mut ConfigBag,
) -> Result<(), aws_smithy_runtime_api::client::interceptors::BoxError> {
let request = context.request_mut();
let uri = format!("{}{}", base_url(), request.uri().path());
*request.uri_mut() = uri.parse()?;
Ok(())
}
}
builder.push_interceptor(SharedInterceptor::new(UriModifierInterceptor));
}
let mut builder = Config::builder();
modify_request_uri(&mut builder);
let config = builder.build();
sourcepub fn set_interceptors(
&mut self,
interceptors: impl IntoIterator<Item = SharedInterceptor>,
) -> &mut Self
pub fn set_interceptors( &mut self, interceptors: impl IntoIterator<Item = SharedInterceptor>, ) -> &mut Self
Set SharedInterceptor
s for the builder.
sourcepub fn time_source(self, time_source: impl TimeSource + 'static) -> Self
pub fn time_source(self, time_source: impl TimeSource + 'static) -> Self
Sets the time source used for this service
sourcepub fn set_time_source(
&mut self,
time_source: Option<SharedTimeSource>,
) -> &mut Self
pub fn set_time_source( &mut self, time_source: Option<SharedTimeSource>, ) -> &mut Self
Sets the time source used for this service
sourcepub fn retry_classifier(
self,
retry_classifier: impl ClassifyRetry + 'static,
) -> Self
pub fn retry_classifier( self, retry_classifier: impl ClassifyRetry + 'static, ) -> Self
Add type implementing ClassifyRetry
that will be used by the
RetryStrategy
to determine what responses should be retried.
A retry classifier configured by this method will run according to its priority.
§Examples
use aws_smithy_runtime_api::client::interceptors::context::InterceptorContext;
use aws_smithy_runtime_api::client::orchestrator::OrchestratorError;
use aws_smithy_runtime_api::client::retries::classifiers::{
ClassifyRetry, RetryAction, RetryClassifierPriority,
};
use aws_smithy_types::error::metadata::ProvideErrorMetadata;
use aws_smithy_types::retry::ErrorKind;
use std::error::Error as StdError;
use std::marker::PhantomData;
use aws_sdk_sts::config::Config;
const RETRYABLE_ERROR_CODES: &[&str] = [
// List error codes to be retried here...
];
// When classifying at an operation's error type, classifiers require a generic parameter.
// When classifying the HTTP response alone, no generic is needed.
#[derive(Debug, Default)]
pub struct ErrorCodeClassifier<E> {
_inner: PhantomData<E>,
}
impl<E> ExampleErrorCodeClassifier<E> {
pub fn new() -> Self {
Self {
_inner: PhantomData,
}
}
}
impl<E> ClassifyRetry for ExampleErrorCodeClassifier<E>
where
// Adding a trait bound for ProvideErrorMetadata allows us to inspect the error code.
E: StdError + ProvideErrorMetadata + Send + Sync + 'static,
{
fn classify_retry(&self, ctx: &InterceptorContext) -> RetryAction {
// Check for a result
let output_or_error = ctx.output_or_error();
// Check for an error
let error = match output_or_error {
Some(Ok(_)) | None => return RetryAction::NoActionIndicated,
Some(Err(err)) => err,
};
// Downcast the generic error and extract the code
let error_code = OrchestratorError::as_operation_error(error)
.and_then(|err| err.downcast_ref::<E>())
.and_then(|err| err.code());
// If this error's code is in our list, return an action that tells the RetryStrategy to retry this request.
if let Some(error_code) = error_code {
if RETRYABLE_ERROR_CODES.contains(&error_code) {
return RetryAction::transient_error();
}
}
// Otherwise, return that no action is indicated i.e. that this classifier doesn't require a retry.
// Another classifier may still classify this response as retryable.
RetryAction::NoActionIndicated
}
fn name(&self) -> &'static str { "Example Error Code Classifier" }
}
let config = Config::builder()
.retry_classifier(ExampleErrorCodeClassifier::<SomeOperationError>::new())
.build();
sourcepub fn push_retry_classifier(
&mut self,
retry_classifier: SharedRetryClassifier,
) -> &mut Self
pub fn push_retry_classifier( &mut self, retry_classifier: SharedRetryClassifier, ) -> &mut Self
Add a SharedRetryClassifier
that will be used by the
RetryStrategy
to determine what responses should be retried.
A retry classifier configured by this method will run according to its priority.
§Examples
use aws_smithy_runtime_api::client::interceptors::context::InterceptorContext;
use aws_smithy_runtime_api::client::orchestrator::OrchestratorError;
use aws_smithy_runtime_api::client::retries::classifiers::{
ClassifyRetry, RetryAction, RetryClassifierPriority,
};
use aws_smithy_types::error::metadata::ProvideErrorMetadata;
use aws_smithy_types::retry::ErrorKind;
use std::error::Error as StdError;
use std::marker::PhantomData;
use aws_sdk_sts::config::{Builder, Config};
const RETRYABLE_ERROR_CODES: &[&str] = [
// List error codes to be retried here...
];
fn set_example_error_code_classifier(builder: &mut Builder) {
// When classifying at an operation's error type, classifiers require a generic parameter.
// When classifying the HTTP response alone, no generic is needed.
#[derive(Debug, Default)]
pub struct ExampleErrorCodeClassifier<E> {
_inner: PhantomData<E>,
}
impl<E> ExampleErrorCodeClassifier<E> {
pub fn new() -> Self {
Self {
_inner: PhantomData,
}
}
}
impl<E> ClassifyRetry for ExampleErrorCodeClassifier<E>
where
// Adding a trait bound for ProvideErrorMetadata allows us to inspect the error code.
E: StdError + ProvideErrorMetadata + Send + Sync + 'static,
{
fn classify_retry(&self, ctx: &InterceptorContext) -> RetryAction {
// Check for a result
let output_or_error = ctx.output_or_error();
// Check for an error
let error = match output_or_error {
Some(Ok(_)) | None => return RetryAction::NoActionIndicated,
Some(Err(err)) => err,
};
// Downcast the generic error and extract the code
let error_code = OrchestratorError::as_operation_error(error)
.and_then(|err| err.downcast_ref::<E>())
.and_then(|err| err.code());
// If this error's code is in our list, return an action that tells the RetryStrategy to retry this request.
if let Some(error_code) = error_code {
if RETRYABLE_ERROR_CODES.contains(&error_code) {
return RetryAction::transient_error();
}
}
// Otherwise, return that no action is indicated i.e. that this classifier doesn't require a retry.
// Another classifier may still classify this response as retryable.
RetryAction::NoActionIndicated
}
fn name(&self) -> &'static str { "Example Error Code Classifier" }
}
builder.push_retry_classifier(ExampleErrorCodeClassifier::<SomeOperationError>::new())
}
let mut builder = Config::builder();
set_example_error_code_classifier(&mut builder);
let config = builder.build();
sourcepub fn set_retry_classifiers(
&mut self,
retry_classifiers: impl IntoIterator<Item = SharedRetryClassifier>,
) -> &mut Self
pub fn set_retry_classifiers( &mut self, retry_classifiers: impl IntoIterator<Item = SharedRetryClassifier>, ) -> &mut Self
Set SharedRetryClassifier
s for the builder, replacing any that
were previously set.
sourcepub fn app_name(self, app_name: AppName) -> Self
pub fn app_name(self, app_name: AppName) -> Self
Sets the name of the app that is using the client.
This optional name is used to identify the application in the user agent that gets sent along with requests.
sourcepub fn set_app_name(&mut self, app_name: Option<AppName>) -> &mut Self
pub fn set_app_name(&mut self, app_name: Option<AppName>) -> &mut Self
Sets the name of the app that is using the client.
This optional name is used to identify the application in the user agent that gets sent along with requests.
sourcepub fn invocation_id_generator(
self,
gen: impl InvocationIdGenerator + 'static,
) -> Self
pub fn invocation_id_generator( self, gen: impl InvocationIdGenerator + 'static, ) -> Self
Overrides the default invocation ID generator.
The invocation ID generator generates ID values for the amz-sdk-invocation-id
header. By default, this will be a random UUID. Overriding it may be useful in tests that examine the HTTP request and need to be deterministic.
sourcepub fn set_invocation_id_generator(
&mut self,
gen: Option<SharedInvocationIdGenerator>,
) -> &mut Self
pub fn set_invocation_id_generator( &mut self, gen: Option<SharedInvocationIdGenerator>, ) -> &mut Self
Overrides the default invocation ID generator.
The invocation ID generator generates ID values for the amz-sdk-invocation-id
header. By default, this will be a random UUID. Overriding it may be useful in tests that examine the HTTP request and need to be deterministic.
sourcepub fn endpoint_url(self, endpoint_url: impl Into<String>) -> Self
pub fn endpoint_url(self, endpoint_url: impl Into<String>) -> Self
Sets the endpoint URL used to communicate with this service
Note: this is used in combination with other endpoint rules, e.g. an API that applies a host-label prefix
will be prefixed onto this URL. To fully override the endpoint resolver, use
Builder::endpoint_resolver
.
sourcepub fn set_endpoint_url(&mut self, endpoint_url: Option<String>) -> &mut Self
pub fn set_endpoint_url(&mut self, endpoint_url: Option<String>) -> &mut Self
Sets the endpoint URL used to communicate with this service
Note: this is used in combination with other endpoint rules, e.g. an API that applies a host-label prefix
will be prefixed onto this URL. To fully override the endpoint resolver, use
Builder::endpoint_resolver
.
sourcepub fn use_dual_stack(self, use_dual_stack: impl Into<bool>) -> Self
pub fn use_dual_stack(self, use_dual_stack: impl Into<bool>) -> Self
When true, use the dual-stack endpoint. If the configured endpoint does not support dual-stack, dispatching the request MAY return an error.
sourcepub fn set_use_dual_stack(&mut self, use_dual_stack: Option<bool>) -> &mut Self
pub fn set_use_dual_stack(&mut self, use_dual_stack: Option<bool>) -> &mut Self
When true, use the dual-stack endpoint. If the configured endpoint does not support dual-stack, dispatching the request MAY return an error.
sourcepub fn use_fips(self, use_fips: impl Into<bool>) -> Self
pub fn use_fips(self, use_fips: impl Into<bool>) -> Self
When true, send this request to the FIPS-compliant regional endpoint. If the configured endpoint does not have a FIPS compliant endpoint, dispatching the request will return an error.
sourcepub fn set_use_fips(&mut self, use_fips: Option<bool>) -> &mut Self
pub fn set_use_fips(&mut self, use_fips: Option<bool>) -> &mut Self
When true, send this request to the FIPS-compliant regional endpoint. If the configured endpoint does not have a FIPS compliant endpoint, dispatching the request will return an error.
sourcepub fn region(self, region: impl Into<Option<Region>>) -> Self
pub fn region(self, region: impl Into<Option<Region>>) -> Self
Sets the AWS region to use when making requests.
§Examples
use aws_types::region::Region;
use aws_sdk_sts::config::{Builder, Config};
let config = aws_sdk_sts::Config::builder()
.region(Region::new("us-east-1"))
.build();
sourcepub fn set_region(&mut self, region: Option<Region>) -> &mut Self
pub fn set_region(&mut self, region: Option<Region>) -> &mut Self
Sets the AWS region to use when making requests.
sourcepub fn credentials_provider(
self,
credentials_provider: impl ProvideCredentials + 'static,
) -> Self
pub fn credentials_provider( self, credentials_provider: impl ProvideCredentials + 'static, ) -> Self
Sets the credentials provider for this service
sourcepub fn set_credentials_provider(
&mut self,
credentials_provider: Option<SharedCredentialsProvider>,
) -> &mut Self
pub fn set_credentials_provider( &mut self, credentials_provider: Option<SharedCredentialsProvider>, ) -> &mut Self
Sets the credentials provider for this service
sourcepub fn behavior_version(self, behavior_version: BehaviorVersion) -> Self
pub fn behavior_version(self, behavior_version: BehaviorVersion) -> Self
Sets the behavior major version
.
Over time, new best-practice behaviors are introduced. However, these behaviors might not be backwards compatible. For example, a change which introduces new default timeouts or a new retry-mode for all operations might be the ideal behavior but could break existing applications.
§Examples
Set the behavior major version to latest
. This is equivalent to enabling the behavior-version-latest
cargo feature.
use aws_sdk_sts::config::BehaviorVersion;
let config = aws_sdk_sts::Config::builder()
.behavior_version(BehaviorVersion::latest())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
Customizing behavior major version:
use aws_sdk_sts::config::BehaviorVersion;
let config = aws_sdk_sts::Config::builder()
.behavior_version(BehaviorVersion::v2023_11_09())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
sourcepub fn set_behavior_version(
&mut self,
behavior_version: Option<BehaviorVersion>,
) -> &mut Self
pub fn set_behavior_version( &mut self, behavior_version: Option<BehaviorVersion>, ) -> &mut Self
Sets the behavior major version
.
Over time, new best-practice behaviors are introduced. However, these behaviors might not be backwards compatible. For example, a change which introduces new default timeouts or a new retry-mode for all operations might be the ideal behavior but could break existing applications.
§Examples
Set the behavior major version to latest
. This is equivalent to enabling the behavior-version-latest
cargo feature.
use aws_sdk_sts::config::BehaviorVersion;
let config = aws_sdk_sts::Config::builder()
.behavior_version(BehaviorVersion::latest())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
Customizing behavior major version:
use aws_sdk_sts::config::BehaviorVersion;
let config = aws_sdk_sts::Config::builder()
.behavior_version(BehaviorVersion::v2023_11_09())
// ...
.build();
let client = aws_sdk_sts::Client::from_conf(config);
sourcepub fn behavior_version_latest(self) -> Self
pub fn behavior_version_latest(self) -> Self
Convenience method to set the latest behavior major version
This is equivalent to enabling the behavior-version-latest
Cargo feature
Trait Implementations§
Auto Trait Implementations§
impl Freeze for Builder
impl !RefUnwindSafe for Builder
impl Send for Builder
impl Sync for Builder
impl Unpin for Builder
impl !UnwindSafe for Builder
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§default unsafe fn clone_to_uninit(&self, dst: *mut T)
default unsafe fn clone_to_uninit(&self, dst: *mut T)
clone_to_uninit
)