D'autres exemples de AWS SDK sont disponibles dans le référentiel [AWS Doc SDK Examples](https://github.com/awsdocs/aws-doc-sdk-examples) GitHub .
Les traductions sont fournies par des outils de traduction automatique. En cas de conflit entre le contenu d'une traduction et celui de la version originale en anglais, la version anglaise prévaudra.
# Exemples de code avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment utiliser le AWS SDK pour Rust avec AWS.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Les *scénarios* sont des exemples de code qui vous montrent comment accomplir des tâches spécifiques en appelant plusieurs fonctions au sein d’un même service ou combinés à d’autres Services AWS.
Certains services contiennent des exemples de catégories supplémentaires qui montrent comment tirer parti des bibliothèques ou des fonctions spécifiques au service.
**Ressources supplémentaires**
+ **[Guide du développeur du SDK pour Rust](https://docs.aws.amazon.com/sdk-for-rust/latest/dg/welcome.html)** — En savoir plus sur l'utilisation de Rust avec AWS.
+ **[Centre pour développeurs AWS](https://aws.amazon.com/developer/code-examples/?awsf.sdk-code-examples-programming-language=programming-language%23rust) ** : exemples de code que vous pouvez filtrer par catégorie ou par recherche en texte intégral.
+ **[AWS Exemples de SDK](https://github.com/awsdocs/aws-doc-sdk-examples)** : GitHub dépôt avec code complet dans les langues préférées. Inclut des instructions sur la configuration et l’exécution du code.
**Topics**
+ [API Gateway](rust_1_api-gateway_code_examples.md)
+ [API de gestion API Gateway](rust_1_apigatewaymanagementapi_code_examples.md)
+ [Application Autoscaling](rust_1_application-auto-scaling_code_examples.md)
+ [Aurora](rust_1_aurora_code_examples.md)
+ [Auto Scaling](rust_1_auto-scaling_code_examples.md)
+ [Exécution d’Amazon Bedrock](rust_1_bedrock-runtime_code_examples.md)
+ [Exécution des agents Amazon Bedrock](rust_1_bedrock-agent-runtime_code_examples.md)
+ [Fournisseur d’identité Amazon Cognito](rust_1_cognito-identity-provider_code_examples.md)
+ [Amazon Cognito Sync](rust_1_cognito-sync_code_examples.md)
+ [Firehose](rust_1_firehose_code_examples.md)
+ [Amazon DocumentDB](rust_1_docdb_code_examples.md)
+ [DynamoDB](rust_1_dynamodb_code_examples.md)
+ [Amazon EBS](rust_1_ebs_code_examples.md)
+ [Amazon EC2](rust_1_ec2_code_examples.md)
+ [Amazon ECR](rust_1_ecr_code_examples.md)
+ [Amazon ECS](rust_1_ecs_code_examples.md)
+ [Amazon EKS](rust_1_eks_code_examples.md)
+ [AWS Glue](rust_1_glue_code_examples.md)
+ [IAM](rust_1_iam_code_examples.md)
+ [AWS IoT](rust_1_iot_code_examples.md)
+ [Kinesis](rust_1_kinesis_code_examples.md)
+ [AWS KMS](rust_1_kms_code_examples.md)
+ [Lambda](rust_1_lambda_code_examples.md)
+ [MediaLive](rust_1_medialive_code_examples.md)
+ [MediaPackage](rust_1_mediapackage_code_examples.md)
+ [Amazon MSK](rust_1_kafka_code_examples.md)
+ [Amazon Polly](rust_1_polly_code_examples.md)
+ [Amazon RDS](rust_1_rds_code_examples.md)
+ [Amazon RDS Data Service](rust_1_rds-data_code_examples.md)
+ [Amazon Rekognition](rust_1_rekognition_code_examples.md)
+ [Route 53](rust_1_route-53_code_examples.md)
+ [Amazon S3](rust_1_s3_code_examples.md)
+ [SageMaker IA](rust_1_sagemaker_code_examples.md)
+ [Secrets Manager](rust_1_secrets-manager_code_examples.md)
+ [API Amazon SES v2](rust_1_sesv2_code_examples.md)
+ [Amazon SNS](rust_1_sns_code_examples.md)
+ [Amazon SQS](rust_1_sqs_code_examples.md)
+ [AWS STS](rust_1_sts_code_examples.md)
+ [Systems Manager](rust_1_ssm_code_examples.md)
+ [Amazon Transcribe](rust_1_transcribe_code_examples.md)
# Exemples API Gateway avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec API Gateway.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Les *scénarios* sont des exemples de code qui vous montrent comment accomplir des tâches spécifiques en appelant plusieurs fonctions au sein d’un même service ou combinés à d’autres Services AWS.
AWS les *contributions communautaires* sont des exemples qui ont été créés et sont maintenus par plusieurs équipes AWS. Pour faire un commentaire, utilisez le mécanisme fourni dans les référentiels liés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
+ [Scénarios](#scenarios)
+ [AWS contributions communautaires](#aws_community_contributions)
## Actions
### `GetRestApis`
L'exemple de code suivant montre comment utiliser`GetRestApis`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/apigateway#code-examples).
Affiche le REST Amazon API Gateway APIs dans la région.
```
async fn show_apis(client: &Client) -> Result<(), Error> {
let resp = client.get_rest_apis().send().await?;
for api in resp.items() {
println!("ID: {}", api.id().unwrap_or_default());
println!("Name: {}", api.name().unwrap_or_default());
println!("Description: {}", api.description().unwrap_or_default());
println!("Version: {}", api.version().unwrap_or_default());
println!(
"Created: {}",
api.created_date().unwrap().to_chrono_utc()?
);
println!();
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [GetRestApis](https://docs.rs/aws-sdk-apigateway/latest/aws_sdk_apigateway/client/struct.Client.html#method.get_rest_apis)la section de *référence de l'API AWS SDK for Rust*.
## Scénarios
### Création d’une application sans serveur pour gérer des photos
L'exemple de code suivant montre comment créer une application sans serveur permettant aux utilisateurs de gérer des photos à l'aide d'étiquettes.
**SDK pour Rust**
Montre comment développer une application de gestion de ressources photographiques qui détecte les étiquettes dans les images à l’aide d’Amazon Rekognition et les stocke pour les récupérer ultérieurement.
Pour obtenir le code source complet et les instructions de configuration et d'exécution, consultez l'exemple complet sur [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).
Pour explorer en profondeur l’origine de cet exemple, consultez l’article sur [AWS Community](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).
**Les services utilisés dans cet exemple**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS
## AWS contributions communautaires
### Création et test d’une application sans serveur
L’exemple de code suivant montre comment créer et tester une application sans serveur à l’aide d’API Gateway avec Lambda et DynamoDB.
**SDK pour Rust**
Illustre comment créer et tester une application sans serveur composée d’une API Gateway avec Lambda et DynamoDB à l’aide du kit SDK Rust.
Pour obtenir le code source complet et les instructions de configuration et d'exécution, consultez l'exemple complet sur [GitHub](https://github.com/aws-samples/serverless-rust-demo).
**Les services utilisés dans cet exemple**
+ API Gateway
+ DynamoDB
+ Lambda
# Exemples de l’API de gestion API Gateway avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec l'API API Gateway Management API.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `PostToConnection`
L'exemple de code suivant montre comment utiliser`PostToConnection`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/apigatewaymanagement#code-examples).
```
async fn send_data(
client: &aws_sdk_apigatewaymanagement::Client,
con_id: &str,
data: &str,
) -> Result<(), aws_sdk_apigatewaymanagement::Error> {
client
.post_to_connection()
.connection_id(con_id)
.data(Blob::new(data))
.send()
.await?;
Ok(())
}
let endpoint_url = format!(
"https://{api_id}.execute-api.{region}.amazonaws.com/{stage}",
api_id = api_id,
region = region,
stage = stage
);
let shared_config = aws_config::from_env().region(region_provider).load().await;
let api_management_config = config::Builder::from(&shared_config)
.endpoint_url(endpoint_url)
.build();
let client = Client::from_conf(api_management_config);
```
+ Pour plus de détails sur l'API, voir [PostToConnection](https://docs.rs/aws-sdk-apigatewaymanagementapi/latest/aws_sdk_apigatewaymanagementapi/client/struct.Client.html#method.post_to_connection)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Application Auto Scaling avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec Application Auto Scaling.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `DescribeScalingPolicies`
L'exemple de code suivant montre comment utiliser`DescribeScalingPolicies`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/applicationautoscaling#code-examples).
```
async fn show_policies(client: &Client) -> Result<(), Error> {
let response = client
.describe_scaling_policies()
.service_namespace(ServiceNamespace::Ec2)
.send()
.await?;
println!("Auto Scaling Policies:");
for policy in response.scaling_policies() {
println!("{:?}\n", policy);
}
println!("Next token: {:?}", response.next_token());
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeScalingPolicies](https://docs.rs/aws-sdk-applicationautoscaling/latest/aws_sdk_applicationautoscaling/client/struct.Client.html#method.describe_scaling_policies)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Aurora avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust with Aurora.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Mise en route](#get_started)
+ [Principes de base](#basics)
+ [Actions](#actions)
## Mise en route
### Bonjour Aurora
L'exemple de code suivant montre comment démarrer avec Aurora.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
use aws_sdk_rds::Client;
#[derive(Debug)]
struct Error(String);
impl std::fmt::Display for Error {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.0)
}
}
impl std::error::Error for Error {}
#[tokio::main]
async fn main() -> Result<(), Error> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::from_env().load().await;
let client = Client::new(&sdk_config);
let describe_db_clusters_output = client
.describe_db_clusters()
.send()
.await
.map_err(|e| Error(e.to_string()))?;
println!(
"Found {} clusters:",
describe_db_clusters_output.db_clusters().len()
);
for cluster in describe_db_clusters_output.db_clusters() {
let name = cluster.database_name().unwrap_or("Unknown");
let engine = cluster.engine().unwrap_or("Unknown");
let id = cluster.db_cluster_identifier().unwrap_or("Unknown");
let class = cluster.db_cluster_instance_class().unwrap_or("Unknown");
println!("\tDatabase: {name}",);
println!("\t Engine: {engine}",);
println!("\t ID: {id}",);
println!("\tInstance: {class}",);
}
Ok(())
}
```
+ Pour plus de détails sur l'API, consultez la section [Description DBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters) dans le *AWS SDK pour la référence de l'API Rust*.
## Principes de base
### Principes de base
L’exemple de code suivant illustre comment :
+ Créez un groupe de paramètres pour le cluster de bases de données Aurora personnalisé et définissez des valeurs pour les paramètres.
+ Créez un cluster de bases de données qui utilise le groupe de paramètres.
+ Créez une instance de base de données qui contient une base de données.
+ Prenez un instantané du cluster de bases de données, puis nettoyez les ressources.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
Une bibliothèque contenant les fonctions spécifiques au scénario Aurora.
```
use phf::{phf_set, Set};
use secrecy::SecretString;
use std::{collections::HashMap, fmt::Display, time::Duration};
use aws_sdk_rds::{
error::ProvideErrorMetadata,
operation::create_db_cluster_parameter_group::CreateDbClusterParameterGroupOutput,
types::{DbCluster, DbClusterParameterGroup, DbClusterSnapshot, DbInstance, Parameter},
};
use sdk_examples_test_utils::waiter::Waiter;
use tracing::{info, trace, warn};
const DB_ENGINE: &str = "aurora-mysql";
const DB_CLUSTER_PARAMETER_GROUP_NAME: &str = "RustSDKCodeExamplesDBParameterGroup";
const DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION: &str =
"Parameter Group created by Rust SDK Code Example";
const DB_CLUSTER_IDENTIFIER: &str = "RustSDKCodeExamplesDBCluster";
const DB_INSTANCE_IDENTIFIER: &str = "RustSDKCodeExamplesDBInstance";
static FILTER_PARAMETER_NAMES: Set<&'static str> = phf_set! {
"auto_increment_offset",
"auto_increment_increment",
};
#[derive(Debug, PartialEq, Eq)]
struct MetadataError {
message: Option,
code: Option,
}
impl MetadataError {
fn from(err: &dyn ProvideErrorMetadata) -> Self {
MetadataError {
message: err.message().map(String::from),
code: err.code().map(String::from),
}
}
}
impl Display for MetadataError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let display = match (&self.message, &self.code) {
(None, None) => "Unknown".to_string(),
(None, Some(code)) => format!("({code})"),
(Some(message), None) => message.to_string(),
(Some(message), Some(code)) => format!("{message} ({code})"),
};
write!(f, "{display}")
}
}
#[derive(Debug, PartialEq, Eq)]
pub struct ScenarioError {
message: String,
context: Option,
}
impl ScenarioError {
pub fn with(message: impl Into) -> Self {
ScenarioError {
message: message.into(),
context: None,
}
}
pub fn new(message: impl Into, err: &dyn ProvideErrorMetadata) -> Self {
ScenarioError {
message: message.into(),
context: Some(MetadataError::from(err)),
}
}
}
impl std::error::Error for ScenarioError {}
impl Display for ScenarioError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match &self.context {
Some(c) => write!(f, "{}: {}", self.message, c),
None => write!(f, "{}", self.message),
}
}
}
// Parse the ParameterName, Description, and AllowedValues values and display them.
#[derive(Debug)]
pub struct AuroraScenarioParameter {
name: String,
allowed_values: String,
current_value: String,
}
impl Display for AuroraScenarioParameter {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(
f,
"{}: {} (allowed: {})",
self.name, self.current_value, self.allowed_values
)
}
}
impl From for AuroraScenarioParameter {
fn from(value: aws_sdk_rds::types::Parameter) -> Self {
AuroraScenarioParameter {
name: value.parameter_name.unwrap_or_default(),
allowed_values: value.allowed_values.unwrap_or_default(),
current_value: value.parameter_value.unwrap_or_default(),
}
}
}
pub struct AuroraScenario {
rds: crate::rds::Rds,
engine_family: Option,
engine_version: Option,
instance_class: Option,
db_cluster_parameter_group: Option,
db_cluster_identifier: Option,
db_instance_identifier: Option,
username: Option,
password: Option,
}
impl AuroraScenario {
pub fn new(client: crate::rds::Rds) -> Self {
AuroraScenario {
rds: client,
engine_family: None,
engine_version: None,
instance_class: None,
db_cluster_parameter_group: None,
db_cluster_identifier: None,
db_instance_identifier: None,
username: None,
password: None,
}
}
// Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
pub async fn get_engines(&self) -> Result>, ScenarioError> {
let describe_db_engine_versions = self.rds.describe_db_engine_versions(DB_ENGINE).await;
trace!(versions=?describe_db_engine_versions, "full list of versions");
if let Err(err) = describe_db_engine_versions {
return Err(ScenarioError::new(
"Failed to retrieve DB Engine Versions",
&err,
));
};
let version_count = describe_db_engine_versions
.as_ref()
.map(|o| o.db_engine_versions().len())
.unwrap_or_default();
info!(version_count, "got list of versions");
// Create a map of engine families to their available versions.
let mut versions = HashMap::>::new();
describe_db_engine_versions
.unwrap()
.db_engine_versions()
.iter()
.filter_map(
|v| match (&v.db_parameter_group_family, &v.engine_version) {
(Some(family), Some(version)) => Some((family.clone(), version.clone())),
_ => None,
},
)
.for_each(|(family, version)| versions.entry(family).or_default().push(version));
Ok(versions)
}
pub async fn get_instance_classes(&self) -> Result, ScenarioError> {
let describe_orderable_db_instance_options_items = self
.rds
.describe_orderable_db_instance_options(
DB_ENGINE,
self.engine_version
.as_ref()
.expect("engine version for db instance options")
.as_str(),
)
.await;
describe_orderable_db_instance_options_items
.map(|options| {
options
.iter()
.filter(|o| o.storage_type() == Some("aurora"))
.map(|o| o.db_instance_class().unwrap_or_default().to_string())
.collect::>()
})
.map_err(|err| ScenarioError::new("Could not get available instance classes", &err))
}
// Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
pub async fn set_engine(&mut self, engine: &str, version: &str) -> Result<(), ScenarioError> {
self.engine_family = Some(engine.to_string());
self.engine_version = Some(version.to_string());
let create_db_cluster_parameter_group = self
.rds
.create_db_cluster_parameter_group(
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION,
engine,
)
.await;
match create_db_cluster_parameter_group {
Ok(CreateDbClusterParameterGroupOutput {
db_cluster_parameter_group: None,
..
}) => {
return Err(ScenarioError::with(
"CreateDBClusterParameterGroup had empty response",
));
}
Err(error) => {
if error.code() == Some("DBParameterGroupAlreadyExists") {
info!("Cluster Parameter Group already exists, nothing to do");
} else {
return Err(ScenarioError::new(
"Could not create Cluster Parameter Group",
&error,
));
}
}
_ => {
info!("Created Cluster Parameter Group");
}
}
Ok(())
}
pub fn set_instance_class(&mut self, instance_class: Option) {
self.instance_class = instance_class;
}
pub fn set_login(&mut self, username: Option, password: Option) {
self.username = username;
self.password = password;
}
pub async fn connection_string(&self) -> Result {
let cluster = self.get_cluster().await?;
let endpoint = cluster.endpoint().unwrap_or_default();
let port = cluster.port().unwrap_or_default();
let username = cluster.master_username().unwrap_or_default();
Ok(format!("mysql -h {endpoint} -P {port} -u {username} -p"))
}
pub async fn get_cluster(&self) -> Result {
let describe_db_clusters_output = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_ref()
.expect("cluster identifier")
.as_str(),
)
.await;
if let Err(err) = describe_db_clusters_output {
return Err(ScenarioError::new("Failed to get cluster", &err));
}
let db_cluster = describe_db_clusters_output
.unwrap()
.db_clusters
.and_then(|output| output.first().cloned());
db_cluster.ok_or_else(|| ScenarioError::with("Did not find the cluster"))
}
// Get the parameter group. rds.DescribeDbClusterParameterGroups
// Get parameters in the group. This is a long list so you will have to paginate. Find the auto_increment_offset and auto_increment_increment parameters (by ParameterName). rds.DescribeDbClusterParameters
// Parse the ParameterName, Description, and AllowedValues values and display them.
pub async fn cluster_parameters(&self) -> Result, ScenarioError> {
let parameters_output = self
.rds
.describe_db_cluster_parameters(DB_CLUSTER_PARAMETER_GROUP_NAME)
.await;
if let Err(err) = parameters_output {
return Err(ScenarioError::new(
format!("Failed to retrieve parameters for {DB_CLUSTER_PARAMETER_GROUP_NAME}"),
&err,
));
}
let parameters = parameters_output
.unwrap()
.into_iter()
.flat_map(|p| p.parameters.unwrap_or_default().into_iter())
.filter(|p| FILTER_PARAMETER_NAMES.contains(p.parameter_name().unwrap_or_default()))
.map(AuroraScenarioParameter::from)
.collect::>();
Ok(parameters)
}
// Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
pub async fn update_auto_increment(
&self,
offset: u8,
increment: u8,
) -> Result<(), ScenarioError> {
let modify_db_cluster_parameter_group = self
.rds
.modify_db_cluster_parameter_group(
DB_CLUSTER_PARAMETER_GROUP_NAME,
vec![
Parameter::builder()
.parameter_name("auto_increment_offset")
.parameter_value(format!("{offset}"))
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
Parameter::builder()
.parameter_name("auto_increment_increment")
.parameter_value(format!("{increment}"))
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
],
)
.await;
if let Err(error) = modify_db_cluster_parameter_group {
return Err(ScenarioError::new(
"Failed to modify cluster parameter group",
&error,
));
}
Ok(())
}
// Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=)
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
// Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
if self.password.is_none() {
return Err(ScenarioError::with(
"Must set Secret Password before starting a cluster",
));
}
let create_db_cluster = self
.rds
.create_db_cluster(
DB_CLUSTER_IDENTIFIER,
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_ENGINE,
self.engine_version.as_deref().expect("engine version"),
self.username.as_deref().expect("username"),
self.password
.replace(SecretString::new("".to_string()))
.expect("password"),
)
.await;
if let Err(err) = create_db_cluster {
return Err(ScenarioError::new(
"Failed to create DB Cluster with cluster group",
&err,
));
}
self.db_cluster_identifier = create_db_cluster
.unwrap()
.db_cluster
.and_then(|c| c.db_cluster_identifier);
if self.db_cluster_identifier.is_none() {
return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
}
info!(
"Started a db cluster: {}",
self.db_cluster_identifier
.as_deref()
.unwrap_or("Missing ARN")
);
let create_db_instance = self
.rds
.create_db_instance(
self.db_cluster_identifier.as_deref().expect("cluster name"),
DB_INSTANCE_IDENTIFIER,
self.instance_class.as_deref().expect("instance class"),
DB_ENGINE,
)
.await;
if let Err(err) = create_db_instance {
return Err(ScenarioError::new(
"Failed to create Instance in DB Cluster",
&err,
));
}
self.db_instance_identifier = create_db_instance
.unwrap()
.db_instance
.and_then(|i| i.db_instance_identifier);
// Cluster creation can take up to 20 minutes to become available
let cluster_max_wait = Duration::from_secs(20 * 60);
let waiter = Waiter::builder().max(cluster_max_wait).build();
while waiter.sleep().await.is_ok() {
let cluster = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = cluster {
warn!(?err, "Failed to describe cluster while waiting for ready");
continue;
}
let instance = self
.rds
.describe_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = instance {
return Err(ScenarioError::new(
"Failed to find instance for cluster",
&err,
));
}
let instances_available = instance
.unwrap()
.db_instances()
.iter()
.all(|instance| instance.db_instance_status() == Some("Available"));
let endpoints = self
.rds
.describe_db_cluster_endpoints(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = endpoints {
return Err(ScenarioError::new(
"Failed to find endpoint for cluster",
&err,
));
}
let endpoints_available = endpoints
.unwrap()
.db_cluster_endpoints()
.iter()
.all(|endpoint| endpoint.status() == Some("available"));
if instances_available && endpoints_available {
return Ok(());
}
}
Err(ScenarioError::with("timed out waiting for cluster"))
}
// Create a snapshot of the DB cluster. rds.CreateDbClusterSnapshot.
// Wait for the snapshot to create. rds.DescribeDbClusterSnapshots until Status == 'available'.
pub async fn snapshot(&self, name: &str) -> Result {
let id = self.db_cluster_identifier.as_deref().unwrap_or_default();
let snapshot = self
.rds
.snapshot_cluster(id, format!("{id}_{name}").as_str())
.await;
match snapshot {
Ok(output) => match output.db_cluster_snapshot {
Some(snapshot) => Ok(snapshot),
None => Err(ScenarioError::with("Missing Snapshot")),
},
Err(err) => Err(ScenarioError::new("Failed to create snapshot", &err)),
}
}
pub async fn clean_up(self) -> Result<(), Vec> {
let mut clean_up_errors: Vec = vec![];
// Delete the instance. rds.DeleteDbInstance.
let delete_db_instance = self
.rds
.delete_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = delete_db_instance {
let identifier = self
.db_instance_identifier
.as_deref()
.unwrap_or("Missing Instance Identifier");
let message = format!("failed to delete db instance {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance to delete
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_instances = self.rds.describe_db_instances().await;
if let Err(err) = describe_db_instances {
clean_up_errors.push(ScenarioError::new(
"Failed to check instance state during deletion",
&err,
));
break;
}
let db_instances = describe_db_instances
.unwrap()
.db_instances()
.iter()
.filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
.cloned()
.collect::>();
if db_instances.is_empty() {
trace!("Delete Instance waited and no instances were found");
break;
}
match db_instances.first().unwrap().db_instance_status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but instances is in {status}");
continue;
}
None => {
warn!("No status for DB instance");
break;
}
}
}
}
// Delete the DB cluster. rds.DeleteDbCluster.
let delete_db_cluster = self
.rds
.delete_db_cluster(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = delete_db_cluster {
let identifier = self
.db_cluster_identifier
.as_deref()
.unwrap_or("Missing DB Cluster Identifier");
let message = format!("failed to delete db cluster {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_clusters = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = describe_db_clusters {
clean_up_errors.push(ScenarioError::new(
"Failed to check cluster state during deletion",
&err,
));
break;
}
let describe_db_clusters = describe_db_clusters.unwrap();
let db_clusters = describe_db_clusters.db_clusters();
if db_clusters.is_empty() {
trace!("Delete cluster waited and no clusters were found");
break;
}
match db_clusters.first().unwrap().status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but clusters is in {status}");
continue;
}
None => {
warn!("No status for DB cluster");
break;
}
}
}
}
// Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
let delete_db_cluster_parameter_group = self
.rds
.delete_db_cluster_parameter_group(
self.db_cluster_parameter_group
.map(|g| {
g.db_cluster_parameter_group_name
.unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
})
.as_deref()
.expect("cluster parameter group name"),
)
.await;
if let Err(error) = delete_db_cluster_parameter_group {
clean_up_errors.push(ScenarioError::new(
"Failed to delete the db cluster parameter group",
&error,
))
}
if clean_up_errors.is_empty() {
Ok(())
} else {
Err(clean_up_errors)
}
}
}
#[cfg(test)]
pub mod tests;
```
Teste la bibliothèque à l’aide de simulations automatiques autour de l’encapsuleur du client RDS.
```
use crate::rds::MockRdsImpl;
use super::*;
use std::io::{Error, ErrorKind};
use assert_matches::assert_matches;
use aws_sdk_rds::{
error::SdkError,
operation::{
create_db_cluster::{CreateDBClusterError, CreateDbClusterOutput},
create_db_cluster_parameter_group::CreateDBClusterParameterGroupError,
create_db_cluster_snapshot::{CreateDBClusterSnapshotError, CreateDbClusterSnapshotOutput},
create_db_instance::{CreateDBInstanceError, CreateDbInstanceOutput},
delete_db_cluster::DeleteDbClusterOutput,
delete_db_cluster_parameter_group::DeleteDbClusterParameterGroupOutput,
delete_db_instance::DeleteDbInstanceOutput,
describe_db_cluster_endpoints::DescribeDbClusterEndpointsOutput,
describe_db_cluster_parameters::{
DescribeDBClusterParametersError, DescribeDbClusterParametersOutput,
},
describe_db_clusters::{DescribeDBClustersError, DescribeDbClustersOutput},
describe_db_engine_versions::{
DescribeDBEngineVersionsError, DescribeDbEngineVersionsOutput,
},
describe_db_instances::{DescribeDBInstancesError, DescribeDbInstancesOutput},
describe_orderable_db_instance_options::DescribeOrderableDBInstanceOptionsError,
modify_db_cluster_parameter_group::{
ModifyDBClusterParameterGroupError, ModifyDbClusterParameterGroupOutput,
},
},
types::{
error::DbParameterGroupAlreadyExistsFault, DbClusterEndpoint, DbEngineVersion,
OrderableDbInstanceOption,
},
};
use aws_smithy_runtime_api::http::{Response, StatusCode};
use aws_smithy_types::body::SdkBody;
use mockall::predicate::eq;
use secrecy::ExposeSecret;
#[tokio::test]
async fn test_scenario_set_engine() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.with(
eq("RustSDKCodeExamplesDBParameterGroup"),
eq("Parameter Group created by Rust SDK Code Example"),
eq("aurora-mysql"),
)
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert_eq!(set_engine, Ok(()));
assert_eq!(Some("aurora-mysql"), scenario.engine_family.as_deref());
assert_eq!(Some("aurora-mysql8.0"), scenario.engine_version.as_deref());
}
#[tokio::test]
async fn test_scenario_set_engine_not_create() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.with(
eq("RustSDKCodeExamplesDBParameterGroup"),
eq("Parameter Group created by Rust SDK Code Example"),
eq("aurora-mysql"),
)
.return_once(|_, _, _| Ok(CreateDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert!(set_engine.is_err());
}
#[tokio::test]
async fn test_scenario_set_engine_param_group_exists() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.withf(|_, _, _| true)
.return_once(|_, _, _| {
Err(SdkError::service_error(
CreateDBClusterParameterGroupError::DbParameterGroupAlreadyExistsFault(
DbParameterGroupAlreadyExistsFault::builder().build(),
),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert!(set_engine.is_err());
}
#[tokio::test]
async fn test_scenario_get_engines() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_engine_versions()
.with(eq("aurora-mysql"))
.return_once(|_| {
Ok(DescribeDbEngineVersionsOutput::builder()
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f1")
.engine_version("f1a")
.build(),
)
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f1")
.engine_version("f1b")
.build(),
)
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f2")
.engine_version("f2a")
.build(),
)
.db_engine_versions(DbEngineVersion::builder().build())
.build())
});
let scenario = AuroraScenario::new(mock_rds);
let versions_map = scenario.get_engines().await;
assert_eq!(
versions_map,
Ok(HashMap::from([
("f1".into(), vec!["f1a".into(), "f1b".into()]),
("f2".into(), vec!["f2a".into()])
]))
);
}
#[tokio::test]
async fn test_scenario_get_engines_failed() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_engine_versions()
.with(eq("aurora-mysql"))
.return_once(|_| {
Err(SdkError::service_error(
DescribeDBEngineVersionsError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_db_engine_versions error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let scenario = AuroraScenario::new(mock_rds);
let versions_map = scenario.get_engines().await;
assert_matches!(
versions_map,
Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve DB Engine Versions"
);
}
#[tokio::test]
async fn test_scenario_get_instance_classes() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
mock_rds
.expect_describe_orderable_db_instance_options()
.with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
.return_once(|_, _| {
Ok(vec![
OrderableDbInstanceOption::builder()
.db_instance_class("t1")
.storage_type("aurora")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t1")
.storage_type("aurora-iopt1")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t2")
.storage_type("aurora")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t3")
.storage_type("aurora")
.build(),
])
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario
.set_engine("aurora-mysql", "aurora-mysql8.0")
.await
.expect("set engine");
let instance_classes = scenario.get_instance_classes().await;
assert_eq!(
instance_classes,
Ok(vec!["t1".into(), "t2".into(), "t3".into()])
);
}
#[tokio::test]
async fn test_scenario_get_instance_classes_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_orderable_db_instance_options()
.with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
.return_once(|_, _| {
Err(SdkError::service_error(
DescribeOrderableDBInstanceOptionsError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_orderable_db_instance_options_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_family = Some("aurora-mysql".into());
scenario.engine_version = Some("aurora-mysql8.0".into());
let instance_classes = scenario.get_instance_classes().await;
assert_matches!(
instance_classes,
Err(ScenarioError {message, context: _}) if message == "Could not get available instance classes"
);
}
#[tokio::test]
async fn test_scenario_get_cluster() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let cluster = scenario.get_cluster().await;
assert!(cluster.is_ok());
}
#[tokio::test]
async fn test_scenario_get_cluster_missing_cluster() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| Ok(DescribeDbClustersOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let cluster = scenario.get_cluster().await;
assert_matches!(cluster, Err(ScenarioError { message, context: _ }) if message == "Did not find the cluster");
}
#[tokio::test]
async fn test_scenario_get_cluster_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_db_clusters_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let cluster = scenario.get_cluster().await;
assert_matches!(cluster, Err(ScenarioError { message, context: _ }) if message == "Failed to get cluster");
}
#[tokio::test]
async fn test_scenario_connection_string() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.endpoint("test_endpoint")
.port(3306)
.master_username("test_username")
.build(),
)
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let connection_string = scenario.connection_string().await;
assert_eq!(
connection_string,
Ok("mysql -h test_endpoint -P 3306 -u test_username -p".into())
);
}
#[tokio::test]
async fn test_scenario_cluster_parameters() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_cluster_parameters()
.with(eq("RustSDKCodeExamplesDBParameterGroup"))
.return_once(|_| {
Ok(vec![DescribeDbClusterParametersOutput::builder()
.parameters(Parameter::builder().parameter_name("a").build())
.parameters(Parameter::builder().parameter_name("b").build())
.parameters(
Parameter::builder()
.parameter_name("auto_increment_offset")
.build(),
)
.parameters(Parameter::builder().parameter_name("c").build())
.parameters(
Parameter::builder()
.parameter_name("auto_increment_increment")
.build(),
)
.parameters(Parameter::builder().parameter_name("d").build())
.build()])
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let params = scenario.cluster_parameters().await.expect("cluster params");
let names: Vec = params.into_iter().map(|p| p.name).collect();
assert_eq!(
names,
vec!["auto_increment_offset", "auto_increment_increment"]
);
}
#[tokio::test]
async fn test_scenario_cluster_parameters_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_cluster_parameters()
.with(eq("RustSDKCodeExamplesDBParameterGroup"))
.return_once(|_| {
Err(SdkError::service_error(
DescribeDBClusterParametersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_db_cluster_parameters_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let params = scenario.cluster_parameters().await;
assert_matches!(params, Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve parameters for RustSDKCodeExamplesDBParameterGroup");
}
#[tokio::test]
async fn test_scenario_update_auto_increment() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_modify_db_cluster_parameter_group()
.withf(|name, params| {
assert_eq!(name, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(
params,
&vec![
Parameter::builder()
.parameter_name("auto_increment_offset")
.parameter_value("10")
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
Parameter::builder()
.parameter_name("auto_increment_increment")
.parameter_value("20")
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
]
);
true
})
.return_once(|_, _| Ok(ModifyDbClusterParameterGroupOutput::builder().build()));
let scenario = AuroraScenario::new(mock_rds);
scenario
.update_auto_increment(10, 20)
.await
.expect("update auto increment");
}
#[tokio::test]
async fn test_scenario_update_auto_increment_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_modify_db_cluster_parameter_group()
.return_once(|_, _| {
Err(SdkError::service_error(
ModifyDBClusterParameterGroupError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"modify_db_cluster_parameter_group_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let scenario = AuroraScenario::new(mock_rds);
let update = scenario.update_auto_increment(10, 20).await;
assert_matches!(update, Err(ScenarioError { message, context: _}) if message == "Failed to modify cluster parameter group");
}
#[tokio::test]
async fn test_start_cluster_and_instance() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_describe_db_instance()
.with(eq("RustSDKCodeExamplesDBInstance"))
.return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
assert!(scenario
.password
.replace(SecretString::new("BAD SECRET".into()))
.unwrap()
.expose_secret()
.is_empty());
assert_eq!(
scenario.db_cluster_identifier,
Some("RustSDKCodeExamplesDBCluster".into())
);
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Err(SdkError::service_error(
CreateDBClusterError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}
#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.return_once(|_, _, _, _| {
Err(SdkError::service_error(
CreateDBInstanceError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db instance error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}
#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
})
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds.expect_describe_db_instance().return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| Ok(DescribeDbInstancesOutput::builder().build()));
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| Ok(DescribeDbClustersOutput::builder().build()));
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up_errors() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| {
Err(SdkError::service_error(
DescribeDBInstancesError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db instances error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db clusters error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_err());
let errs = clean_up.unwrap_err();
assert_eq!(errs.len(), 2);
assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_snapshot() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_snapshot_cluster()
.with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
.times(1)
.return_once(|_, _| {
Ok(CreateDbClusterSnapshotOutput::builder()
.db_cluster_snapshot(
DbClusterSnapshot::builder()
.db_cluster_identifier("MockCluster")
.db_cluster_snapshot_identifier("MockCluster_MockSnapshot")
.build(),
)
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("MockCluster".into());
let create_snapshot = scenario.snapshot("MockSnapshot").await;
assert!(create_snapshot.is_ok());
}
#[tokio::test]
async fn test_scenario_snapshot_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_snapshot_cluster()
.with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
.times(1)
.return_once(|_, _| {
Err(SdkError::service_error(
CreateDBClusterSnapshotError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create snapshot error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("MockCluster".into());
let create_snapshot = scenario.snapshot("MockSnapshot").await;
assert_matches!(create_snapshot, Err(ScenarioError { message, context: _}) if message == "Failed to create snapshot");
}
#[tokio::test]
async fn test_scenario_snapshot_invalid() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_snapshot_cluster()
.with(eq("MockCluster"), eq("MockCluster_MockSnapshot"))
.times(1)
.return_once(|_, _| Ok(CreateDbClusterSnapshotOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("MockCluster".into());
let create_snapshot = scenario.snapshot("MockSnapshot").await;
assert_matches!(create_snapshot, Err(ScenarioError { message, context: _}) if message == "Missing Snapshot");
}
```
Un binaire pour exécuter le scénario de bout en bout, en utilisant Inquirer pour que l’utilisateur puisse prendre des décisions.
```
use std::fmt::Display;
use anyhow::anyhow;
use aurora_code_examples::{
aurora_scenario::{AuroraScenario, ScenarioError},
rds::Rds as RdsClient,
};
use aws_sdk_rds::Client;
use inquire::{validator::StringValidator, CustomUserError};
use secrecy::SecretString;
use tracing::warn;
#[derive(Default, Debug)]
struct Warnings(Vec);
impl Warnings {
fn new() -> Self {
Warnings(Vec::with_capacity(5))
}
fn push(&mut self, warning: &str, error: ScenarioError) {
let formatted = format!("{warning}: {error}");
warn!("{formatted}");
self.0.push(formatted);
}
fn is_empty(&self) -> bool {
self.0.is_empty()
}
}
impl Display for Warnings {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
writeln!(f, "Warnings:")?;
for warning in &self.0 {
writeln!(f, "{: >4}- {warning}", "")?;
}
Ok(())
}
}
fn select(
prompt: &str,
choices: Vec,
error_message: &str,
) -> Result {
inquire::Select::new(prompt, choices)
.prompt()
.map_err(|error| anyhow!("{error_message}: {error}"))
}
// Prepare the Aurora Scenario. Prompt for several settings that are optional to the Scenario, but that the user should choose for the demo.
// This includes the engine, engine version, and instance class.
async fn prepare_scenario(rds: RdsClient) -> Result {
let mut scenario = AuroraScenario::new(rds);
// Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
let available_engines = scenario.get_engines().await;
if let Err(error) = available_engines {
return Err(anyhow!("Failed to get available engines: {}", error));
}
let available_engines = available_engines.unwrap();
// Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
let engine = select(
"Select an Aurora engine family",
available_engines.keys().cloned().collect::>(),
"Invalid engine selection",
)?;
let version = select(
format!("Select an Aurora engine version for {engine}").as_str(),
available_engines.get(&engine).cloned().unwrap_or_default(),
"Invalid engine version selection",
)?;
let set_engine = scenario.set_engine(engine.as_str(), version.as_str()).await;
if let Err(error) = set_engine {
return Err(anyhow!("Could not set engine: {}", error));
}
let instance_classes = scenario.get_instance_classes().await;
match instance_classes {
Ok(classes) => {
let instance_class = select(
format!("Select an Aurora instance class for {engine}").as_str(),
classes,
"Invalid instance class selection",
)?;
scenario.set_instance_class(Some(instance_class))
}
Err(err) => return Err(anyhow!("Failed to get instance classes for engine: {err}")),
}
Ok(scenario)
}
// Prepare the cluster, creating a custom parameter group overriding some group parameters based on user input.
async fn prepare_cluster(scenario: &mut AuroraScenario, warnings: &mut Warnings) -> Result<(), ()> {
show_parameters(scenario, warnings).await;
let offset = prompt_number_or_default(warnings, "auto_increment_offset", 5);
let increment = prompt_number_or_default(warnings, "auto_increment_increment", 3);
// Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
let update_auto_increment = scenario.update_auto_increment(offset, increment).await;
if let Err(error) = update_auto_increment {
warnings.push("Failed to update auto increment", error);
return Err(());
}
// Get and display the updated parameters. Specify Source of 'user' to get just the modified parameters. rds.DescribeDbClusterParameters(Source='user')
show_parameters(scenario, warnings).await;
let username = inquire::Text::new("Username for the database (default 'testuser')")
.with_default("testuser")
.with_initial_value("testuser")
.prompt();
if let Err(error) = username {
warnings.push(
"Failed to get username, using default",
ScenarioError::with(format!("Error from inquirer: {error}")),
);
return Err(());
}
let username = username.unwrap();
let password = inquire::Text::new("Password for the database (minimum 8 characters)")
.with_validator(|i: &str| {
if i.len() >= 8 {
Ok(inquire::validator::Validation::Valid)
} else {
Ok(inquire::validator::Validation::Invalid(
"Password must be at least 8 characters".into(),
))
}
})
.prompt();
let password: Option = match password {
Ok(password) => Some(SecretString::from(password)),
Err(error) => {
warnings.push(
"Failed to get password, using none (and not starting a DB)",
ScenarioError::with(format!("Error from inquirer: {error}")),
);
return Err(());
}
};
scenario.set_login(Some(username), password);
Ok(())
}
// Start a single instance in the cluster,
async fn run_instance(scenario: &mut AuroraScenario) -> Result<(), ScenarioError> {
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
scenario.start_cluster_and_instance().await?;
let connection_string = scenario.connection_string().await?;
println!("Database ready: {connection_string}",);
let _ = inquire::Text::new("Use the database with the connection string. When you're finished, press enter key to continue.").prompt();
// Create a snapshot of the DB cluster. rds.CreateDbClusterSnapshot.
// Wait for the snapshot to create. rds.DescribeDbClusterSnapshots until Status == 'available'.
let snapshot_name = inquire::Text::new("Provide a name for the snapshot")
.prompt()
.unwrap_or(String::from("ScenarioRun"));
let snapshot = scenario.snapshot(snapshot_name.as_str()).await?;
println!(
"Snapshot is available: {}",
snapshot.db_cluster_snapshot_arn().unwrap_or("Missing ARN")
);
Ok(())
}
#[tokio::main]
async fn main() -> Result<(), anyhow::Error> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::from_env().load().await;
let client = Client::new(&sdk_config);
let rds = RdsClient::new(client);
let mut scenario = prepare_scenario(rds).await?;
// At this point, the scenario has things in AWS and needs to get cleaned up.
let mut warnings = Warnings::new();
if prepare_cluster(&mut scenario, &mut warnings).await.is_ok() {
println!("Configured database cluster, starting an instance.");
if let Err(err) = run_instance(&mut scenario).await {
warnings.push("Problem running instance", err);
}
}
// Clean up the instance, cluster, and parameter group, waiting for the instance and cluster to delete before moving on.
let clean_up = scenario.clean_up().await;
if let Err(errors) = clean_up {
for error in errors {
warnings.push("Problem cleaning up scenario", error);
}
}
if warnings.is_empty() {
Ok(())
} else {
println!("There were problems running the scenario:");
println!("{warnings}");
Err(anyhow!("There were problems running the scenario"))
}
}
#[derive(Clone)]
struct U8Validator {}
impl StringValidator for U8Validator {
fn validate(&self, input: &str) -> Result {
if input.parse::().is_err() {
Ok(inquire::validator::Validation::Invalid(
"Can't parse input as number".into(),
))
} else {
Ok(inquire::validator::Validation::Valid)
}
}
}
async fn show_parameters(scenario: &AuroraScenario, warnings: &mut Warnings) {
let parameters = scenario.cluster_parameters().await;
match parameters {
Ok(parameters) => {
println!("Current parameters");
for parameter in parameters {
println!("\t{parameter}");
}
}
Err(error) => warnings.push("Could not find cluster parameters", error),
}
}
fn prompt_number_or_default(warnings: &mut Warnings, name: &str, default: u8) -> u8 {
let input = inquire::Text::new(format!("Updated {name}:").as_str())
.with_validator(U8Validator {})
.prompt();
match input {
Ok(increment) => match increment.parse::() {
Ok(increment) => increment,
Err(error) => {
warnings.push(
format!("Invalid updated {name} (using {default} instead)").as_str(),
ScenarioError::with(format!("{error}")),
);
default
}
},
Err(error) => {
warnings.push(
format!("Invalid updated {name} (using {default} instead)").as_str(),
ScenarioError::with(format!("{error}")),
);
default
}
}
}
```
Un encapsuleur autour du service Amazon RDS qui permet d’autosimuler les tests.
```
use aws_sdk_rds::{
error::SdkError,
operation::{
create_db_cluster::{CreateDBClusterError, CreateDbClusterOutput},
create_db_cluster_parameter_group::CreateDBClusterParameterGroupError,
create_db_cluster_parameter_group::CreateDbClusterParameterGroupOutput,
create_db_cluster_snapshot::{CreateDBClusterSnapshotError, CreateDbClusterSnapshotOutput},
create_db_instance::{CreateDBInstanceError, CreateDbInstanceOutput},
delete_db_cluster::{DeleteDBClusterError, DeleteDbClusterOutput},
delete_db_cluster_parameter_group::{
DeleteDBClusterParameterGroupError, DeleteDbClusterParameterGroupOutput,
},
delete_db_instance::{DeleteDBInstanceError, DeleteDbInstanceOutput},
describe_db_cluster_endpoints::{
DescribeDBClusterEndpointsError, DescribeDbClusterEndpointsOutput,
},
describe_db_cluster_parameters::{
DescribeDBClusterParametersError, DescribeDbClusterParametersOutput,
},
describe_db_clusters::{DescribeDBClustersError, DescribeDbClustersOutput},
describe_db_engine_versions::{
DescribeDBEngineVersionsError, DescribeDbEngineVersionsOutput,
},
describe_db_instances::{DescribeDBInstancesError, DescribeDbInstancesOutput},
describe_orderable_db_instance_options::DescribeOrderableDBInstanceOptionsError,
modify_db_cluster_parameter_group::{
ModifyDBClusterParameterGroupError, ModifyDbClusterParameterGroupOutput,
},
},
types::{OrderableDbInstanceOption, Parameter},
Client as RdsClient,
};
use secrecy::{ExposeSecret, SecretString};
#[cfg(test)]
use mockall::automock;
#[cfg(test)]
pub use MockRdsImpl as Rds;
#[cfg(not(test))]
pub use RdsImpl as Rds;
pub struct RdsImpl {
pub inner: RdsClient,
}
#[cfg_attr(test, automock)]
impl RdsImpl {
pub fn new(inner: RdsClient) -> Self {
RdsImpl { inner }
}
pub async fn describe_db_engine_versions(
&self,
engine: &str,
) -> Result> {
self.inner
.describe_db_engine_versions()
.engine(engine)
.send()
.await
}
pub async fn describe_orderable_db_instance_options(
&self,
engine: &str,
engine_version: &str,
) -> Result, SdkError>
{
self.inner
.describe_orderable_db_instance_options()
.engine(engine)
.engine_version(engine_version)
.into_paginator()
.items()
.send()
.try_collect()
.await
}
pub async fn create_db_cluster_parameter_group(
&self,
name: &str,
description: &str,
family: &str,
) -> Result>
{
self.inner
.create_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.description(description)
.db_parameter_group_family(family)
.send()
.await
}
pub async fn describe_db_clusters(
&self,
id: &str,
) -> Result> {
self.inner
.describe_db_clusters()
.db_cluster_identifier(id)
.send()
.await
}
pub async fn describe_db_cluster_parameters(
&self,
name: &str,
) -> Result, SdkError>
{
self.inner
.describe_db_cluster_parameters()
.db_cluster_parameter_group_name(name)
.into_paginator()
.send()
.try_collect()
.await
}
pub async fn modify_db_cluster_parameter_group(
&self,
name: &str,
parameters: Vec,
) -> Result>
{
self.inner
.modify_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.set_parameters(Some(parameters))
.send()
.await
}
pub async fn create_db_cluster(
&self,
name: &str,
parameter_group: &str,
engine: &str,
version: &str,
username: &str,
password: SecretString,
) -> Result> {
self.inner
.create_db_cluster()
.db_cluster_identifier(name)
.db_cluster_parameter_group_name(parameter_group)
.engine(engine)
.engine_version(version)
.master_username(username)
.master_user_password(password.expose_secret())
.send()
.await
}
pub async fn create_db_instance(
&self,
cluster_name: &str,
instance_name: &str,
instance_class: &str,
engine: &str,
) -> Result> {
self.inner
.create_db_instance()
.db_cluster_identifier(cluster_name)
.db_instance_identifier(instance_name)
.db_instance_class(instance_class)
.engine(engine)
.send()
.await
}
pub async fn describe_db_instance(
&self,
instance_identifier: &str,
) -> Result> {
self.inner
.describe_db_instances()
.db_instance_identifier(instance_identifier)
.send()
.await
}
pub async fn snapshot_cluster(
&self,
db_cluster_identifier: &str,
snapshot_name: &str,
) -> Result> {
self.inner
.create_db_cluster_snapshot()
.db_cluster_identifier(db_cluster_identifier)
.db_cluster_snapshot_identifier(snapshot_name)
.send()
.await
}
pub async fn describe_db_instances(
&self,
) -> Result> {
self.inner.describe_db_instances().send().await
}
pub async fn describe_db_cluster_endpoints(
&self,
cluster_identifier: &str,
) -> Result> {
self.inner
.describe_db_cluster_endpoints()
.db_cluster_identifier(cluster_identifier)
.send()
.await
}
pub async fn delete_db_instance(
&self,
instance_identifier: &str,
) -> Result> {
self.inner
.delete_db_instance()
.db_instance_identifier(instance_identifier)
.skip_final_snapshot(true)
.send()
.await
}
pub async fn delete_db_cluster(
&self,
cluster_identifier: &str,
) -> Result> {
self.inner
.delete_db_cluster()
.db_cluster_identifier(cluster_identifier)
.skip_final_snapshot(true)
.send()
.await
}
pub async fn delete_db_cluster_parameter_group(
&self,
name: &str,
) -> Result>
{
self.inner
.delete_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.send()
.await
}
}
```
Le fichier Cargo.toml avec les dépendances utilisées dans ce scénario.
```
[package]
name = "aurora-code-examples"
authors = [
"David Souther ",
]
edition = "2021"
version = "0.1.0"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.75"
assert_matches = "1.5.0"
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-smithy-types = { version = "1.0.1" }
aws-smithy-runtime-api = { version = "1.0.1" }
aws-sdk-rds = { version = "1.3.0" }
inquire = "0.6.2"
mockall = "0.11.4"
phf = { version = "0.11.2", features = ["std", "macros"] }
sdk-examples-test-utils = { path = "../../test-utils" }
secrecy = "0.8.0"
tokio = { version = "1.20.1", features = ["full", "test-util"] }
tracing = "0.1.37"
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }
```
+ Pour plus de détails sur l’API, consultez les rubriques suivantes dans la *Référence des API du kit AWS SDK pour Rust*.
+ [CréerDBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster)
+ [CréerDBClusterParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_parameter_group)
+ [Créer un DBCluster instantané](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_snapshot)
+ [CréerDBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_instance)
+ [SuppressionDBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster)
+ [SuppressionDBClusterParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster_parameter_group)
+ [SuppressionDBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_instance)
+ [DécrireDBClusterParameterGroups](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameter_groups)
+ [Décrire DBCluster les paramètres](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameters)
+ [Décrire les DBCluster instantanés](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_snapshots)
+ [DécrireDBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters)
+ [Décrire DBEngine les versions](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_engine_versions)
+ [DécrireDBInstances](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_instances)
+ [DescribeOrderableDBInstanceOptions](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_orderable_db_instance_options)
+ [ModifyDBClusterParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.modify_db_cluster_parameter_group)
## Actions
### `CreateDBCluster`
L'exemple de code suivant montre comment utiliser`CreateDBCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=)
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
// Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
if self.password.is_none() {
return Err(ScenarioError::with(
"Must set Secret Password before starting a cluster",
));
}
let create_db_cluster = self
.rds
.create_db_cluster(
DB_CLUSTER_IDENTIFIER,
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_ENGINE,
self.engine_version.as_deref().expect("engine version"),
self.username.as_deref().expect("username"),
self.password
.replace(SecretString::new("".to_string()))
.expect("password"),
)
.await;
if let Err(err) = create_db_cluster {
return Err(ScenarioError::new(
"Failed to create DB Cluster with cluster group",
&err,
));
}
self.db_cluster_identifier = create_db_cluster
.unwrap()
.db_cluster
.and_then(|c| c.db_cluster_identifier);
if self.db_cluster_identifier.is_none() {
return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
}
info!(
"Started a db cluster: {}",
self.db_cluster_identifier
.as_deref()
.unwrap_or("Missing ARN")
);
let create_db_instance = self
.rds
.create_db_instance(
self.db_cluster_identifier.as_deref().expect("cluster name"),
DB_INSTANCE_IDENTIFIER,
self.instance_class.as_deref().expect("instance class"),
DB_ENGINE,
)
.await;
if let Err(err) = create_db_instance {
return Err(ScenarioError::new(
"Failed to create Instance in DB Cluster",
&err,
));
}
self.db_instance_identifier = create_db_instance
.unwrap()
.db_instance
.and_then(|i| i.db_instance_identifier);
// Cluster creation can take up to 20 minutes to become available
let cluster_max_wait = Duration::from_secs(20 * 60);
let waiter = Waiter::builder().max(cluster_max_wait).build();
while waiter.sleep().await.is_ok() {
let cluster = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = cluster {
warn!(?err, "Failed to describe cluster while waiting for ready");
continue;
}
let instance = self
.rds
.describe_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = instance {
return Err(ScenarioError::new(
"Failed to find instance for cluster",
&err,
));
}
let instances_available = instance
.unwrap()
.db_instances()
.iter()
.all(|instance| instance.db_instance_status() == Some("Available"));
let endpoints = self
.rds
.describe_db_cluster_endpoints(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = endpoints {
return Err(ScenarioError::new(
"Failed to find endpoint for cluster",
&err,
));
}
let endpoints_available = endpoints
.unwrap()
.db_cluster_endpoints()
.iter()
.all(|endpoint| endpoint.status() == Some("available"));
if instances_available && endpoints_available {
return Ok(());
}
}
Err(ScenarioError::with("timed out waiting for cluster"))
}
pub async fn create_db_cluster(
&self,
name: &str,
parameter_group: &str,
engine: &str,
version: &str,
username: &str,
password: SecretString,
) -> Result> {
self.inner
.create_db_cluster()
.db_cluster_identifier(name)
.db_cluster_parameter_group_name(parameter_group)
.engine(engine)
.engine_version(version)
.master_username(username)
.master_user_password(password.expose_secret())
.send()
.await
}
#[tokio::test]
async fn test_start_cluster_and_instance() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_describe_db_instance()
.with(eq("RustSDKCodeExamplesDBInstance"))
.return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
assert!(scenario
.password
.replace(SecretString::new("BAD SECRET".into()))
.unwrap()
.expose_secret()
.is_empty());
assert_eq!(
scenario.db_cluster_identifier,
Some("RustSDKCodeExamplesDBCluster".into())
);
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Err(SdkError::service_error(
CreateDBClusterError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}
#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.return_once(|_, _, _, _| {
Err(SdkError::service_error(
CreateDBInstanceError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db instance error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}
#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
})
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds.expect_describe_db_instance().return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Create DBCluster](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster) in *AWS SDK for Rust API reference*.
### `CreateDBClusterParameterGroup`
L'exemple de code suivant montre comment utiliser`CreateDBClusterParameterGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Select an engine family and create a custom DB cluster parameter group. rds.CreateDbClusterParameterGroup(DBParameterGroupFamily='aurora-mysql8.0')
pub async fn set_engine(&mut self, engine: &str, version: &str) -> Result<(), ScenarioError> {
self.engine_family = Some(engine.to_string());
self.engine_version = Some(version.to_string());
let create_db_cluster_parameter_group = self
.rds
.create_db_cluster_parameter_group(
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_CLUSTER_PARAMETER_GROUP_DESCRIPTION,
engine,
)
.await;
match create_db_cluster_parameter_group {
Ok(CreateDbClusterParameterGroupOutput {
db_cluster_parameter_group: None,
..
}) => {
return Err(ScenarioError::with(
"CreateDBClusterParameterGroup had empty response",
));
}
Err(error) => {
if error.code() == Some("DBParameterGroupAlreadyExists") {
info!("Cluster Parameter Group already exists, nothing to do");
} else {
return Err(ScenarioError::new(
"Could not create Cluster Parameter Group",
&error,
));
}
}
_ => {
info!("Created Cluster Parameter Group");
}
}
Ok(())
}
pub async fn create_db_cluster_parameter_group(
&self,
name: &str,
description: &str,
family: &str,
) -> Result>
{
self.inner
.create_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.description(description)
.db_parameter_group_family(family)
.send()
.await
}
#[tokio::test]
async fn test_scenario_set_engine() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.with(
eq("RustSDKCodeExamplesDBParameterGroup"),
eq("Parameter Group created by Rust SDK Code Example"),
eq("aurora-mysql"),
)
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert_eq!(set_engine, Ok(()));
assert_eq!(Some("aurora-mysql"), scenario.engine_family.as_deref());
assert_eq!(Some("aurora-mysql8.0"), scenario.engine_version.as_deref());
}
#[tokio::test]
async fn test_scenario_set_engine_not_create() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.with(
eq("RustSDKCodeExamplesDBParameterGroup"),
eq("Parameter Group created by Rust SDK Code Example"),
eq("aurora-mysql"),
)
.return_once(|_, _, _| Ok(CreateDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert!(set_engine.is_err());
}
#[tokio::test]
async fn test_scenario_set_engine_param_group_exists() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.withf(|_, _, _| true)
.return_once(|_, _, _| {
Err(SdkError::service_error(
CreateDBClusterParameterGroupError::DbParameterGroupAlreadyExistsFault(
DbParameterGroupAlreadyExistsFault::builder().build(),
),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
let set_engine = scenario.set_engine("aurora-mysql", "aurora-mysql8.0").await;
assert!(set_engine.is_err());
}
```
+ Pour plus de détails sur l'API, voir [Create DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_parameter_group) in *AWS SDK for Rust API reference*.
### `CreateDBClusterSnapshot`
L'exemple de code suivant montre comment utiliser`CreateDBClusterSnapshot`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=)
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
// Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
if self.password.is_none() {
return Err(ScenarioError::with(
"Must set Secret Password before starting a cluster",
));
}
let create_db_cluster = self
.rds
.create_db_cluster(
DB_CLUSTER_IDENTIFIER,
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_ENGINE,
self.engine_version.as_deref().expect("engine version"),
self.username.as_deref().expect("username"),
self.password
.replace(SecretString::new("".to_string()))
.expect("password"),
)
.await;
if let Err(err) = create_db_cluster {
return Err(ScenarioError::new(
"Failed to create DB Cluster with cluster group",
&err,
));
}
self.db_cluster_identifier = create_db_cluster
.unwrap()
.db_cluster
.and_then(|c| c.db_cluster_identifier);
if self.db_cluster_identifier.is_none() {
return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
}
info!(
"Started a db cluster: {}",
self.db_cluster_identifier
.as_deref()
.unwrap_or("Missing ARN")
);
let create_db_instance = self
.rds
.create_db_instance(
self.db_cluster_identifier.as_deref().expect("cluster name"),
DB_INSTANCE_IDENTIFIER,
self.instance_class.as_deref().expect("instance class"),
DB_ENGINE,
)
.await;
if let Err(err) = create_db_instance {
return Err(ScenarioError::new(
"Failed to create Instance in DB Cluster",
&err,
));
}
self.db_instance_identifier = create_db_instance
.unwrap()
.db_instance
.and_then(|i| i.db_instance_identifier);
// Cluster creation can take up to 20 minutes to become available
let cluster_max_wait = Duration::from_secs(20 * 60);
let waiter = Waiter::builder().max(cluster_max_wait).build();
while waiter.sleep().await.is_ok() {
let cluster = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = cluster {
warn!(?err, "Failed to describe cluster while waiting for ready");
continue;
}
let instance = self
.rds
.describe_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = instance {
return Err(ScenarioError::new(
"Failed to find instance for cluster",
&err,
));
}
let instances_available = instance
.unwrap()
.db_instances()
.iter()
.all(|instance| instance.db_instance_status() == Some("Available"));
let endpoints = self
.rds
.describe_db_cluster_endpoints(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = endpoints {
return Err(ScenarioError::new(
"Failed to find endpoint for cluster",
&err,
));
}
let endpoints_available = endpoints
.unwrap()
.db_cluster_endpoints()
.iter()
.all(|endpoint| endpoint.status() == Some("available"));
if instances_available && endpoints_available {
return Ok(());
}
}
Err(ScenarioError::with("timed out waiting for cluster"))
}
pub async fn snapshot_cluster(
&self,
db_cluster_identifier: &str,
snapshot_name: &str,
) -> Result> {
self.inner
.create_db_cluster_snapshot()
.db_cluster_identifier(db_cluster_identifier)
.db_cluster_snapshot_identifier(snapshot_name)
.send()
.await
}
#[tokio::test]
async fn test_start_cluster_and_instance() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_describe_db_instance()
.with(eq("RustSDKCodeExamplesDBInstance"))
.return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
assert!(scenario
.password
.replace(SecretString::new("BAD SECRET".into()))
.unwrap()
.expose_secret()
.is_empty());
assert_eq!(
scenario.db_cluster_identifier,
Some("RustSDKCodeExamplesDBCluster".into())
);
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Err(SdkError::service_error(
CreateDBClusterError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}
#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.return_once(|_, _, _, _| {
Err(SdkError::service_error(
CreateDBInstanceError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db instance error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}
#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
})
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds.expect_describe_db_instance().return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Create DBCluster Snapshot](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_cluster_snapshot) in *AWS SDK for Rust API reference*.
### `CreateDBInstance`
L'exemple de code suivant montre comment utiliser`CreateDBInstance`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=)
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
// Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
if self.password.is_none() {
return Err(ScenarioError::with(
"Must set Secret Password before starting a cluster",
));
}
let create_db_cluster = self
.rds
.create_db_cluster(
DB_CLUSTER_IDENTIFIER,
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_ENGINE,
self.engine_version.as_deref().expect("engine version"),
self.username.as_deref().expect("username"),
self.password
.replace(SecretString::new("".to_string()))
.expect("password"),
)
.await;
if let Err(err) = create_db_cluster {
return Err(ScenarioError::new(
"Failed to create DB Cluster with cluster group",
&err,
));
}
self.db_cluster_identifier = create_db_cluster
.unwrap()
.db_cluster
.and_then(|c| c.db_cluster_identifier);
if self.db_cluster_identifier.is_none() {
return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
}
info!(
"Started a db cluster: {}",
self.db_cluster_identifier
.as_deref()
.unwrap_or("Missing ARN")
);
let create_db_instance = self
.rds
.create_db_instance(
self.db_cluster_identifier.as_deref().expect("cluster name"),
DB_INSTANCE_IDENTIFIER,
self.instance_class.as_deref().expect("instance class"),
DB_ENGINE,
)
.await;
if let Err(err) = create_db_instance {
return Err(ScenarioError::new(
"Failed to create Instance in DB Cluster",
&err,
));
}
self.db_instance_identifier = create_db_instance
.unwrap()
.db_instance
.and_then(|i| i.db_instance_identifier);
// Cluster creation can take up to 20 minutes to become available
let cluster_max_wait = Duration::from_secs(20 * 60);
let waiter = Waiter::builder().max(cluster_max_wait).build();
while waiter.sleep().await.is_ok() {
let cluster = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = cluster {
warn!(?err, "Failed to describe cluster while waiting for ready");
continue;
}
let instance = self
.rds
.describe_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = instance {
return Err(ScenarioError::new(
"Failed to find instance for cluster",
&err,
));
}
let instances_available = instance
.unwrap()
.db_instances()
.iter()
.all(|instance| instance.db_instance_status() == Some("Available"));
let endpoints = self
.rds
.describe_db_cluster_endpoints(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = endpoints {
return Err(ScenarioError::new(
"Failed to find endpoint for cluster",
&err,
));
}
let endpoints_available = endpoints
.unwrap()
.db_cluster_endpoints()
.iter()
.all(|endpoint| endpoint.status() == Some("available"));
if instances_available && endpoints_available {
return Ok(());
}
}
Err(ScenarioError::with("timed out waiting for cluster"))
}
pub async fn create_db_instance(
&self,
cluster_name: &str,
instance_name: &str,
instance_class: &str,
engine: &str,
) -> Result> {
self.inner
.create_db_instance()
.db_cluster_identifier(cluster_name)
.db_instance_identifier(instance_name)
.db_instance_class(instance_class)
.engine(engine)
.send()
.await
}
#[tokio::test]
async fn test_start_cluster_and_instance() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_describe_db_instance()
.with(eq("RustSDKCodeExamplesDBInstance"))
.return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
assert!(scenario
.password
.replace(SecretString::new("BAD SECRET".into()))
.unwrap()
.expose_secret()
.is_empty());
assert_eq!(
scenario.db_cluster_identifier,
Some("RustSDKCodeExamplesDBCluster".into())
);
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Err(SdkError::service_error(
CreateDBClusterError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}
#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.return_once(|_, _, _, _| {
Err(SdkError::service_error(
CreateDBInstanceError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db instance error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}
#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
})
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds.expect_describe_db_instance().return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Create DBInstance](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.create_db_instance) in *AWS SDK for Rust API reference*.
### `DeleteDBCluster`
L'exemple de code suivant montre comment utiliser`DeleteDBCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
pub async fn clean_up(self) -> Result<(), Vec> {
let mut clean_up_errors: Vec = vec![];
// Delete the instance. rds.DeleteDbInstance.
let delete_db_instance = self
.rds
.delete_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = delete_db_instance {
let identifier = self
.db_instance_identifier
.as_deref()
.unwrap_or("Missing Instance Identifier");
let message = format!("failed to delete db instance {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance to delete
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_instances = self.rds.describe_db_instances().await;
if let Err(err) = describe_db_instances {
clean_up_errors.push(ScenarioError::new(
"Failed to check instance state during deletion",
&err,
));
break;
}
let db_instances = describe_db_instances
.unwrap()
.db_instances()
.iter()
.filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
.cloned()
.collect::>();
if db_instances.is_empty() {
trace!("Delete Instance waited and no instances were found");
break;
}
match db_instances.first().unwrap().db_instance_status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but instances is in {status}");
continue;
}
None => {
warn!("No status for DB instance");
break;
}
}
}
}
// Delete the DB cluster. rds.DeleteDbCluster.
let delete_db_cluster = self
.rds
.delete_db_cluster(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = delete_db_cluster {
let identifier = self
.db_cluster_identifier
.as_deref()
.unwrap_or("Missing DB Cluster Identifier");
let message = format!("failed to delete db cluster {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_clusters = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = describe_db_clusters {
clean_up_errors.push(ScenarioError::new(
"Failed to check cluster state during deletion",
&err,
));
break;
}
let describe_db_clusters = describe_db_clusters.unwrap();
let db_clusters = describe_db_clusters.db_clusters();
if db_clusters.is_empty() {
trace!("Delete cluster waited and no clusters were found");
break;
}
match db_clusters.first().unwrap().status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but clusters is in {status}");
continue;
}
None => {
warn!("No status for DB cluster");
break;
}
}
}
}
// Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
let delete_db_cluster_parameter_group = self
.rds
.delete_db_cluster_parameter_group(
self.db_cluster_parameter_group
.map(|g| {
g.db_cluster_parameter_group_name
.unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
})
.as_deref()
.expect("cluster parameter group name"),
)
.await;
if let Err(error) = delete_db_cluster_parameter_group {
clean_up_errors.push(ScenarioError::new(
"Failed to delete the db cluster parameter group",
&error,
))
}
if clean_up_errors.is_empty() {
Ok(())
} else {
Err(clean_up_errors)
}
}
pub async fn delete_db_cluster(
&self,
cluster_identifier: &str,
) -> Result> {
self.inner
.delete_db_cluster()
.db_cluster_identifier(cluster_identifier)
.skip_final_snapshot(true)
.send()
.await
}
#[tokio::test]
async fn test_scenario_clean_up() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| Ok(DescribeDbInstancesOutput::builder().build()));
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| Ok(DescribeDbClustersOutput::builder().build()));
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up_errors() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| {
Err(SdkError::service_error(
DescribeDBInstancesError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db instances error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db clusters error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_err());
let errs = clean_up.unwrap_err();
assert_eq!(errs.len(), 2);
assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Supprimer DBCluster dans le AWS](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster) *SDK pour la référence de l'API Rust*.
### `DeleteDBClusterParameterGroup`
L'exemple de code suivant montre comment utiliser`DeleteDBClusterParameterGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
pub async fn clean_up(self) -> Result<(), Vec> {
let mut clean_up_errors: Vec = vec![];
// Delete the instance. rds.DeleteDbInstance.
let delete_db_instance = self
.rds
.delete_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = delete_db_instance {
let identifier = self
.db_instance_identifier
.as_deref()
.unwrap_or("Missing Instance Identifier");
let message = format!("failed to delete db instance {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance to delete
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_instances = self.rds.describe_db_instances().await;
if let Err(err) = describe_db_instances {
clean_up_errors.push(ScenarioError::new(
"Failed to check instance state during deletion",
&err,
));
break;
}
let db_instances = describe_db_instances
.unwrap()
.db_instances()
.iter()
.filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
.cloned()
.collect::>();
if db_instances.is_empty() {
trace!("Delete Instance waited and no instances were found");
break;
}
match db_instances.first().unwrap().db_instance_status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but instances is in {status}");
continue;
}
None => {
warn!("No status for DB instance");
break;
}
}
}
}
// Delete the DB cluster. rds.DeleteDbCluster.
let delete_db_cluster = self
.rds
.delete_db_cluster(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = delete_db_cluster {
let identifier = self
.db_cluster_identifier
.as_deref()
.unwrap_or("Missing DB Cluster Identifier");
let message = format!("failed to delete db cluster {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_clusters = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = describe_db_clusters {
clean_up_errors.push(ScenarioError::new(
"Failed to check cluster state during deletion",
&err,
));
break;
}
let describe_db_clusters = describe_db_clusters.unwrap();
let db_clusters = describe_db_clusters.db_clusters();
if db_clusters.is_empty() {
trace!("Delete cluster waited and no clusters were found");
break;
}
match db_clusters.first().unwrap().status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but clusters is in {status}");
continue;
}
None => {
warn!("No status for DB cluster");
break;
}
}
}
}
// Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
let delete_db_cluster_parameter_group = self
.rds
.delete_db_cluster_parameter_group(
self.db_cluster_parameter_group
.map(|g| {
g.db_cluster_parameter_group_name
.unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
})
.as_deref()
.expect("cluster parameter group name"),
)
.await;
if let Err(error) = delete_db_cluster_parameter_group {
clean_up_errors.push(ScenarioError::new(
"Failed to delete the db cluster parameter group",
&error,
))
}
if clean_up_errors.is_empty() {
Ok(())
} else {
Err(clean_up_errors)
}
}
pub async fn delete_db_cluster_parameter_group(
&self,
name: &str,
) -> Result>
{
self.inner
.delete_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.send()
.await
}
#[tokio::test]
async fn test_scenario_clean_up() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| Ok(DescribeDbInstancesOutput::builder().build()));
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| Ok(DescribeDbClustersOutput::builder().build()));
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up_errors() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| {
Err(SdkError::service_error(
DescribeDBInstancesError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db instances error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db clusters error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_err());
let errs = clean_up.unwrap_err();
assert_eq!(errs.len(), 2);
assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Supprimer DBCluster ParameterGroup dans le AWS](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_cluster_parameter_group) *SDK pour la référence de l'API Rust*.
### `DeleteDBInstance`
L'exemple de code suivant montre comment utiliser`DeleteDBInstance`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
pub async fn clean_up(self) -> Result<(), Vec> {
let mut clean_up_errors: Vec = vec![];
// Delete the instance. rds.DeleteDbInstance.
let delete_db_instance = self
.rds
.delete_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = delete_db_instance {
let identifier = self
.db_instance_identifier
.as_deref()
.unwrap_or("Missing Instance Identifier");
let message = format!("failed to delete db instance {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance to delete
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_instances = self.rds.describe_db_instances().await;
if let Err(err) = describe_db_instances {
clean_up_errors.push(ScenarioError::new(
"Failed to check instance state during deletion",
&err,
));
break;
}
let db_instances = describe_db_instances
.unwrap()
.db_instances()
.iter()
.filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
.cloned()
.collect::>();
if db_instances.is_empty() {
trace!("Delete Instance waited and no instances were found");
break;
}
match db_instances.first().unwrap().db_instance_status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but instances is in {status}");
continue;
}
None => {
warn!("No status for DB instance");
break;
}
}
}
}
// Delete the DB cluster. rds.DeleteDbCluster.
let delete_db_cluster = self
.rds
.delete_db_cluster(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = delete_db_cluster {
let identifier = self
.db_cluster_identifier
.as_deref()
.unwrap_or("Missing DB Cluster Identifier");
let message = format!("failed to delete db cluster {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_clusters = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = describe_db_clusters {
clean_up_errors.push(ScenarioError::new(
"Failed to check cluster state during deletion",
&err,
));
break;
}
let describe_db_clusters = describe_db_clusters.unwrap();
let db_clusters = describe_db_clusters.db_clusters();
if db_clusters.is_empty() {
trace!("Delete cluster waited and no clusters were found");
break;
}
match db_clusters.first().unwrap().status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but clusters is in {status}");
continue;
}
None => {
warn!("No status for DB cluster");
break;
}
}
}
}
// Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
let delete_db_cluster_parameter_group = self
.rds
.delete_db_cluster_parameter_group(
self.db_cluster_parameter_group
.map(|g| {
g.db_cluster_parameter_group_name
.unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
})
.as_deref()
.expect("cluster parameter group name"),
)
.await;
if let Err(error) = delete_db_cluster_parameter_group {
clean_up_errors.push(ScenarioError::new(
"Failed to delete the db cluster parameter group",
&error,
))
}
if clean_up_errors.is_empty() {
Ok(())
} else {
Err(clean_up_errors)
}
}
pub async fn delete_db_instance(
&self,
instance_identifier: &str,
) -> Result> {
self.inner
.delete_db_instance()
.db_instance_identifier(instance_identifier)
.skip_final_snapshot(true)
.send()
.await
}
#[tokio::test]
async fn test_scenario_clean_up() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| Ok(DescribeDbInstancesOutput::builder().build()));
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| Ok(DescribeDbClustersOutput::builder().build()));
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up_errors() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| {
Err(SdkError::service_error(
DescribeDBInstancesError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db instances error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db clusters error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_err());
let errs = clean_up.unwrap_err();
assert_eq!(errs.len(), 2);
assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, voir [Supprimer DBInstance dans le AWS](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.delete_db_instance) *SDK pour la référence de l'API Rust*.
### `DescribeDBClusterParameters`
L'exemple de code suivant montre comment utiliser`DescribeDBClusterParameters`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get the parameter group. rds.DescribeDbClusterParameterGroups
// Get parameters in the group. This is a long list so you will have to paginate. Find the auto_increment_offset and auto_increment_increment parameters (by ParameterName). rds.DescribeDbClusterParameters
// Parse the ParameterName, Description, and AllowedValues values and display them.
pub async fn cluster_parameters(&self) -> Result, ScenarioError> {
let parameters_output = self
.rds
.describe_db_cluster_parameters(DB_CLUSTER_PARAMETER_GROUP_NAME)
.await;
if let Err(err) = parameters_output {
return Err(ScenarioError::new(
format!("Failed to retrieve parameters for {DB_CLUSTER_PARAMETER_GROUP_NAME}"),
&err,
));
}
let parameters = parameters_output
.unwrap()
.into_iter()
.flat_map(|p| p.parameters.unwrap_or_default().into_iter())
.filter(|p| FILTER_PARAMETER_NAMES.contains(p.parameter_name().unwrap_or_default()))
.map(AuroraScenarioParameter::from)
.collect::>();
Ok(parameters)
}
pub async fn describe_db_cluster_parameters(
&self,
name: &str,
) -> Result, SdkError>
{
self.inner
.describe_db_cluster_parameters()
.db_cluster_parameter_group_name(name)
.into_paginator()
.send()
.try_collect()
.await
}
#[tokio::test]
async fn test_scenario_cluster_parameters() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_cluster_parameters()
.with(eq("RustSDKCodeExamplesDBParameterGroup"))
.return_once(|_| {
Ok(vec![DescribeDbClusterParametersOutput::builder()
.parameters(Parameter::builder().parameter_name("a").build())
.parameters(Parameter::builder().parameter_name("b").build())
.parameters(
Parameter::builder()
.parameter_name("auto_increment_offset")
.build(),
)
.parameters(Parameter::builder().parameter_name("c").build())
.parameters(
Parameter::builder()
.parameter_name("auto_increment_increment")
.build(),
)
.parameters(Parameter::builder().parameter_name("d").build())
.build()])
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let params = scenario.cluster_parameters().await.expect("cluster params");
let names: Vec = params.into_iter().map(|p| p.name).collect();
assert_eq!(
names,
vec!["auto_increment_offset", "auto_increment_increment"]
);
}
#[tokio::test]
async fn test_scenario_cluster_parameters_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_cluster_parameters()
.with(eq("RustSDKCodeExamplesDBParameterGroup"))
.return_once(|_| {
Err(SdkError::service_error(
DescribeDBClusterParametersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_db_cluster_parameters_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some("RustSDKCodeExamplesDBCluster".into());
let params = scenario.cluster_parameters().await;
assert_matches!(params, Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve parameters for RustSDKCodeExamplesDBParameterGroup");
}
```
+ Pour plus de détails sur l'API, voir [Description DBCluster des paramètres](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_cluster_parameters) dans le *AWS SDK pour la référence de l'API Rust*.
### `DescribeDBClusters`
L'exemple de code suivant montre comment utiliser`DescribeDBClusters`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get a list of allowed engine versions. rds.DescribeDbEngineVersions(Engine='aurora-mysql', DBParameterGroupFamily=)
// Create an Aurora DB cluster database cluster that contains a MySql database and uses the parameter group you created.
// Wait for DB cluster to be ready. Call rds.DescribeDBClusters and check for Status == 'available'.
// Get a list of instance classes available for the selected engine and engine version. rds.DescribeOrderableDbInstanceOptions(Engine='mysql', EngineVersion=).
// Create a database instance in the cluster.
// Wait for DB instance to be ready. Call rds.DescribeDbInstances and check for DBInstanceStatus == 'available'.
pub async fn start_cluster_and_instance(&mut self) -> Result<(), ScenarioError> {
if self.password.is_none() {
return Err(ScenarioError::with(
"Must set Secret Password before starting a cluster",
));
}
let create_db_cluster = self
.rds
.create_db_cluster(
DB_CLUSTER_IDENTIFIER,
DB_CLUSTER_PARAMETER_GROUP_NAME,
DB_ENGINE,
self.engine_version.as_deref().expect("engine version"),
self.username.as_deref().expect("username"),
self.password
.replace(SecretString::new("".to_string()))
.expect("password"),
)
.await;
if let Err(err) = create_db_cluster {
return Err(ScenarioError::new(
"Failed to create DB Cluster with cluster group",
&err,
));
}
self.db_cluster_identifier = create_db_cluster
.unwrap()
.db_cluster
.and_then(|c| c.db_cluster_identifier);
if self.db_cluster_identifier.is_none() {
return Err(ScenarioError::with("Created DB Cluster missing Identifier"));
}
info!(
"Started a db cluster: {}",
self.db_cluster_identifier
.as_deref()
.unwrap_or("Missing ARN")
);
let create_db_instance = self
.rds
.create_db_instance(
self.db_cluster_identifier.as_deref().expect("cluster name"),
DB_INSTANCE_IDENTIFIER,
self.instance_class.as_deref().expect("instance class"),
DB_ENGINE,
)
.await;
if let Err(err) = create_db_instance {
return Err(ScenarioError::new(
"Failed to create Instance in DB Cluster",
&err,
));
}
self.db_instance_identifier = create_db_instance
.unwrap()
.db_instance
.and_then(|i| i.db_instance_identifier);
// Cluster creation can take up to 20 minutes to become available
let cluster_max_wait = Duration::from_secs(20 * 60);
let waiter = Waiter::builder().max(cluster_max_wait).build();
while waiter.sleep().await.is_ok() {
let cluster = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = cluster {
warn!(?err, "Failed to describe cluster while waiting for ready");
continue;
}
let instance = self
.rds
.describe_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = instance {
return Err(ScenarioError::new(
"Failed to find instance for cluster",
&err,
));
}
let instances_available = instance
.unwrap()
.db_instances()
.iter()
.all(|instance| instance.db_instance_status() == Some("Available"));
let endpoints = self
.rds
.describe_db_cluster_endpoints(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = endpoints {
return Err(ScenarioError::new(
"Failed to find endpoint for cluster",
&err,
));
}
let endpoints_available = endpoints
.unwrap()
.db_cluster_endpoints()
.iter()
.all(|endpoint| endpoint.status() == Some("available"));
if instances_available && endpoints_available {
return Ok(());
}
}
Err(ScenarioError::with("timed out waiting for cluster"))
}
pub async fn describe_db_clusters(
&self,
id: &str,
) -> Result> {
self.inner
.describe_db_clusters()
.db_cluster_identifier(id)
.send()
.await
}
#[tokio::test]
async fn test_start_cluster_and_instance() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_describe_db_instance()
.with(eq("RustSDKCodeExamplesDBInstance"))
.return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.with(eq("RustSDKCodeExamplesDBCluster"))
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
assert!(scenario
.password
.replace(SecretString::new("BAD SECRET".into()))
.unwrap()
.expose_secret()
.is_empty());
assert_eq!(
scenario.db_cluster_identifier,
Some("RustSDKCodeExamplesDBCluster".into())
);
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Err(SdkError::service_error(
CreateDBClusterError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _}) if message == "Failed to create DB Cluster with cluster group")
}
#[tokio::test]
async fn test_start_cluster_and_instance_cluster_create_missing_id() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.return_once(|_, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context:_ }) if message == "Created DB Cluster missing Identifier");
}
#[tokio::test]
async fn test_start_cluster_and_instance_instance_create_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.return_once(|_, _, _, _| {
Err(SdkError::service_error(
CreateDBInstanceError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"create db instance error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
let create = scenario.start_cluster_and_instance().await;
assert_matches!(create, Err(ScenarioError { message, context: _ }) if message == "Failed to create Instance in DB Cluster")
}
#[tokio::test]
async fn test_start_cluster_and_instance_wait_hiccup() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster()
.withf(|id, params, engine, version, username, password| {
assert_eq!(id, "RustSDKCodeExamplesDBCluster");
assert_eq!(params, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(engine, "aurora-mysql");
assert_eq!(version, "aurora-mysql8.0");
assert_eq!(username, "test username");
assert_eq!(password.expose_secret(), "test password");
true
})
.return_once(|id, _, _, _, _, _| {
Ok(CreateDbClusterOutput::builder()
.db_cluster(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds
.expect_create_db_instance()
.withf(|cluster, name, class, engine| {
assert_eq!(cluster, "RustSDKCodeExamplesDBCluster");
assert_eq!(name, "RustSDKCodeExamplesDBInstance");
assert_eq!(class, "m5.large");
assert_eq!(engine, "aurora-mysql");
true
})
.return_once(|cluster, name, class, _| {
Ok(CreateDbInstanceOutput::builder()
.db_instance(
DbInstance::builder()
.db_cluster_identifier(cluster)
.db_instance_identifier(name)
.db_instance_class(class)
.build(),
)
.build())
});
mock_rds
.expect_describe_db_clusters()
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe cluster error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
})
.with(eq("RustSDKCodeExamplesDBCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(DbCluster::builder().db_cluster_identifier(id).build())
.build())
});
mock_rds.expect_describe_db_instance().return_once(|name| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_instance_identifier(name)
.db_instance_status("Available")
.build(),
)
.build())
});
mock_rds
.expect_describe_db_cluster_endpoints()
.return_once(|_| {
Ok(DescribeDbClusterEndpointsOutput::builder()
.db_cluster_endpoints(DbClusterEndpoint::builder().status("available").build())
.build())
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_version = Some("aurora-mysql8.0".into());
scenario.instance_class = Some("m5.large".into());
scenario.username = Some("test username".into());
scenario.password = Some(SecretString::new("test password".into()));
tokio::time::pause();
let assertions = tokio::spawn(async move {
let create = scenario.start_cluster_and_instance().await;
assert!(create.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::advance(Duration::from_secs(1)).await;
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, consultez la section [Description DBClusters](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_clusters) dans le *AWS SDK pour la référence de l'API Rust*.
### `DescribeDBEngineVersions`
L'exemple de code suivant montre comment utiliser`DescribeDBEngineVersions`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Get available engine families for Aurora MySql. rds.DescribeDbEngineVersions(Engine='aurora-mysql') and build a set of the 'DBParameterGroupFamily' field values. I get {aurora-mysql8.0, aurora-mysql5.7}.
pub async fn get_engines(&self) -> Result>, ScenarioError> {
let describe_db_engine_versions = self.rds.describe_db_engine_versions(DB_ENGINE).await;
trace!(versions=?describe_db_engine_versions, "full list of versions");
if let Err(err) = describe_db_engine_versions {
return Err(ScenarioError::new(
"Failed to retrieve DB Engine Versions",
&err,
));
};
let version_count = describe_db_engine_versions
.as_ref()
.map(|o| o.db_engine_versions().len())
.unwrap_or_default();
info!(version_count, "got list of versions");
// Create a map of engine families to their available versions.
let mut versions = HashMap::>::new();
describe_db_engine_versions
.unwrap()
.db_engine_versions()
.iter()
.filter_map(
|v| match (&v.db_parameter_group_family, &v.engine_version) {
(Some(family), Some(version)) => Some((family.clone(), version.clone())),
_ => None,
},
)
.for_each(|(family, version)| versions.entry(family).or_default().push(version));
Ok(versions)
}
pub async fn describe_db_engine_versions(
&self,
engine: &str,
) -> Result> {
self.inner
.describe_db_engine_versions()
.engine(engine)
.send()
.await
}
#[tokio::test]
async fn test_scenario_get_engines() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_engine_versions()
.with(eq("aurora-mysql"))
.return_once(|_| {
Ok(DescribeDbEngineVersionsOutput::builder()
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f1")
.engine_version("f1a")
.build(),
)
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f1")
.engine_version("f1b")
.build(),
)
.db_engine_versions(
DbEngineVersion::builder()
.db_parameter_group_family("f2")
.engine_version("f2a")
.build(),
)
.db_engine_versions(DbEngineVersion::builder().build())
.build())
});
let scenario = AuroraScenario::new(mock_rds);
let versions_map = scenario.get_engines().await;
assert_eq!(
versions_map,
Ok(HashMap::from([
("f1".into(), vec!["f1a".into(), "f1b".into()]),
("f2".into(), vec!["f2a".into()])
]))
);
}
#[tokio::test]
async fn test_scenario_get_engines_failed() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_db_engine_versions()
.with(eq("aurora-mysql"))
.return_once(|_| {
Err(SdkError::service_error(
DescribeDBEngineVersionsError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_db_engine_versions error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let scenario = AuroraScenario::new(mock_rds);
let versions_map = scenario.get_engines().await;
assert_matches!(
versions_map,
Err(ScenarioError { message, context: _ }) if message == "Failed to retrieve DB Engine Versions"
);
}
```
+ Pour plus de détails sur l'API, consultez la section [Description DBEngine des versions](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_engine_versions) dans le *AWS SDK pour la référence de l'API Rust*.
### `DescribeDBInstances`
L'exemple de code suivant montre comment utiliser`DescribeDBInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
pub async fn clean_up(self) -> Result<(), Vec> {
let mut clean_up_errors: Vec = vec![];
// Delete the instance. rds.DeleteDbInstance.
let delete_db_instance = self
.rds
.delete_db_instance(
self.db_instance_identifier
.as_deref()
.expect("instance identifier"),
)
.await;
if let Err(err) = delete_db_instance {
let identifier = self
.db_instance_identifier
.as_deref()
.unwrap_or("Missing Instance Identifier");
let message = format!("failed to delete db instance {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance to delete
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_instances = self.rds.describe_db_instances().await;
if let Err(err) = describe_db_instances {
clean_up_errors.push(ScenarioError::new(
"Failed to check instance state during deletion",
&err,
));
break;
}
let db_instances = describe_db_instances
.unwrap()
.db_instances()
.iter()
.filter(|instance| instance.db_cluster_identifier == self.db_cluster_identifier)
.cloned()
.collect::>();
if db_instances.is_empty() {
trace!("Delete Instance waited and no instances were found");
break;
}
match db_instances.first().unwrap().db_instance_status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but instances is in {status}");
continue;
}
None => {
warn!("No status for DB instance");
break;
}
}
}
}
// Delete the DB cluster. rds.DeleteDbCluster.
let delete_db_cluster = self
.rds
.delete_db_cluster(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = delete_db_cluster {
let identifier = self
.db_cluster_identifier
.as_deref()
.unwrap_or("Missing DB Cluster Identifier");
let message = format!("failed to delete db cluster {identifier}");
clean_up_errors.push(ScenarioError::new(message, &err));
} else {
// Wait for the instance and cluster to fully delete. rds.DescribeDbInstances and rds.DescribeDbClusters until both are not found.
let waiter = Waiter::default();
while waiter.sleep().await.is_ok() {
let describe_db_clusters = self
.rds
.describe_db_clusters(
self.db_cluster_identifier
.as_deref()
.expect("cluster identifier"),
)
.await;
if let Err(err) = describe_db_clusters {
clean_up_errors.push(ScenarioError::new(
"Failed to check cluster state during deletion",
&err,
));
break;
}
let describe_db_clusters = describe_db_clusters.unwrap();
let db_clusters = describe_db_clusters.db_clusters();
if db_clusters.is_empty() {
trace!("Delete cluster waited and no clusters were found");
break;
}
match db_clusters.first().unwrap().status() {
Some("Deleting") => continue,
Some(status) => {
info!("Attempting to delete but clusters is in {status}");
continue;
}
None => {
warn!("No status for DB cluster");
break;
}
}
}
}
// Delete the DB cluster parameter group. rds.DeleteDbClusterParameterGroup.
let delete_db_cluster_parameter_group = self
.rds
.delete_db_cluster_parameter_group(
self.db_cluster_parameter_group
.map(|g| {
g.db_cluster_parameter_group_name
.unwrap_or_else(|| DB_CLUSTER_PARAMETER_GROUP_NAME.to_string())
})
.as_deref()
.expect("cluster parameter group name"),
)
.await;
if let Err(error) = delete_db_cluster_parameter_group {
clean_up_errors.push(ScenarioError::new(
"Failed to delete the db cluster parameter group",
&error,
))
}
if clean_up_errors.is_empty() {
Ok(())
} else {
Err(clean_up_errors)
}
}
pub async fn describe_db_instances(
&self,
) -> Result> {
self.inner.describe_db_instances().send().await
}
#[tokio::test]
async fn test_scenario_clean_up() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| Ok(DescribeDbInstancesOutput::builder().build()));
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| Ok(DescribeDbClustersOutput::builder().build()));
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_ok());
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
#[tokio::test]
async fn test_scenario_clean_up_errors() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_delete_db_instance()
.with(eq("MockInstance"))
.return_once(|_| Ok(DeleteDbInstanceOutput::builder().build()));
mock_rds
.expect_describe_db_instances()
.with()
.times(1)
.returning(|| {
Ok(DescribeDbInstancesOutput::builder()
.db_instances(
DbInstance::builder()
.db_cluster_identifier("MockCluster")
.db_instance_status("Deleting")
.build(),
)
.build())
})
.with()
.times(1)
.returning(|| {
Err(SdkError::service_error(
DescribeDBInstancesError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db instances error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster()
.with(eq("MockCluster"))
.return_once(|_| Ok(DeleteDbClusterOutput::builder().build()));
mock_rds
.expect_describe_db_clusters()
.with(eq("MockCluster"))
.times(1)
.returning(|id| {
Ok(DescribeDbClustersOutput::builder()
.db_clusters(
DbCluster::builder()
.db_cluster_identifier(id)
.status("Deleting")
.build(),
)
.build())
})
.with(eq("MockCluster"))
.times(1)
.returning(|_| {
Err(SdkError::service_error(
DescribeDBClustersError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe db clusters error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
mock_rds
.expect_delete_db_cluster_parameter_group()
.with(eq("MockParamGroup"))
.return_once(|_| Ok(DeleteDbClusterParameterGroupOutput::builder().build()));
let mut scenario = AuroraScenario::new(mock_rds);
scenario.db_cluster_identifier = Some(String::from("MockCluster"));
scenario.db_instance_identifier = Some(String::from("MockInstance"));
scenario.db_cluster_parameter_group = Some(
DbClusterParameterGroup::builder()
.db_cluster_parameter_group_name("MockParamGroup")
.build(),
);
tokio::time::pause();
let assertions = tokio::spawn(async move {
let clean_up = scenario.clean_up().await;
assert!(clean_up.is_err());
let errs = clean_up.unwrap_err();
assert_eq!(errs.len(), 2);
assert_matches!(errs.first(), Some(ScenarioError {message, context: _}) if message == "Failed to check instance state during deletion");
assert_matches!(errs.get(1), Some(ScenarioError {message, context: _}) if message == "Failed to check cluster state during deletion");
});
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Instances
tokio::time::advance(Duration::from_secs(1)).await; // Wait for first Describe Cluster
tokio::time::advance(Duration::from_secs(1)).await; // Wait for second Describe Cluster
tokio::time::resume();
let _ = assertions.await;
}
```
+ Pour plus de détails sur l'API, consultez la section [Description DBInstances](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_db_instances) dans le *AWS SDK pour la référence de l'API Rust*.
### `DescribeOrderableDBInstanceOptions`
L'exemple de code suivant montre comment utiliser`DescribeOrderableDBInstanceOptions`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
pub async fn get_instance_classes(&self) -> Result, ScenarioError> {
let describe_orderable_db_instance_options_items = self
.rds
.describe_orderable_db_instance_options(
DB_ENGINE,
self.engine_version
.as_ref()
.expect("engine version for db instance options")
.as_str(),
)
.await;
describe_orderable_db_instance_options_items
.map(|options| {
options
.iter()
.filter(|o| o.storage_type() == Some("aurora"))
.map(|o| o.db_instance_class().unwrap_or_default().to_string())
.collect::>()
})
.map_err(|err| ScenarioError::new("Could not get available instance classes", &err))
}
pub async fn describe_orderable_db_instance_options(
&self,
engine: &str,
engine_version: &str,
) -> Result, SdkError>
{
self.inner
.describe_orderable_db_instance_options()
.engine(engine)
.engine_version(engine_version)
.into_paginator()
.items()
.send()
.try_collect()
.await
}
#[tokio::test]
async fn test_scenario_get_instance_classes() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_create_db_cluster_parameter_group()
.return_once(|_, _, _| {
Ok(CreateDbClusterParameterGroupOutput::builder()
.db_cluster_parameter_group(DbClusterParameterGroup::builder().build())
.build())
});
mock_rds
.expect_describe_orderable_db_instance_options()
.with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
.return_once(|_, _| {
Ok(vec![
OrderableDbInstanceOption::builder()
.db_instance_class("t1")
.storage_type("aurora")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t1")
.storage_type("aurora-iopt1")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t2")
.storage_type("aurora")
.build(),
OrderableDbInstanceOption::builder()
.db_instance_class("t3")
.storage_type("aurora")
.build(),
])
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario
.set_engine("aurora-mysql", "aurora-mysql8.0")
.await
.expect("set engine");
let instance_classes = scenario.get_instance_classes().await;
assert_eq!(
instance_classes,
Ok(vec!["t1".into(), "t2".into(), "t3".into()])
);
}
#[tokio::test]
async fn test_scenario_get_instance_classes_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_describe_orderable_db_instance_options()
.with(eq("aurora-mysql"), eq("aurora-mysql8.0"))
.return_once(|_, _| {
Err(SdkError::service_error(
DescribeOrderableDBInstanceOptionsError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"describe_orderable_db_instance_options_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let mut scenario = AuroraScenario::new(mock_rds);
scenario.engine_family = Some("aurora-mysql".into());
scenario.engine_version = Some("aurora-mysql8.0".into());
let instance_classes = scenario.get_instance_classes().await;
assert_matches!(
instance_classes,
Err(ScenarioError {message, context: _}) if message == "Could not get available instance classes"
);
}
```
+ Pour plus de détails sur l'API, consultez la section [DescribeOrderableDBInstanceOptions](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.describe_orderable_db_instance_options) du *AWS SDK pour la référence de l'API Rust*.
### `ModifyDBClusterParameterGroup`
L'exemple de code suivant montre comment utiliser`ModifyDBClusterParameterGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/aurora#code-examples).
```
// Modify both the auto_increment_offset and auto_increment_increment parameters in one call in the custom parameter group. Set their ParameterValue fields to a new allowable value. rds.ModifyDbClusterParameterGroup.
pub async fn update_auto_increment(
&self,
offset: u8,
increment: u8,
) -> Result<(), ScenarioError> {
let modify_db_cluster_parameter_group = self
.rds
.modify_db_cluster_parameter_group(
DB_CLUSTER_PARAMETER_GROUP_NAME,
vec![
Parameter::builder()
.parameter_name("auto_increment_offset")
.parameter_value(format!("{offset}"))
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
Parameter::builder()
.parameter_name("auto_increment_increment")
.parameter_value(format!("{increment}"))
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
],
)
.await;
if let Err(error) = modify_db_cluster_parameter_group {
return Err(ScenarioError::new(
"Failed to modify cluster parameter group",
&error,
));
}
Ok(())
}
pub async fn modify_db_cluster_parameter_group(
&self,
name: &str,
parameters: Vec,
) -> Result>
{
self.inner
.modify_db_cluster_parameter_group()
.db_cluster_parameter_group_name(name)
.set_parameters(Some(parameters))
.send()
.await
}
#[tokio::test]
async fn test_scenario_update_auto_increment() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_modify_db_cluster_parameter_group()
.withf(|name, params| {
assert_eq!(name, "RustSDKCodeExamplesDBParameterGroup");
assert_eq!(
params,
&vec![
Parameter::builder()
.parameter_name("auto_increment_offset")
.parameter_value("10")
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
Parameter::builder()
.parameter_name("auto_increment_increment")
.parameter_value("20")
.apply_method(aws_sdk_rds::types::ApplyMethod::Immediate)
.build(),
]
);
true
})
.return_once(|_, _| Ok(ModifyDbClusterParameterGroupOutput::builder().build()));
let scenario = AuroraScenario::new(mock_rds);
scenario
.update_auto_increment(10, 20)
.await
.expect("update auto increment");
}
#[tokio::test]
async fn test_scenario_update_auto_increment_error() {
let mut mock_rds = MockRdsImpl::default();
mock_rds
.expect_modify_db_cluster_parameter_group()
.return_once(|_, _| {
Err(SdkError::service_error(
ModifyDBClusterParameterGroupError::unhandled(Box::new(Error::new(
ErrorKind::Other,
"modify_db_cluster_parameter_group_error",
))),
Response::new(StatusCode::try_from(400).unwrap(), SdkBody::empty()),
))
});
let scenario = AuroraScenario::new(mock_rds);
let update = scenario.update_auto_increment(10, 20).await;
assert_matches!(update, Err(ScenarioError { message, context: _}) if message == "Failed to modify cluster parameter group");
}
```
+ Pour plus de détails sur l'API, voir [Modifier DBCluster ParameterGroup](https://docs.rs/aws-sdk-rds/latest/aws_sdk_rds/client/struct.Client.html#method.modify_db_cluster_parameter_group) dans le *AWS SDK pour la référence de l'API Rust*.
# Exemples Auto Scaling avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Auto Scaling.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Mise en route](#get_started)
+ [Principes de base](#basics)
+ [Actions](#actions)
## Mise en route
### Bonjour Auto Scaling
L'exemple de code suivant montre comment commencer à utiliser Auto Scaling.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
async fn list_groups(client: &Client) -> Result<(), Error> {
let resp = client.describe_auto_scaling_groups().send().await?;
println!("Groups:");
let groups = resp.auto_scaling_groups();
for group in groups {
println!(
"Name: {}",
group.auto_scaling_group_name().unwrap_or("Unknown")
);
println!(
"Arn: {}",
group.auto_scaling_group_arn().unwrap_or("unknown"),
);
println!("Zones: {:?}", group.availability_zones(),);
println!();
}
println!("Found {} group(s)", groups.len());
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)la section de *référence de l'API AWS SDK for Rust*.
## Principes de base
### Principes de base
L’exemple de code suivant illustre comment :
+ créer un groupe Amazon EC2 Auto Scaling avec un modèle de lancement et des zones de disponibilité, et obtenir des informations sur l’exécution des instances ;
+ Activez la collecte CloudWatch de métriques Amazon.
+ mettre à jour la capacité souhaitée du groupe et attendre qu’une instance démarre ;
+ résilier la plus ancienne instance du groupe ;
+ répertorier les activités de mise à l’échelle qui se produisent en réponse aux demandes des utilisateurs et aux modifications de capacité ;
+ Obtenez des statistiques pour CloudWatch les métriques, puis nettoyez les ressources.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
[package]
name = "autoscaling-code-examples"
version = "0.1.0"
authors = ["Doug Schwartz ", "David Souther "]
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
aws-config = { version = "1.0.1", features = ["behavior-version-latest"] }
aws-sdk-autoscaling = { version = "1.3.0" }
aws-sdk-ec2 = { version = "1.3.0" }
aws-types = { version = "1.0.1" }
tokio = { version = "1.20.1", features = ["full"] }
clap = { version = "4.4", features = ["derive"] }
tracing-subscriber = { version = "0.3.15", features = ["env-filter"] }
anyhow = "1.0.75"
tracing = "0.1.37"
tokio-stream = "0.1.14"
use std::{collections::BTreeSet, fmt::Display};
use anyhow::anyhow;
use autoscaling_code_examples::scenario::{AutoScalingScenario, ScenarioError};
use tracing::{info, warn};
async fn show_scenario_description(scenario: &AutoScalingScenario, event: &str) {
let description = scenario.describe_scenario().await;
info!("DescribeAutoScalingInstances: {event}\n{description}");
}
#[derive(Default, Debug)]
struct Warnings(Vec);
impl Warnings {
pub fn push(&mut self, warning: &str, error: ScenarioError) {
let formatted = format!("{warning}: {error}");
warn!("{formatted}");
self.0.push(formatted);
}
pub fn is_empty(&self) -> bool {
self.0.is_empty()
}
}
impl Display for Warnings {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
writeln!(f, "Warnings:")?;
for warning in &self.0 {
writeln!(f, "{: >4}- {warning}", "")?;
}
Ok(())
}
}
#[tokio::main]
async fn main() -> Result<(), anyhow::Error> {
tracing_subscriber::fmt::init();
let shared_config = aws_config::from_env().load().await;
let mut warnings = Warnings::default();
// 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template.
// 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance.
// 4. EnableMetricsCollection: enable all metrics or a subset.
let scenario = match AutoScalingScenario::prepare_scenario(&shared_config).await {
Ok(scenario) => scenario,
Err(errs) => {
let err_str = errs
.into_iter()
.map(|e| e.to_string())
.collect::>()
.join(", ");
return Err(anyhow!("Failed to initialize scenario: {err_str}"));
}
};
info!("Prepared autoscaling scenario:\n{scenario}");
let stable = scenario.wait_for_stable(1).await;
if let Err(err) = stable {
warnings.push(
"There was a problem while waiting for group to be stable",
err,
);
}
// 3. DescribeAutoScalingInstances: show that one instance has launched.
show_scenario_description(
&scenario,
"show that the group was created and one instance has launched",
)
.await;
// 5. UpdateAutoScalingGroup: update max size to 3.
let scale_max_size = scenario.scale_max_size(3).await;
if let Err(err) = scale_max_size {
warnings.push("There was a problem scaling max size", err);
}
// 6. DescribeAutoScalingGroups: the current state of the group
show_scenario_description(
&scenario,
"show the current state of the group after setting max size",
)
.await;
// 7. SetDesiredCapacity: set desired capacity to 2.
let scale_desired_capacity = scenario.scale_desired_capacity(2).await;
if let Err(err) = scale_desired_capacity {
warnings.push("There was a problem setting desired capacity", err);
}
// Wait for a second instance to launch.
let stable = scenario.wait_for_stable(2).await;
if let Err(err) = stable {
warnings.push(
"There was a problem while waiting for group to be stable",
err,
);
}
// 8. DescribeAutoScalingInstances: show that two instances are launched.
show_scenario_description(
&scenario,
"show that two instances are launched after setting desired capacity",
)
.await;
let ids_before = scenario
.list_instances()
.await
.map(|v| v.into_iter().collect::>())
.unwrap_or_default();
// 9. TerminateInstanceInAutoScalingGroup: terminate one of the instances in the group.
let terminate_some_instance = scenario.terminate_some_instance().await;
if let Err(err) = terminate_some_instance {
warnings.push("There was a problem replacing an instance", err);
}
let wait_after_terminate = scenario.wait_for_stable(1).await;
if let Err(err) = wait_after_terminate {
warnings.push(
"There was a problem waiting after terminating an instance",
err,
);
}
let wait_scale_up_after_terminate = scenario.wait_for_stable(2).await;
if let Err(err) = wait_scale_up_after_terminate {
warnings.push(
"There was a problem waiting for scale up after terminating an instance",
err,
);
}
let ids_after = scenario
.list_instances()
.await
.map(|v| v.into_iter().collect::>())
.unwrap_or_default();
let difference = ids_after.intersection(&ids_before).count();
if !(difference == 1 && ids_before.len() == 2 && ids_after.len() == 2) {
warnings.push(
"Before and after set not different",
ScenarioError::with(format!("{difference}")),
);
}
// 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
show_scenario_description(
&scenario,
"list the scaling activities that have occurred for the group so far",
)
.await;
// 11. DisableMetricsCollection
let scale_group = scenario.scale_group_to_zero().await;
if let Err(err) = scale_group {
warnings.push("There was a problem scaling the group to 0", err);
}
show_scenario_description(&scenario, "Scenario scaled to 0").await;
// 12. DeleteAutoScalingGroup (to delete the group you must stop all instances):
// 13. Delete LaunchTemplate.
let clean_scenario = scenario.clean_scenario().await;
if let Err(errs) = clean_scenario {
for err in errs {
warnings.push("There was a problem cleaning the scenario", err);
}
} else {
info!("The scenario has been cleaned up!");
}
if warnings.is_empty() {
Ok(())
} else {
Err(anyhow!(
"There were warnings during scenario execution:\n{warnings}"
))
}
}
pub mod scenario;
use std::{
error::Error,
fmt::{Debug, Display},
time::{Duration, SystemTime},
};
use anyhow::anyhow;
use aws_config::SdkConfig;
use aws_sdk_autoscaling::{
error::{DisplayErrorContext, ProvideErrorMetadata},
types::{Activity, AutoScalingGroup, LaunchTemplateSpecification},
};
use aws_sdk_ec2::types::RequestLaunchTemplateData;
use tracing::trace;
const LAUNCH_TEMPLATE_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_template_from_Rust_SDK";
const AUTOSCALING_GROUP_NAME: &str = "SDK_Code_Examples_EC2_Autoscaling_Group_from_Rust_SDK";
const MAX_WAIT: Duration = Duration::from_secs(5 * 60); // Wait at most 25 seconds.
const WAIT_TIME: Duration = Duration::from_millis(500); // Wait half a second at a time.
struct Waiter {
start: SystemTime,
max: Duration,
}
impl Waiter {
fn new() -> Self {
Waiter {
start: SystemTime::now(),
max: MAX_WAIT,
}
}
async fn sleep(&self) -> Result<(), ScenarioError> {
if SystemTime::now()
.duration_since(self.start)
.unwrap_or(Duration::MAX)
> self.max
{
Err(ScenarioError::with(
"Exceeded maximum wait duration for stable group",
))
} else {
tokio::time::sleep(WAIT_TIME).await;
Ok(())
}
}
}
pub struct AutoScalingScenario {
ec2: aws_sdk_ec2::Client,
autoscaling: aws_sdk_autoscaling::Client,
launch_template_arn: String,
auto_scaling_group_name: String,
}
impl Display for AutoScalingScenario {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.write_fmt(format_args!(
"\tLaunch Template ID: {}\n",
self.launch_template_arn
))?;
f.write_fmt(format_args!(
"\tScaling Group Name: {}\n",
self.auto_scaling_group_name
))?;
Ok(())
}
}
pub struct AutoScalingScenarioDescription {
group: Result, ScenarioError>,
instances: Result, anyhow::Error>,
activities: Result, anyhow::Error>,
}
impl Display for AutoScalingScenarioDescription {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
writeln!(f, "\t Group status:")?;
match &self.group {
Ok(groups) => {
for status in groups {
writeln!(f, "\t\t- {status}")?;
}
}
Err(e) => writeln!(f, "\t\t! - {e}")?,
}
writeln!(f, "\t Instances:")?;
match &self.instances {
Ok(instances) => {
for instance in instances {
writeln!(f, "\t\t- {instance}")?;
}
}
Err(e) => writeln!(f, "\t\t! {e}")?,
}
writeln!(f, "\t Activities:")?;
match &self.activities {
Ok(activities) => {
for activity in activities {
writeln!(
f,
"\t\t- {} Progress: {}% Status: {:?} End: {:?}",
activity.cause().unwrap_or("Unknown"),
activity.progress.unwrap_or(-1),
activity.status_code(),
// activity.status_message().unwrap_or_default()
activity.end_time(),
)?;
}
}
Err(e) => writeln!(f, "\t\t! {e}")?,
}
Ok(())
}
}
#[derive(Debug)]
struct MetadataError {
message: Option,
code: Option,
}
impl MetadataError {
fn from(err: &dyn ProvideErrorMetadata) -> Self {
MetadataError {
message: err.message().map(|s| s.to_string()),
code: err.code().map(|s| s.to_string()),
}
}
}
impl Display for MetadataError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let display = match (&self.message, &self.code) {
(None, None) => "Unknown".to_string(),
(None, Some(code)) => format!("({code})"),
(Some(message), None) => message.to_string(),
(Some(message), Some(code)) => format!("{message} ({code})"),
};
write!(f, "{display}")
}
}
#[derive(Debug)]
pub struct ScenarioError {
message: String,
context: Option,
}
impl ScenarioError {
pub fn with(message: impl Into) -> Self {
ScenarioError {
message: message.into(),
context: None,
}
}
pub fn new(message: impl Into, err: &dyn ProvideErrorMetadata) -> Self {
ScenarioError {
message: message.into(),
context: Some(MetadataError::from(err)),
}
}
}
impl Error for ScenarioError {
// While `Error` can capture `source` information about the underlying error, for this example
// the ScenarioError captures the underlying information in MetadataError and treats it as a
// single Error from this Crate. In other contexts, it may be appropriate to model the error
// as including the SdkError as its source.
}
impl Display for ScenarioError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match &self.context {
Some(c) => write!(f, "{}: {}", self.message, c),
None => write!(f, "{}", self.message),
}
}
}
impl AutoScalingScenario {
pub async fn prepare_scenario(sdk_config: &SdkConfig) -> Result> {
let ec2 = aws_sdk_ec2::Client::new(sdk_config);
let autoscaling = aws_sdk_autoscaling::Client::new(sdk_config);
let auto_scaling_group_name = String::from(AUTOSCALING_GROUP_NAME);
// Before creating any resources, prepare the list of AZs
let availablity_zones = ec2.describe_availability_zones().send().await;
if let Err(err) = availablity_zones {
return Err(vec![ScenarioError::new("Failed to find AZs", &err)]);
}
let availability_zones: Vec = availablity_zones
.unwrap()
.availability_zones
.unwrap_or_default()
.iter()
.take(3)
.map(|z| z.zone_name.clone().unwrap())
.collect();
// 1. Create an EC2 launch template that you'll use to create an auto scaling group. Bonus: use SDK with EC2.CreateLaunchTemplate to create the launch template.
// * Recommended: InstanceType='t1.micro', ImageId='ami-0ca285d4c2cda3300'
let create_launch_template = ec2
.create_launch_template()
.launch_template_name(LAUNCH_TEMPLATE_NAME)
.launch_template_data(
RequestLaunchTemplateData::builder()
.instance_type(aws_sdk_ec2::types::InstanceType::T1Micro)
.image_id("ami-0ca285d4c2cda3300")
.build(),
)
.send()
.await
.map_err(|err| vec![ScenarioError::new("Failed to create launch template", &err)])?;
let launch_template_arn = match create_launch_template.launch_template {
Some(launch_template) => launch_template.launch_template_id.unwrap_or_default(),
None => {
// Try to delete the launch template
let _ = ec2
.delete_launch_template()
.launch_template_name(LAUNCH_TEMPLATE_NAME)
.send()
.await;
return Err(vec![ScenarioError::with("Failed to load launch template")]);
}
};
// 2. CreateAutoScalingGroup: pass it the launch template you created in step 0. Give it min/max of 1 instance.
// You can use EC2.describe_availability_zones() to get a list of AZs (you have to specify an AZ when you create the group).
// Wait for instance to launch. Use a waiter if you have one, otherwise DescribeAutoScalingInstances until LifecycleState='InService'
if let Err(err) = autoscaling
.create_auto_scaling_group()
.auto_scaling_group_name(auto_scaling_group_name.as_str())
.launch_template(
LaunchTemplateSpecification::builder()
.launch_template_id(launch_template_arn.clone())
.version("$Latest")
.build(),
)
.max_size(1)
.min_size(1)
.set_availability_zones(Some(availability_zones))
.send()
.await
{
let mut errs = vec![ScenarioError::new(
"Failed to create autoscaling group",
&err,
)];
if let Err(err) = autoscaling
.delete_auto_scaling_group()
.auto_scaling_group_name(auto_scaling_group_name.as_str())
.send()
.await
{
errs.push(ScenarioError::new(
"Failed to clean up autoscaling group",
&err,
));
}
if let Err(err) = ec2
.delete_launch_template()
.launch_template_id(launch_template_arn.clone())
.send()
.await
{
errs.push(ScenarioError::new(
"Failed to clean up launch template",
&err,
));
}
return Err(errs);
}
let scenario = AutoScalingScenario {
ec2,
autoscaling: autoscaling.clone(), // Clients are cheap so cloning here to prevent a move is ok.
auto_scaling_group_name: auto_scaling_group_name.clone(),
launch_template_arn,
};
let enable_metrics_collection = autoscaling
.enable_metrics_collection()
.auto_scaling_group_name(auto_scaling_group_name.as_str())
.granularity("1Minute")
.set_metrics(Some(vec![
String::from("GroupMinSize"),
String::from("GroupMaxSize"),
String::from("GroupDesiredCapacity"),
String::from("GroupInServiceInstances"),
String::from("GroupTotalInstances"),
]))
.send()
.await;
match enable_metrics_collection {
Ok(_) => Ok(scenario),
Err(err) => {
scenario.clean_scenario().await?;
Err(vec![ScenarioError::new(
"Failed to enable metrics collections for group",
&err,
)])
}
}
}
pub async fn clean_scenario(self) -> Result<(), Vec> {
let _ = self.wait_for_no_scaling().await;
let delete_group = self
.autoscaling
.delete_auto_scaling_group()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.send()
.await;
// 14. Delete LaunchTemplate.
let delete_launch_template = self
.ec2
.delete_launch_template()
.launch_template_id(self.launch_template_arn.clone())
.send()
.await;
let early_exit = match (delete_group, delete_launch_template) {
(Ok(_), Ok(_)) => Ok(()),
(Ok(_), Err(e)) => Err(vec![ScenarioError::new(
"There was an error cleaning the launch template",
&e,
)]),
(Err(e), Ok(_)) => Err(vec![ScenarioError::new(
"There was an error cleaning the scale group",
&e,
)]),
(Err(e1), Err(e2)) => Err(vec![
ScenarioError::new("Multiple error cleaning the scenario Scale Group", &e1),
ScenarioError::new("Multiple error cleaning the scenario Launch Template", &e2),
]),
};
if early_exit.is_err() {
early_exit
} else {
// Wait for delete_group to finish
let waiter = Waiter::new();
let mut errors = Vec::::new();
while errors.len() < 3 {
if let Err(e) = waiter.sleep().await {
errors.push(e);
continue;
}
let describe_group = self
.autoscaling
.describe_auto_scaling_groups()
.auto_scaling_group_names(self.auto_scaling_group_name.clone())
.send()
.await;
match describe_group {
Ok(group) => match group.auto_scaling_groups().first() {
Some(group) => {
if group.status() != Some("Delete in progress") {
errors.push(ScenarioError::with(format!(
"Group in an unknown state while deleting: {}",
group.status().unwrap_or("unknown error")
)));
return Err(errors);
}
}
None => return Ok(()),
},
Err(err) => {
errors.push(ScenarioError::new("Failed to describe autoscaling group during cleanup 3 times, last error", &err));
}
}
if errors.len() > 3 {
return Err(errors);
}
}
Err(vec![ScenarioError::with(
"Exited cleanup wait loop without retuning success or failing after three rounds",
)])
}
}
pub async fn describe_scenario(&self) -> AutoScalingScenarioDescription {
let group = self
.autoscaling
.describe_auto_scaling_groups()
.auto_scaling_group_names(self.auto_scaling_group_name.clone())
.send()
.await
.map(|s| {
s.auto_scaling_groups()
.iter()
.map(|s| {
format!(
"{}: {}",
s.auto_scaling_group_name().unwrap_or("Unknown"),
s.status().unwrap_or("Unknown")
)
})
.collect::>()
})
.map_err(|e| {
ScenarioError::new("Failed to describe auto scaling groups for scenario", &e)
});
let instances = self
.list_instances()
.await
.map_err(|e| anyhow!("There was an error listing instances: {e}",));
// 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
// Bonus: use CloudWatch API to get and show some metrics collected for the group.
// CW.ListMetrics with Namespace='AWS/AutoScaling' and Dimensions=[{'Name': 'AutoScalingGroupName', 'Value': }]
// CW.GetMetricStatistics with Statistics='Sum'. Start and End times must be in UTC!
let activities = self
.autoscaling
.describe_scaling_activities()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.into_paginator()
.items()
.send()
.collect::, _>>()
.await
.map_err(|e| {
anyhow!(
"There was an error retrieving scaling activities: {}",
DisplayErrorContext(&e)
)
});
AutoScalingScenarioDescription {
group,
instances,
activities,
}
}
async fn get_group(&self) -> Result {
let describe_auto_scaling_groups = self
.autoscaling
.describe_auto_scaling_groups()
.auto_scaling_group_names(self.auto_scaling_group_name.clone())
.send()
.await;
if let Err(err) = describe_auto_scaling_groups {
return Err(ScenarioError::new(
format!(
"Failed to get status of autoscaling group {}",
self.auto_scaling_group_name.clone()
)
.as_str(),
&err,
));
}
let describe_auto_scaling_groups_output = describe_auto_scaling_groups.unwrap();
let auto_scaling_groups = describe_auto_scaling_groups_output.auto_scaling_groups();
let auto_scaling_group = auto_scaling_groups.first();
if auto_scaling_group.is_none() {
return Err(ScenarioError::with(format!(
"Could not find autoscaling group {}",
self.auto_scaling_group_name.clone()
)));
}
Ok(auto_scaling_group.unwrap().clone())
}
pub async fn wait_for_no_scaling(&self) -> Result<(), ScenarioError> {
let waiter = Waiter::new();
let mut scaling = true;
while scaling {
waiter.sleep().await?;
let describe_activities = self
.autoscaling
.describe_scaling_activities()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.send()
.await
.map_err(|e| {
ScenarioError::new("Failed to get autoscaling activities for group", &e)
})?;
let activities = describe_activities.activities();
trace!(
"Waiting for no scaling found {} activities",
activities.len()
);
scaling = activities.iter().any(|a| a.progress() < Some(100));
}
Ok(())
}
pub async fn wait_for_stable(&self, size: usize) -> Result<(), ScenarioError> {
self.wait_for_no_scaling().await?;
let mut group = self.get_group().await?;
let mut count = count_group_instances(&group);
let waiter = Waiter::new();
while count != size {
trace!("Waiting for stable {size} (current: {count})");
waiter.sleep().await?;
group = self.get_group().await?;
count = count_group_instances(&group);
}
Ok(())
}
pub async fn list_instances(&self) -> Result, ScenarioError> {
// The direct way to list instances is by using DescribeAutoScalingGroup's instances property. However, this returns a Vec, as opposed to a Vec.
// Ok(self.get_group().await?.instances.unwrap_or_default().map(|i| i.instance_id.clone().unwrap_or_default()).filter(|id| !id.is_empty()).collect())
// Alternatively, and for the sake of example, DescribeAutoScalingInstances returns a list that can be filtered by the client.
self.autoscaling
.describe_auto_scaling_instances()
.into_paginator()
.items()
.send()
.try_collect()
.await
.map(|items| {
items
.into_iter()
.filter(|i| {
i.auto_scaling_group_name.as_deref()
== Some(self.auto_scaling_group_name.as_str())
})
.map(|i| i.instance_id.unwrap_or_default())
.filter(|id| !id.is_empty())
.collect::>()
})
.map_err(|err| ScenarioError::new("Failed to get list of auto scaling instances", &err))
}
pub async fn scale_min_size(&self, size: i32) -> Result<(), ScenarioError> {
let update_group = self
.autoscaling
.update_auto_scaling_group()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.min_size(size)
.send()
.await;
if let Err(err) = update_group {
return Err(ScenarioError::new(
format!("Failer to update group to min size ({size}))").as_str(),
&err,
));
}
Ok(())
}
pub async fn scale_max_size(&self, size: i32) -> Result<(), ScenarioError> {
// 5. UpdateAutoScalingGroup: update max size to 3.
let update_group = self
.autoscaling
.update_auto_scaling_group()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.max_size(size)
.send()
.await;
if let Err(err) = update_group {
return Err(ScenarioError::new(
format!("Failed to update group to max size ({size})").as_str(),
&err,
));
}
Ok(())
}
pub async fn scale_desired_capacity(&self, capacity: i32) -> Result<(), ScenarioError> {
// 7. SetDesiredCapacity: set desired capacity to 2.
// Wait for a second instance to launch.
let update_group = self
.autoscaling
.set_desired_capacity()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.desired_capacity(capacity)
.send()
.await;
if let Err(err) = update_group {
return Err(ScenarioError::new(
format!("Failed to update group to desired capacity ({capacity}))").as_str(),
&err,
));
}
Ok(())
}
pub async fn scale_group_to_zero(&self) -> Result<(), ScenarioError> {
// If this fails it's fine, just means there are extra cloudwatch metrics events for the scale-down.
let _ = self
.autoscaling
.disable_metrics_collection()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.send()
.await;
// 12. DeleteAutoScalingGroup (to delete the group you must stop all instances):
// UpdateAutoScalingGroup with MinSize=0
let update_group = self
.autoscaling
.update_auto_scaling_group()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.min_size(0)
.desired_capacity(0)
.send()
.await;
if let Err(err) = update_group {
return Err(ScenarioError::new(
"Failed to update group for scaling down&",
&err,
));
}
let stable = self.wait_for_stable(0).await;
if let Err(err) = stable {
return Err(ScenarioError::with(format!(
"Error while waiting for group to be stable on scale down: {err}"
)));
}
Ok(())
}
pub async fn terminate_some_instance(&self) -> Result<(), ScenarioError> {
// Retrieve a list of instances in the auto scaling group.
let auto_scaling_group = self.get_group().await?;
let instances = auto_scaling_group.instances();
// Or use other logic to find an instance to terminate.
let instance = instances.first();
if let Some(instance) = instance {
let instance_id = if let Some(instance_id) = instance.instance_id() {
instance_id
} else {
return Err(ScenarioError::with("Missing instance id"));
};
let termination = self
.ec2
.terminate_instances()
.instance_ids(instance_id)
.send()
.await;
if let Err(err) = termination {
Err(ScenarioError::new(
"There was a problem terminating an instance",
&err,
))
} else {
Ok(())
}
} else {
Err(ScenarioError::with("There was no instance to terminate"))
}
}
}
fn count_group_instances(group: &AutoScalingGroup) -> usize {
group.instances.as_ref().map(|i| i.len()).unwrap_or(0)
}
```
+ Pour plus de détails sur l’API, consultez les rubriques suivantes dans la *Référence des API du kit AWS SDK pour Rust*.
+ [CreateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.create_auto_scaling_group)
+ [DeleteAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.delete_auto_scaling_group)
+ [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)
+ [DescribeAutoScalingInstances](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_instances)
+ [DescribeScalingActivities](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_scaling_activities)
+ [DisableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.disable_metrics_collection)
+ [EnableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.enable_metrics_collection)
+ [SetDesiredCapacity](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.set_desired_capacity)
+ [TerminateInstanceInAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.terminate_instance_in_auto_scaling_group)
+ [UpdateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.update_auto_scaling_group)
## Actions
### `CreateAutoScalingGroup`
L'exemple de code suivant montre comment utiliser`CreateAutoScalingGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
async fn create_group(client: &Client, name: &str, id: &str) -> Result<(), Error> {
client
.create_auto_scaling_group()
.auto_scaling_group_name(name)
.instance_id(id)
.min_size(1)
.max_size(5)
.send()
.await?;
println!("Created AutoScaling group");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [CreateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.create_auto_scaling_group)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteAutoScalingGroup`
L'exemple de code suivant montre comment utiliser`DeleteAutoScalingGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
async fn delete_group(client: &Client, name: &str, force: bool) -> Result<(), Error> {
client
.delete_auto_scaling_group()
.auto_scaling_group_name(name)
.set_force_delete(if force { Some(true) } else { None })
.send()
.await?;
println!("Deleted Auto Scaling group");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.delete_auto_scaling_group)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeAutoScalingGroups`
L'exemple de code suivant montre comment utiliser`DescribeAutoScalingGroups`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
async fn list_groups(client: &Client) -> Result<(), Error> {
let resp = client.describe_auto_scaling_groups().send().await?;
println!("Groups:");
let groups = resp.auto_scaling_groups();
for group in groups {
println!(
"Name: {}",
group.auto_scaling_group_name().unwrap_or("Unknown")
);
println!(
"Arn: {}",
group.auto_scaling_group_arn().unwrap_or("unknown"),
);
println!("Zones: {:?}", group.availability_zones(),);
println!();
}
println!("Found {} group(s)", groups.len());
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeAutoScalingGroups](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_groups)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeAutoScalingInstances`
L'exemple de code suivant montre comment utiliser`DescribeAutoScalingInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
pub async fn list_instances(&self) -> Result, ScenarioError> {
// The direct way to list instances is by using DescribeAutoScalingGroup's instances property. However, this returns a Vec, as opposed to a Vec.
// Ok(self.get_group().await?.instances.unwrap_or_default().map(|i| i.instance_id.clone().unwrap_or_default()).filter(|id| !id.is_empty()).collect())
// Alternatively, and for the sake of example, DescribeAutoScalingInstances returns a list that can be filtered by the client.
self.autoscaling
.describe_auto_scaling_instances()
.into_paginator()
.items()
.send()
.try_collect()
.await
.map(|items| {
items
.into_iter()
.filter(|i| {
i.auto_scaling_group_name.as_deref()
== Some(self.auto_scaling_group_name.as_str())
})
.map(|i| i.instance_id.unwrap_or_default())
.filter(|id| !id.is_empty())
.collect::>()
})
.map_err(|err| ScenarioError::new("Failed to get list of auto scaling instances", &err))
}
```
+ Pour plus de détails sur l'API, voir [DescribeAutoScalingInstances](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_auto_scaling_instances)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeScalingActivities`
L'exemple de code suivant montre comment utiliser`DescribeScalingActivities`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
pub async fn describe_scenario(&self) -> AutoScalingScenarioDescription {
let group = self
.autoscaling
.describe_auto_scaling_groups()
.auto_scaling_group_names(self.auto_scaling_group_name.clone())
.send()
.await
.map(|s| {
s.auto_scaling_groups()
.iter()
.map(|s| {
format!(
"{}: {}",
s.auto_scaling_group_name().unwrap_or("Unknown"),
s.status().unwrap_or("Unknown")
)
})
.collect::>()
})
.map_err(|e| {
ScenarioError::new("Failed to describe auto scaling groups for scenario", &e)
});
let instances = self
.list_instances()
.await
.map_err(|e| anyhow!("There was an error listing instances: {e}",));
// 10. DescribeScalingActivities: list the scaling activities that have occurred for the group so far.
// Bonus: use CloudWatch API to get and show some metrics collected for the group.
// CW.ListMetrics with Namespace='AWS/AutoScaling' and Dimensions=[{'Name': 'AutoScalingGroupName', 'Value': }]
// CW.GetMetricStatistics with Statistics='Sum'. Start and End times must be in UTC!
let activities = self
.autoscaling
.describe_scaling_activities()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.into_paginator()
.items()
.send()
.collect::, _>>()
.await
.map_err(|e| {
anyhow!(
"There was an error retrieving scaling activities: {}",
DisplayErrorContext(&e)
)
});
AutoScalingScenarioDescription {
group,
instances,
activities,
}
}
```
+ Pour plus de détails sur l'API, voir [DescribeScalingActivities](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.describe_scaling_activities)la section de *référence de l'API AWS SDK for Rust*.
### `DisableMetricsCollection`
L'exemple de code suivant montre comment utiliser`DisableMetricsCollection`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
// If this fails it's fine, just means there are extra cloudwatch metrics events for the scale-down.
let _ = self
.autoscaling
.disable_metrics_collection()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.send()
.await;
```
+ Pour plus de détails sur l'API, voir [DisableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.disable_metrics_collection)la section de *référence de l'API AWS SDK for Rust*.
### `EnableMetricsCollection`
L'exemple de code suivant montre comment utiliser`EnableMetricsCollection`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
let enable_metrics_collection = autoscaling
.enable_metrics_collection()
.auto_scaling_group_name(auto_scaling_group_name.as_str())
.granularity("1Minute")
.set_metrics(Some(vec![
String::from("GroupMinSize"),
String::from("GroupMaxSize"),
String::from("GroupDesiredCapacity"),
String::from("GroupInServiceInstances"),
String::from("GroupTotalInstances"),
]))
.send()
.await;
```
+ Pour plus de détails sur l'API, voir [EnableMetricsCollection](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.enable_metrics_collection)la section de *référence de l'API AWS SDK for Rust*.
### `SetDesiredCapacity`
L'exemple de code suivant montre comment utiliser`SetDesiredCapacity`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
pub async fn scale_desired_capacity(&self, capacity: i32) -> Result<(), ScenarioError> {
// 7. SetDesiredCapacity: set desired capacity to 2.
// Wait for a second instance to launch.
let update_group = self
.autoscaling
.set_desired_capacity()
.auto_scaling_group_name(self.auto_scaling_group_name.clone())
.desired_capacity(capacity)
.send()
.await;
if let Err(err) = update_group {
return Err(ScenarioError::new(
format!("Failed to update group to desired capacity ({capacity}))").as_str(),
&err,
));
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [SetDesiredCapacity](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.set_desired_capacity)la section de *référence de l'API AWS SDK for Rust*.
### `TerminateInstanceInAutoScalingGroup`
L'exemple de code suivant montre comment utiliser`TerminateInstanceInAutoScalingGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
pub async fn terminate_some_instance(&self) -> Result<(), ScenarioError> {
// Retrieve a list of instances in the auto scaling group.
let auto_scaling_group = self.get_group().await?;
let instances = auto_scaling_group.instances();
// Or use other logic to find an instance to terminate.
let instance = instances.first();
if let Some(instance) = instance {
let instance_id = if let Some(instance_id) = instance.instance_id() {
instance_id
} else {
return Err(ScenarioError::with("Missing instance id"));
};
let termination = self
.ec2
.terminate_instances()
.instance_ids(instance_id)
.send()
.await;
if let Err(err) = termination {
Err(ScenarioError::new(
"There was a problem terminating an instance",
&err,
))
} else {
Ok(())
}
} else {
Err(ScenarioError::with("There was no instance to terminate"))
}
}
async fn get_group(&self) -> Result {
let describe_auto_scaling_groups = self
.autoscaling
.describe_auto_scaling_groups()
.auto_scaling_group_names(self.auto_scaling_group_name.clone())
.send()
.await;
if let Err(err) = describe_auto_scaling_groups {
return Err(ScenarioError::new(
format!(
"Failed to get status of autoscaling group {}",
self.auto_scaling_group_name.clone()
)
.as_str(),
&err,
));
}
let describe_auto_scaling_groups_output = describe_auto_scaling_groups.unwrap();
let auto_scaling_groups = describe_auto_scaling_groups_output.auto_scaling_groups();
let auto_scaling_group = auto_scaling_groups.first();
if auto_scaling_group.is_none() {
return Err(ScenarioError::with(format!(
"Could not find autoscaling group {}",
self.auto_scaling_group_name.clone()
)));
}
Ok(auto_scaling_group.unwrap().clone())
}
```
+ Pour plus de détails sur l'API, voir [TerminateInstanceInAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.terminate_instance_in_auto_scaling_group)la section de *référence de l'API AWS SDK for Rust*.
### `UpdateAutoScalingGroup`
L'exemple de code suivant montre comment utiliser`UpdateAutoScalingGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/auto-scaling#code-examples).
```
async fn update_group(client: &Client, name: &str, size: i32) -> Result<(), Error> {
client
.update_auto_scaling_group()
.auto_scaling_group_name(name)
.max_size(size)
.send()
.await?;
println!("Updated AutoScaling group");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [UpdateAutoScalingGroup](https://docs.rs/aws-sdk-autoscaling/latest/aws_sdk_autoscaling/client/struct.Client.html#method.update_auto_scaling_group)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon Bedrock Runtime avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec Amazon Bedrock Runtime.
Les *scénarios* sont des exemples de code qui vous montrent comment accomplir des tâches spécifiques en appelant plusieurs fonctions au sein d’un même service ou combinés à d’autres Services AWS.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Scénarios](#scenarios)
+ [Anthropic Claude](#anthropic_claude)
## Scénarios
### Utilisation de l’outil avec l’API Converse
L'exemple de code suivant montre comment créer une interaction typique entre une application, un modèle d'IA génératif et des outils connectés ou comment APIs arbitrer les interactions entre l'IA et le monde extérieur. Il utilise comme exemple la connexion d’une API de météorologie externe au modèle d’IA afin de fournir des informations météorologiques en temps réel en fonction des données saisies par l’utilisateur.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Scénario principal et logique de la démo. Ceci orchestre la conversation entre l’utilisateur, l’API Converse Amazon Bedrock et un outil météo.
```
#[derive(Debug)]
#[allow(dead_code)]
struct InvokeToolResult(String, ToolResultBlock);
struct ToolUseScenario {
client: Client,
conversation: Vec,
system_prompt: SystemContentBlock,
tool_config: ToolConfiguration,
}
impl ToolUseScenario {
fn new(client: Client) -> Self {
let system_prompt = SystemContentBlock::Text(SYSTEM_PROMPT.into());
let tool_config = ToolConfiguration::builder()
.tools(Tool::ToolSpec(
ToolSpecification::builder()
.name(TOOL_NAME)
.description(TOOL_DESCRIPTION)
.input_schema(ToolInputSchema::Json(make_tool_schema()))
.build()
.unwrap(),
))
.build()
.unwrap();
ToolUseScenario {
client,
conversation: vec![],
system_prompt,
tool_config,
}
}
async fn run(&mut self) -> Result<(), ToolUseScenarioError> {
loop {
let input = get_input().await?;
if input.is_none() {
break;
}
let message = Message::builder()
.role(User)
.content(ContentBlock::Text(input.unwrap()))
.build()
.map_err(ToolUseScenarioError::from)?;
self.conversation.push(message);
let response = self.send_to_bedrock().await?;
self.process_model_response(response).await?;
}
Ok(())
}
async fn send_to_bedrock(&mut self) -> Result {
debug!("Sending conversation to bedrock");
self.client
.converse()
.model_id(MODEL_ID)
.set_messages(Some(self.conversation.clone()))
.system(self.system_prompt.clone())
.tool_config(self.tool_config.clone())
.send()
.await
.map_err(ToolUseScenarioError::from)
}
async fn process_model_response(
&mut self,
mut response: ConverseOutput,
) -> Result<(), ToolUseScenarioError> {
let mut iteration = 0;
while iteration < MAX_RECURSIONS {
iteration += 1;
let message = if let Some(ref output) = response.output {
if output.is_message() {
Ok(output.as_message().unwrap().clone())
} else {
Err(ToolUseScenarioError(
"Converse Output is not a message".into(),
))
}
} else {
Err(ToolUseScenarioError("Missing Converse Output".into()))
}?;
self.conversation.push(message.clone());
match response.stop_reason {
StopReason::ToolUse => {
response = self.handle_tool_use(&message).await?;
}
StopReason::EndTurn => {
print_model_response(&message.content[0])?;
return Ok(());
}
_ => (),
}
}
Err(ToolUseScenarioError(
"Exceeded MAX_ITERATIONS when calling tools".into(),
))
}
async fn handle_tool_use(
&mut self,
message: &Message,
) -> Result {
let mut tool_results: Vec = vec![];
for block in &message.content {
match block {
ContentBlock::Text(_) => print_model_response(block)?,
ContentBlock::ToolUse(tool) => {
let tool_response = self.invoke_tool(tool).await?;
tool_results.push(ContentBlock::ToolResult(tool_response.1));
}
_ => (),
};
}
let message = Message::builder()
.role(User)
.set_content(Some(tool_results))
.build()?;
self.conversation.push(message);
self.send_to_bedrock().await
}
async fn invoke_tool(
&mut self,
tool: &ToolUseBlock,
) -> Result {
match tool.name() {
TOOL_NAME => {
println!(
"\x1b[0;90mExecuting tool: {TOOL_NAME} with input: {:?}...\x1b[0m",
tool.input()
);
let content = fetch_weather_data(tool).await?;
println!(
"\x1b[0;90mTool responded with {:?}\x1b[0m",
content.content()
);
Ok(InvokeToolResult(tool.tool_use_id.clone(), content))
}
_ => Err(ToolUseScenarioError(format!(
"The requested tool with name {} does not exist",
tool.name()
))),
}
}
}
#[tokio::main]
async fn main() {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let mut scenario = ToolUseScenario::new(client);
header();
if let Err(err) = scenario.run().await {
println!("There was an error running the scenario! {}", err.0)
}
footer();
}
```
Outil météo utilisé par la démonstration. Ce script définit les spécifications de l’outil et met en œuvre la logique permettant de récupérer les données météorologiques à l’aide de l’API Open-Meteo.
```
const ENDPOINT: &str = "https://api.open-meteo.com/v1/forecast";
async fn fetch_weather_data(
tool_use: &ToolUseBlock,
) -> Result {
let input = tool_use.input();
let latitude = input
.as_object()
.unwrap()
.get("latitude")
.unwrap()
.as_string()
.unwrap();
let longitude = input
.as_object()
.unwrap()
.get("longitude")
.unwrap()
.as_string()
.unwrap();
let params = [
("latitude", latitude),
("longitude", longitude),
("current_weather", "true"),
];
debug!("Calling {ENDPOINT} with {params:?}");
let response = reqwest::Client::new()
.get(ENDPOINT)
.query(¶ms)
.send()
.await
.map_err(|e| ToolUseScenarioError(format!("Error requesting weather: {e:?}")))?
.error_for_status()
.map_err(|e| ToolUseScenarioError(format!("Failed to request weather: {e:?}")))?;
debug!("Response: {response:?}");
let bytes = response
.bytes()
.await
.map_err(|e| ToolUseScenarioError(format!("Error reading response: {e:?}")))?;
let result = String::from_utf8(bytes.to_vec())
.map_err(|_| ToolUseScenarioError("Response was not utf8".into()))?;
Ok(ToolResultBlock::builder()
.tool_use_id(tool_use.tool_use_id())
.content(ToolResultContentBlock::Text(result))
.build()?)
}
```
Utilitaires pour imprimer les blocs de contenu des messages.
```
fn print_model_response(block: &ContentBlock) -> Result<(), ToolUseScenarioError> {
if block.is_text() {
let text = block.as_text().unwrap();
println!("\x1b[0;90mThe model's response:\x1b[0m\n{text}");
Ok(())
} else {
Err(ToolUseScenarioError(format!(
"Content block is not text ({block:?})"
)))
}
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use std::{collections::HashMap, io::stdin};
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
error::{BuildError, SdkError},
operation::converse::{ConverseError, ConverseOutput},
types::{
ContentBlock, ConversationRole::User, Message, StopReason, SystemContentBlock, Tool,
ToolConfiguration, ToolInputSchema, ToolResultBlock, ToolResultContentBlock,
ToolSpecification, ToolUseBlock,
},
Client,
};
use aws_smithy_runtime_api::http::Response;
use aws_smithy_types::Document;
use tracing::debug;
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
const SYSTEM_PROMPT: &str = "You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.
- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information.
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose.
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
";
// The maximum number of recursive calls allowed in the tool_use_demo function.
// This helps prevent infinite loops and potential performance issues.
const MAX_RECURSIONS: i8 = 5;
const TOOL_NAME: &str = "Weather_Tool";
const TOOL_DESCRIPTION: &str =
"Get the current weather for a given location, based on its WGS84 coordinates.";
fn make_tool_schema() -> Document {
Document::Object(HashMap::::from([
("type".into(), Document::String("object".into())),
(
"properties".into(),
Document::Object(HashMap::from([
(
"latitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String("Geographical WGS84 latitude of the location.".into()),
),
])),
),
(
"longitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String(
"Geographical WGS84 longitude of the location.".into(),
),
),
])),
),
])),
),
(
"required".into(),
Document::Array(vec![
Document::String("latitude".into()),
Document::String("longitude".into()),
]),
),
]))
}
#[derive(Debug)]
struct ToolUseScenarioError(String);
impl std::fmt::Display for ToolUseScenarioError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Tool use error with '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl From<&str> for ToolUseScenarioError {
fn from(value: &str) -> Self {
ToolUseScenarioError(value.into())
}
}
impl From for ToolUseScenarioError {
fn from(value: BuildError) -> Self {
ToolUseScenarioError(value.to_string().clone())
}
}
impl From> for ToolUseScenarioError {
fn from(value: SdkError) -> Self {
ToolUseScenarioError(match value.as_service_error() {
Some(value) => value.meta().message().unwrap_or("Unknown").into(),
None => "Unknown".into(),
})
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) dans la *Référence des API du kit AWS SDK pour Rust*.
## Anthropic Claude
### Converse
L’exemple de code suivant montre comment envoyer un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseError> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let response = client
.converse()
.model_id(MODEL_ID)
.messages(
Message::builder()
.role(ConversationRole::User)
.content(ContentBlock::Text(USER_MESSAGE.to_string()))
.build()
.map_err(|_| "failed to build message")?,
)
.send()
.await;
match response {
Ok(output) => {
let text = get_converse_output_text(output)?;
println!("{}", text);
Ok(())
}
Err(e) => Err(e
.as_service_error()
.map(BedrockConverseError::from)
.unwrap_or_else(|| BedrockConverseError("Unknown service error".into()))),
}
}
fn get_converse_output_text(output: ConverseOutput) -> Result {
let text = output
.output()
.ok_or("no output")?
.as_message()
.map_err(|_| "output not a message")?
.content()
.first()
.ok_or("no content in message")?
.as_text()
.map_err(|_| "content is not text")?
.to_string();
Ok(text)
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
operation::converse::{ConverseError, ConverseOutput},
types::{ContentBlock, ConversationRole, Message},
Client,
};
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";
#[derive(Debug)]
struct BedrockConverseError(String);
impl std::fmt::Display for BedrockConverseError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl std::error::Error for BedrockConverseError {}
impl From<&str> for BedrockConverseError {
fn from(value: &str) -> Self {
BedrockConverseError(value.to_string())
}
}
impl From<&ConverseError> for BedrockConverseError {
fn from(value: &ConverseError) -> Self {
BedrockConverseError::from(match value {
ConverseError::ModelTimeoutException(_) => "Model took too long",
ConverseError::ModelNotReadyException(_) => "Model is not ready",
_ => "Unknown",
})
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) dans la *Référence des API du kit AWS SDK pour Rust*.
### ConverseStream
L’exemple de code suivant montre comment envoyer un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et comment traiter le flux de réponses en temps réel.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Envoyez un SMS à Anthropic Claude et diffusez des jetons de réponse à l'aide de l'API de ConverseStream Bedrock.
```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseStreamError> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let response = client
.converse_stream()
.model_id(MODEL_ID)
.messages(
Message::builder()
.role(ConversationRole::User)
.content(ContentBlock::Text(USER_MESSAGE.to_string()))
.build()
.map_err(|_| "failed to build message")?,
)
.send()
.await;
let mut stream = match response {
Ok(output) => Ok(output.stream),
Err(e) => Err(BedrockConverseStreamError::from(
e.as_service_error().unwrap(),
)),
}?;
loop {
let token = stream.recv().await;
match token {
Ok(Some(text)) => {
let next = get_converse_output_text(text)?;
print!("{}", next);
Ok(())
}
Ok(None) => break,
Err(e) => Err(e
.as_service_error()
.map(BedrockConverseStreamError::from)
.unwrap_or(BedrockConverseStreamError(
"Unknown error receiving stream".into(),
))),
}?
}
println!();
Ok(())
}
fn get_converse_output_text(
output: ConverseStreamOutputType,
) -> Result {
Ok(match output {
ConverseStreamOutputType::ContentBlockDelta(event) => match event.delta() {
Some(delta) => delta.as_text().cloned().unwrap_or_else(|_| "".into()),
None => "".into(),
},
_ => "".into(),
})
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
error::ProvideErrorMetadata,
operation::converse_stream::ConverseStreamError,
types::{
error::ConverseStreamOutputError, ContentBlock, ConversationRole,
ConverseStreamOutput as ConverseStreamOutputType, Message,
},
Client,
};
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";
#[derive(Debug)]
struct BedrockConverseStreamError(String);
impl std::fmt::Display for BedrockConverseStreamError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl std::error::Error for BedrockConverseStreamError {}
impl From<&str> for BedrockConverseStreamError {
fn from(value: &str) -> Self {
BedrockConverseStreamError(value.into())
}
}
impl From<&ConverseStreamError> for BedrockConverseStreamError {
fn from(value: &ConverseStreamError) -> Self {
BedrockConverseStreamError(
match value {
ConverseStreamError::ModelTimeoutException(_) => "Model took too long",
ConverseStreamError::ModelNotReadyException(_) => "Model is not ready",
_ => "Unknown",
}
.into(),
)
}
}
impl From<&ConverseStreamOutputError> for BedrockConverseStreamError {
fn from(value: &ConverseStreamOutputError) -> Self {
match value {
ConverseStreamOutputError::ValidationException(ve) => BedrockConverseStreamError(
ve.message().unwrap_or("Unknown ValidationException").into(),
),
ConverseStreamOutputError::ThrottlingException(te) => BedrockConverseStreamError(
te.message().unwrap_or("Unknown ThrottlingException").into(),
),
value => BedrockConverseStreamError(
value
.message()
.unwrap_or("Unknown StreamOutput exception")
.into(),
),
}
}
}
```
+ Pour plus de détails sur l'API, voir [ConverseStream](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse_stream)la section de *référence de l'API AWS SDK for Rust*.
### Scénario : utilisation de l’outil avec l’API Converse
L'exemple de code suivant montre comment créer une interaction typique entre une application, un modèle d'IA génératif et des outils connectés ou comment APIs arbitrer les interactions entre l'IA et le monde extérieur. Il utilise comme exemple la connexion d’une API de météorologie externe au modèle d’IA afin de fournir des informations météorologiques en temps réel en fonction des données saisies par l’utilisateur.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Scénario principal et logique de la démo. Ceci orchestre la conversation entre l’utilisateur, l’API Converse Amazon Bedrock et un outil météo.
```
#[derive(Debug)]
#[allow(dead_code)]
struct InvokeToolResult(String, ToolResultBlock);
struct ToolUseScenario {
client: Client,
conversation: Vec,
system_prompt: SystemContentBlock,
tool_config: ToolConfiguration,
}
impl ToolUseScenario {
fn new(client: Client) -> Self {
let system_prompt = SystemContentBlock::Text(SYSTEM_PROMPT.into());
let tool_config = ToolConfiguration::builder()
.tools(Tool::ToolSpec(
ToolSpecification::builder()
.name(TOOL_NAME)
.description(TOOL_DESCRIPTION)
.input_schema(ToolInputSchema::Json(make_tool_schema()))
.build()
.unwrap(),
))
.build()
.unwrap();
ToolUseScenario {
client,
conversation: vec![],
system_prompt,
tool_config,
}
}
async fn run(&mut self) -> Result<(), ToolUseScenarioError> {
loop {
let input = get_input().await?;
if input.is_none() {
break;
}
let message = Message::builder()
.role(User)
.content(ContentBlock::Text(input.unwrap()))
.build()
.map_err(ToolUseScenarioError::from)?;
self.conversation.push(message);
let response = self.send_to_bedrock().await?;
self.process_model_response(response).await?;
}
Ok(())
}
async fn send_to_bedrock(&mut self) -> Result {
debug!("Sending conversation to bedrock");
self.client
.converse()
.model_id(MODEL_ID)
.set_messages(Some(self.conversation.clone()))
.system(self.system_prompt.clone())
.tool_config(self.tool_config.clone())
.send()
.await
.map_err(ToolUseScenarioError::from)
}
async fn process_model_response(
&mut self,
mut response: ConverseOutput,
) -> Result<(), ToolUseScenarioError> {
let mut iteration = 0;
while iteration < MAX_RECURSIONS {
iteration += 1;
let message = if let Some(ref output) = response.output {
if output.is_message() {
Ok(output.as_message().unwrap().clone())
} else {
Err(ToolUseScenarioError(
"Converse Output is not a message".into(),
))
}
} else {
Err(ToolUseScenarioError("Missing Converse Output".into()))
}?;
self.conversation.push(message.clone());
match response.stop_reason {
StopReason::ToolUse => {
response = self.handle_tool_use(&message).await?;
}
StopReason::EndTurn => {
print_model_response(&message.content[0])?;
return Ok(());
}
_ => (),
}
}
Err(ToolUseScenarioError(
"Exceeded MAX_ITERATIONS when calling tools".into(),
))
}
async fn handle_tool_use(
&mut self,
message: &Message,
) -> Result {
let mut tool_results: Vec = vec![];
for block in &message.content {
match block {
ContentBlock::Text(_) => print_model_response(block)?,
ContentBlock::ToolUse(tool) => {
let tool_response = self.invoke_tool(tool).await?;
tool_results.push(ContentBlock::ToolResult(tool_response.1));
}
_ => (),
};
}
let message = Message::builder()
.role(User)
.set_content(Some(tool_results))
.build()?;
self.conversation.push(message);
self.send_to_bedrock().await
}
async fn invoke_tool(
&mut self,
tool: &ToolUseBlock,
) -> Result {
match tool.name() {
TOOL_NAME => {
println!(
"\x1b[0;90mExecuting tool: {TOOL_NAME} with input: {:?}...\x1b[0m",
tool.input()
);
let content = fetch_weather_data(tool).await?;
println!(
"\x1b[0;90mTool responded with {:?}\x1b[0m",
content.content()
);
Ok(InvokeToolResult(tool.tool_use_id.clone(), content))
}
_ => Err(ToolUseScenarioError(format!(
"The requested tool with name {} does not exist",
tool.name()
))),
}
}
}
#[tokio::main]
async fn main() {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let mut scenario = ToolUseScenario::new(client);
header();
if let Err(err) = scenario.run().await {
println!("There was an error running the scenario! {}", err.0)
}
footer();
}
```
Outil météo utilisé par la démonstration. Ce script définit les spécifications de l’outil et met en œuvre la logique permettant de récupérer les données météorologiques à l’aide de l’API Open-Meteo.
```
const ENDPOINT: &str = "https://api.open-meteo.com/v1/forecast";
async fn fetch_weather_data(
tool_use: &ToolUseBlock,
) -> Result {
let input = tool_use.input();
let latitude = input
.as_object()
.unwrap()
.get("latitude")
.unwrap()
.as_string()
.unwrap();
let longitude = input
.as_object()
.unwrap()
.get("longitude")
.unwrap()
.as_string()
.unwrap();
let params = [
("latitude", latitude),
("longitude", longitude),
("current_weather", "true"),
];
debug!("Calling {ENDPOINT} with {params:?}");
let response = reqwest::Client::new()
.get(ENDPOINT)
.query(¶ms)
.send()
.await
.map_err(|e| ToolUseScenarioError(format!("Error requesting weather: {e:?}")))?
.error_for_status()
.map_err(|e| ToolUseScenarioError(format!("Failed to request weather: {e:?}")))?;
debug!("Response: {response:?}");
let bytes = response
.bytes()
.await
.map_err(|e| ToolUseScenarioError(format!("Error reading response: {e:?}")))?;
let result = String::from_utf8(bytes.to_vec())
.map_err(|_| ToolUseScenarioError("Response was not utf8".into()))?;
Ok(ToolResultBlock::builder()
.tool_use_id(tool_use.tool_use_id())
.content(ToolResultContentBlock::Text(result))
.build()?)
}
```
Utilitaires pour imprimer les blocs de contenu des messages.
```
fn print_model_response(block: &ContentBlock) -> Result<(), ToolUseScenarioError> {
if block.is_text() {
let text = block.as_text().unwrap();
println!("\x1b[0;90mThe model's response:\x1b[0m\n{text}");
Ok(())
} else {
Err(ToolUseScenarioError(format!(
"Content block is not text ({block:?})"
)))
}
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use std::{collections::HashMap, io::stdin};
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
error::{BuildError, SdkError},
operation::converse::{ConverseError, ConverseOutput},
types::{
ContentBlock, ConversationRole::User, Message, StopReason, SystemContentBlock, Tool,
ToolConfiguration, ToolInputSchema, ToolResultBlock, ToolResultContentBlock,
ToolSpecification, ToolUseBlock,
},
Client,
};
use aws_smithy_runtime_api::http::Response;
use aws_smithy_types::Document;
use tracing::debug;
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
const SYSTEM_PROMPT: &str = "You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.
- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information.
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose.
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
";
// The maximum number of recursive calls allowed in the tool_use_demo function.
// This helps prevent infinite loops and potential performance issues.
const MAX_RECURSIONS: i8 = 5;
const TOOL_NAME: &str = "Weather_Tool";
const TOOL_DESCRIPTION: &str =
"Get the current weather for a given location, based on its WGS84 coordinates.";
fn make_tool_schema() -> Document {
Document::Object(HashMap::::from([
("type".into(), Document::String("object".into())),
(
"properties".into(),
Document::Object(HashMap::from([
(
"latitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String("Geographical WGS84 latitude of the location.".into()),
),
])),
),
(
"longitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String(
"Geographical WGS84 longitude of the location.".into(),
),
),
])),
),
])),
),
(
"required".into(),
Document::Array(vec![
Document::String("latitude".into()),
Document::String("longitude".into()),
]),
),
]))
}
#[derive(Debug)]
struct ToolUseScenarioError(String);
impl std::fmt::Display for ToolUseScenarioError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Tool use error with '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl From<&str> for ToolUseScenarioError {
fn from(value: &str) -> Self {
ToolUseScenarioError(value.into())
}
}
impl From for ToolUseScenarioError {
fn from(value: BuildError) -> Self {
ToolUseScenarioError(value.to_string().clone())
}
}
impl From> for ToolUseScenarioError {
fn from(value: SdkError) -> Self {
ToolUseScenarioError(match value.as_service_error() {
Some(value) => value.meta().message().unwrap_or("Unknown").into(),
None => "Unknown".into(),
})
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) dans la *Référence des API du kit AWS SDK pour Rust*.
# Exemples d’agents Amazon Bedrock Runtime avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec Amazon Bedrock Agents Runtime.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `InvokeAgent`
L'exemple de code suivant montre comment utiliser`InvokeAgent`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-agent-runtime#code-examples).
```
use aws_config::{BehaviorVersion, SdkConfig};
use aws_sdk_bedrockagentruntime::{
self as bedrockagentruntime,
types::{error::ResponseStreamError, ResponseStream},
};
#[allow(unused_imports)]
use mockall::automock;
const BEDROCK_AGENT_ID: &str = "AJBHXXILZN";
const BEDROCK_AGENT_ALIAS_ID: &str = "AVKP1ITZAA";
const BEDROCK_AGENT_REGION: &str = "us-east-1";
#[cfg(not(test))]
pub use EventReceiverImpl as EventReceiver;
#[cfg(test)]
pub use MockEventReceiverImpl as EventReceiver;
pub struct EventReceiverImpl {
inner: aws_sdk_bedrockagentruntime::primitives::event_stream::EventReceiver<
ResponseStream,
ResponseStreamError,
>,
}
#[cfg_attr(test, automock)]
impl EventReceiverImpl {
#[allow(dead_code)]
pub fn new(
inner: aws_sdk_bedrockagentruntime::primitives::event_stream::EventReceiver<
ResponseStream,
ResponseStreamError,
>,
) -> Self {
Self { inner }
}
pub async fn recv(
&mut self,
) -> Result<
Option,
aws_sdk_bedrockagentruntime::error::SdkError<
ResponseStreamError,
aws_smithy_types::event_stream::RawMessage,
>,
> {
self.inner.recv().await
}
}
#[tokio::main]
async fn main() -> Result<(), Box> {
let result = invoke_bedrock_agent("I need help.".to_string(), "123".to_string()).await?;
println!("{}", result);
Ok(())
}
async fn invoke_bedrock_agent(
prompt: String,
session_id: String,
) -> Result {
let sdk_config: SdkConfig = aws_config::defaults(BehaviorVersion::latest())
.region(BEDROCK_AGENT_REGION)
.load()
.await;
let bedrock_client = bedrockagentruntime::Client::new(&sdk_config);
let command_builder = bedrock_client
.invoke_agent()
.agent_id(BEDROCK_AGENT_ID)
.agent_alias_id(BEDROCK_AGENT_ALIAS_ID)
.session_id(session_id)
.input_text(prompt);
let response = command_builder.send().await?;
let response_stream = response.completion;
let event_receiver = EventReceiver::new(response_stream);
process_agent_response_stream(event_receiver).await
}
async fn process_agent_response_stream(
mut event_receiver: EventReceiver,
) -> Result {
let mut full_agent_text_response = String::new();
while let Some(event_result) = event_receiver.recv().await? {
match event_result {
ResponseStream::Chunk(chunk) => {
if let Some(bytes) = chunk.bytes {
match String::from_utf8(bytes.into_inner()) {
Ok(text_chunk) => {
full_agent_text_response.push_str(&text_chunk);
}
Err(e) => {
eprintln!("UTF-8 decoding error for chunk: {}", e);
}
}
}
}
_ => {
panic!("received an unhandled event type from Bedrock stream",);
}
}
}
Ok(full_agent_text_response)
}
#[cfg(test)]
mod test {
use super::*;
#[tokio::test]
async fn test_process_agent_response_stream() {
let mut mock = MockEventReceiverImpl::default();
mock.expect_recv().times(1).returning(|| {
Ok(Some(
aws_sdk_bedrockagentruntime::types::ResponseStream::Chunk(
aws_sdk_bedrockagentruntime::types::PayloadPart::builder()
.set_bytes(Some(aws_smithy_types::Blob::new(vec![
116, 101, 115, 116, 32, 99, 111, 109, 112, 108, 101, 116, 105, 111, 110,
])))
.build(),
),
))
});
// end the stream
mock.expect_recv().times(1).returning(|| Ok(None));
let response = process_agent_response_stream(mock).await.unwrap();
assert_eq!("test completion", response);
}
#[tokio::test]
#[should_panic(expected = "received an unhandled event type from Bedrock stream")]
async fn test_process_agent_response_stream_error() {
let mut mock = MockEventReceiverImpl::default();
mock.expect_recv().times(1).returning(|| {
Ok(Some(
aws_sdk_bedrockagentruntime::types::ResponseStream::Trace(
aws_sdk_bedrockagentruntime::types::TracePart::builder().build(),
),
))
});
let _ = process_agent_response_stream(mock).await.unwrap();
}
}
```
+ Pour plus de détails sur l'API, voir [InvokeAgent](https://docs.rs/aws-sdk-bedrockagentruntime/latest/aws_sdk_bedrockagentruntime/client/struct.Client.html#method.invoke_agent)la section de *référence de l'API AWS SDK for Rust*.
# Exemples pour le fournisseur d’identité Amazon Cognito avec un kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec le fournisseur d'identité Amazon Cognito.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `ListUserPools`
L'exemple de code suivant montre comment utiliser`ListUserPools`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/cognitoidentityprovider#code-examples).
```
async fn show_pools(client: &Client) -> Result<(), Error> {
let response = client.list_user_pools().max_results(10).send().await?;
let pools = response.user_pools();
println!("User pools:");
for pool in pools {
println!(" ID: {}", pool.id().unwrap_or_default());
println!(" Name: {}", pool.name().unwrap_or_default());
println!(" Lambda Config: {:?}", pool.lambda_config().unwrap());
println!(
" Last modified: {}",
pool.last_modified_date().unwrap().to_chrono_utc()?
);
println!(
" Creation date: {:?}",
pool.creation_date().unwrap().to_chrono_utc()
);
println!();
}
println!("Next token: {}", response.next_token().unwrap_or_default());
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [ListUserPools](https://docs.rs/aws-sdk-cognitoidentityprovider/latest/aws_sdk_cognitoidentityprovider/client/struct.Client.html#method.list_user_pools)la section de *référence de l'API AWS SDK for Rust*.
# Exemples de la synchronisation Amazon Cognito avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon Cognito Sync.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `ListIdentityPoolUsage`
L'exemple de code suivant montre comment utiliser`ListIdentityPoolUsage`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/cognitosync#code-examples).
```
async fn show_pools(client: &Client) -> Result<(), Error> {
let response = client
.list_identity_pool_usage()
.max_results(10)
.send()
.await?;
let pools = response.identity_pool_usages();
println!("Identity pools:");
for pool in pools {
println!(
" Identity pool ID: {}",
pool.identity_pool_id().unwrap_or_default()
);
println!(
" Data storage: {}",
pool.data_storage().unwrap_or_default()
);
println!(
" Sync sessions count: {}",
pool.sync_sessions_count().unwrap_or_default()
);
println!(
" Last modified: {}",
pool.last_modified_date().unwrap().to_chrono_utc()?
);
println!();
}
println!("Next token: {}", response.next_token().unwrap_or_default());
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [ListIdentityPoolUsage](https://docs.rs/aws-sdk-cognitosync/latest/aws_sdk_cognitosync/client/struct.Client.html#method.list_identity_pool_usage)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Firehose avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust with Firehose.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `PutRecordBatch`
L'exemple de code suivant montre comment utiliser`PutRecordBatch`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/firehose#code-examples).
```
async fn put_record_batch(
client: &Client,
stream: &str,
data: Vec,
) -> Result> {
client
.put_record_batch()
.delivery_stream_name(stream)
.set_records(Some(data))
.send()
.await
}
```
+ Pour plus de détails sur l'API, voir [PutRecordBatch](https://docs.rs/aws-sdk-firehose/latest/aws_sdk_firehose/client/struct.Client.html#method.put_record_batch)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon DocumentDB avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec Amazon DocumentDB.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Exemples sans serveur](#serverless_examples)
## Exemples sans serveur
### Invocation d’une fonction Lambda à partir d’un déclencheur Amazon DocumentDB
L’exemple de code suivant montre comment implémenter une fonction Lambda qui reçoit un événement déclenché par la réception d’enregistrements à partir d’un flux de modifications DocumentDB. La fonction récupère les données utiles DocumentDB et journalise le contenu de l’enregistrement.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’[exemples sans serveur](https://github.com/aws-samples/serverless-snippets/tree/main/integration-docdb-to-lambda).
Consommation d’un événement Amazon DocumentDB avec Lambda en utilisant Rust.
```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
event::documentdb::{DocumentDbEvent, DocumentDbInnerEvent},
};
// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"
async fn function_handler(event: LambdaEvent) ->Result<(), Error> {
tracing::info!("Event Source ARN: {:?}", event.payload.event_source_arn);
tracing::info!("Event Source: {:?}", event.payload.event_source);
let records = &event.payload.events;
if records.is_empty() {
tracing::info!("No records found. Exiting.");
return Ok(());
}
for record in records{
log_document_db_event(record);
}
tracing::info!("Document db records processed");
// Prepare the response
Ok(())
}
fn log_document_db_event(record: &DocumentDbInnerEvent)-> Result<(), Error>{
tracing::info!("Change Event: {:?}", record.event);
Ok(())
}
#[tokio::main]
async fn main() -> Result<(), Error> {
tracing_subscriber::fmt()
.with_max_level(tracing::Level::INFO)
.with_target(false)
.without_time()
.init();
let func = service_fn(function_handler);
lambda_runtime::run(func).await?;
Ok(())
}
```
# Exemples DynamoDB avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec DynamoDB.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Les *scénarios* sont des exemples de code qui vous montrent comment accomplir des tâches spécifiques en appelant plusieurs fonctions au sein d’un même service ou combinés à d’autres Services AWS.
AWS les *contributions communautaires* sont des exemples qui ont été créés et sont maintenus par plusieurs équipes AWS. Pour faire un commentaire, utilisez le mécanisme fourni dans les référentiels liés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
+ [Scénarios](#scenarios)
+ [Exemples sans serveur](#serverless_examples)
+ [AWS contributions communautaires](#aws_community_contributions)
## Actions
### `CreateTable`
L'exemple de code suivant montre comment utiliser`CreateTable`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn create_table(
client: &Client,
table: &str,
key: &str,
) -> Result {
let a_name: String = key.into();
let table_name: String = table.into();
let ad = AttributeDefinition::builder()
.attribute_name(&a_name)
.attribute_type(ScalarAttributeType::S)
.build()
.map_err(Error::BuildError)?;
let ks = KeySchemaElement::builder()
.attribute_name(&a_name)
.key_type(KeyType::Hash)
.build()
.map_err(Error::BuildError)?;
let create_table_response = client
.create_table()
.table_name(table_name)
.key_schema(ks)
.attribute_definitions(ad)
.billing_mode(BillingMode::PayPerRequest)
.send()
.await;
match create_table_response {
Ok(out) => {
println!("Added table {} with key {}", table, key);
Ok(out)
}
Err(e) => {
eprintln!("Got an error creating table:");
eprintln!("{}", e);
Err(Error::unhandled(e))
}
}
}
```
+ Pour plus de détails sur l'API, voir [CreateTable](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.create_table)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteItem`
L'exemple de code suivant montre comment utiliser`DeleteItem`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn delete_item(
client: &Client,
table: &str,
key: &str,
value: &str,
) -> Result {
match client
.delete_item()
.table_name(table)
.key(key, AttributeValue::S(value.into()))
.send()
.await
{
Ok(out) => {
println!("Deleted item from table");
Ok(out)
}
Err(e) => Err(Error::unhandled(e)),
}
}
```
+ Pour plus de détails sur l'API, voir [DeleteItem](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.delete_item)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteTable`
L'exemple de code suivant montre comment utiliser`DeleteTable`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn delete_table(client: &Client, table: &str) -> Result {
let resp = client.delete_table().table_name(table).send().await;
match resp {
Ok(out) => {
println!("Deleted table");
Ok(out)
}
Err(e) => Err(Error::Unhandled(e.into())),
}
}
```
+ Pour plus de détails sur l'API, voir [DeleteTable](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.delete_table)la section de *référence de l'API AWS SDK for Rust*.
### `ListTables`
L'exemple de code suivant montre comment utiliser`ListTables`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn list_tables(client: &Client) -> Result, Error> {
let paginator = client.list_tables().into_paginator().items().send();
let table_names = paginator.collect::, _>>().await?;
println!("Tables:");
for name in &table_names {
println!(" {}", name);
}
println!("Found {} tables", table_names.len());
Ok(table_names)
}
```
Déterminez si une table existe.
```
pub async fn table_exists(client: &Client, table: &str) -> Result {
debug!("Checking for table: {table}");
let table_list = client.list_tables().send().await;
match table_list {
Ok(list) => Ok(list.table_names().contains(&table.into())),
Err(e) => Err(e.into()),
}
}
```
+ Pour plus de détails sur l'API, voir [ListTables](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.list_tables)la section de *référence de l'API AWS SDK for Rust*.
### `PutItem`
L'exemple de code suivant montre comment utiliser`PutItem`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn add_item(client: &Client, item: Item, table: &String) -> Result {
let user_av = AttributeValue::S(item.username);
let type_av = AttributeValue::S(item.p_type);
let age_av = AttributeValue::S(item.age);
let first_av = AttributeValue::S(item.first);
let last_av = AttributeValue::S(item.last);
let request = client
.put_item()
.table_name(table)
.item("username", user_av)
.item("account_type", type_av)
.item("age", age_av)
.item("first_name", first_av)
.item("last_name", last_av);
println!("Executing request [{request:?}] to add item...");
let resp = request.send().await?;
let attributes = resp.attributes().unwrap();
let username = attributes.get("username").cloned();
let first_name = attributes.get("first_name").cloned();
let last_name = attributes.get("last_name").cloned();
let age = attributes.get("age").cloned();
let p_type = attributes.get("p_type").cloned();
println!(
"Added user {:?}, {:?} {:?}, age {:?} as {:?} user",
username, first_name, last_name, age, p_type
);
Ok(ItemOut {
p_type,
age,
username,
first_name,
last_name,
})
}
```
+ Pour plus de détails sur l'API, voir [PutItem](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.put_item)la section de *référence de l'API AWS SDK for Rust*.
### `Query`
L'exemple de code suivant montre comment utiliser`Query`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
Trouvez les films réalisés au cours de l’année spécifiée.
```
pub async fn movies_in_year(
client: &Client,
table_name: &str,
year: u16,
) -> Result, MovieError> {
let results = client
.query()
.table_name(table_name)
.key_condition_expression("#yr = :yyyy")
.expression_attribute_names("#yr", "year")
.expression_attribute_values(":yyyy", AttributeValue::N(year.to_string()))
.send()
.await?;
if let Some(items) = results.items {
let movies = items.iter().map(|v| v.into()).collect();
Ok(movies)
} else {
Ok(vec![])
}
}
```
+ Pour de plus amples informations sur l’API, consultez [Requête](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.query) dans la *référence d’API du kit AWS SDK pour Rust*.
### `Scan`
L'exemple de code suivant montre comment utiliser`Scan`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
pub async fn list_items(client: &Client, table: &str, page_size: Option) -> Result<(), Error> {
let page_size = page_size.unwrap_or(10);
let items: Result, _> = client
.scan()
.table_name(table)
.limit(page_size)
.into_paginator()
.items()
.send()
.collect()
.await;
println!("Items in table (up to {page_size}):");
for item in items? {
println!(" {:?}", item);
}
Ok(())
}
```
+ Pour de plus amples informations sur l’API, consultez [Analyser](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.scan) dans la *référence d’API du kit AWS SDK pour Rust*.
## Scénarios
### Connexion à une instance locale
L'exemple de code suivant montre comment remplacer l'URL d'un point de terminaison pour se connecter à un déploiement de développement local de DynamoDB et à un SDK. AWS
Pour plus d’informations, consultez [DynamoDB local](https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/DynamoDBLocal.html).
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
/// Lists your tables from a local DynamoDB instance by setting the SDK Config's
/// endpoint_url and test_credentials.
#[tokio::main]
async fn main() {
tracing_subscriber::fmt::init();
let config = aws_config::defaults(aws_config::BehaviorVersion::latest())
.test_credentials()
// DynamoDB run locally uses port 8000 by default.
.endpoint_url("http://localhost:8000")
.load()
.await;
let dynamodb_local_config = aws_sdk_dynamodb::config::Builder::from(&config).build();
let client = aws_sdk_dynamodb::Client::from_conf(dynamodb_local_config);
let list_resp = client.list_tables().send().await;
match list_resp {
Ok(resp) => {
println!("Found {} tables", resp.table_names().len());
for name in resp.table_names() {
println!(" {}", name);
}
}
Err(err) => eprintln!("Failed to list local dynamodb tables: {err:?}"),
}
}
```
### Création d’une application sans serveur pour gérer des photos
L'exemple de code suivant montre comment créer une application sans serveur permettant aux utilisateurs de gérer des photos à l'aide d'étiquettes.
**SDK pour Rust**
Montre comment développer une application de gestion de ressources photographiques qui détecte les étiquettes dans les images à l’aide d’Amazon Rekognition et les stocke pour les récupérer ultérieurement.
Pour obtenir le code source complet et les instructions de configuration et d'exécution, consultez l'exemple complet sur [ GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/cross_service/photo_asset_management).
Pour explorer en profondeur l’origine de cet exemple, consultez l’article sur [AWS Community](https://community.aws/posts/cloud-journeys/01-serverless-image-recognition-app).
**Les services utilisés dans cet exemple**
+ API Gateway
+ DynamoDB
+ Lambda
+ Amazon Rekognition
+ Amazon S3
+ Amazon SNS
### Interrogation d’une table à l’aide de PartiQL
L’exemple de code suivant illustre comment :
+ Obtenez un élément en exécutant une instruction SELECT.
+ Ajoutez un élément en exécutant une instruction INSERT.
+ Mettez à jour un élément en exécutant une instruction UPDATE.
+ Supprimez un élément en exécutant une instruction DELETE.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/dynamodb#code-examples).
```
async fn make_table(
client: &Client,
table: &str,
key: &str,
) -> Result<(), SdkError> {
let ad = AttributeDefinition::builder()
.attribute_name(key)
.attribute_type(ScalarAttributeType::S)
.build()
.expect("creating AttributeDefinition");
let ks = KeySchemaElement::builder()
.attribute_name(key)
.key_type(KeyType::Hash)
.build()
.expect("creating KeySchemaElement");
match client
.create_table()
.table_name(table)
.key_schema(ks)
.attribute_definitions(ad)
.billing_mode(BillingMode::PayPerRequest)
.send()
.await
{
Ok(_) => Ok(()),
Err(e) => Err(e),
}
}
async fn add_item(client: &Client, item: Item) -> Result<(), SdkError> {
match client
.execute_statement()
.statement(format!(
r#"INSERT INTO "{}" VALUE {{
"{}": ?,
"acount_type": ?,
"age": ?,
"first_name": ?,
"last_name": ?
}} "#,
item.table, item.key
))
.set_parameters(Some(vec![
AttributeValue::S(item.utype),
AttributeValue::S(item.age),
AttributeValue::S(item.first_name),
AttributeValue::S(item.last_name),
]))
.send()
.await
{
Ok(_) => Ok(()),
Err(e) => Err(e),
}
}
async fn query_item(client: &Client, item: Item) -> bool {
match client
.execute_statement()
.statement(format!(
r#"SELECT * FROM "{}" WHERE "{}" = ?"#,
item.table, item.key
))
.set_parameters(Some(vec![AttributeValue::S(item.value)]))
.send()
.await
{
Ok(resp) => {
if !resp.items().is_empty() {
println!("Found a matching entry in the table:");
println!("{:?}", resp.items.unwrap_or_default().pop());
true
} else {
println!("Did not find a match.");
false
}
}
Err(e) => {
println!("Got an error querying table:");
println!("{}", e);
process::exit(1);
}
}
}
async fn remove_item(client: &Client, table: &str, key: &str, value: String) -> Result<(), Error> {
client
.execute_statement()
.statement(format!(r#"DELETE FROM "{table}" WHERE "{key}" = ?"#))
.set_parameters(Some(vec![AttributeValue::S(value)]))
.send()
.await?;
println!("Deleted item.");
Ok(())
}
async fn remove_table(client: &Client, table: &str) -> Result<(), Error> {
client.delete_table().table_name(table).send().await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [ExecuteStatement](https://docs.rs/aws-sdk-dynamodb/latest/aws_sdk_dynamodb/client/struct.Client.html#method.execute_statement)la section de *référence de l'API AWS SDK for Rust*.
### Enregistrer des informations EXIF et d’autres informations sur les images
L’exemple de code suivant illustre comment :
+ Obtenir des informations EXIF à partir d’un fichier JPG, JPEG ou PNG.
+ Charger le fichier image sur un compartiment Amazon S3.
+ Utiliser Amazon Rekognition pour identifier les trois principaux attributs (étiquettes) dans le fichier.
+ Ajouter les informations EXIF et les étiquettes à un tableau Amazon DynamoDB dans la région.
**SDK pour Rust**
Obtenez les informations EXIF à partir d’un fichier JPG, JPEG ou PNG, chargez le fichier image dans un compartiment Amazon S3, utilisez Amazon Rekognition pour identifier les trois principaux attributs (*étiquettes* dans Amazon Rekognition) du fichier et ajoutez les informations EXIF et d’étiquettes à un tableau Amazon DynamoDB dans la région.
Pour obtenir le code source complet et les instructions de configuration et d'exécution, consultez l'exemple complet sur [GitHub](https://github.com/awsdocs/aws-doc-sdk-examples/blob/main/rustv1/cross_service/detect_labels/src/main.rs).
**Les services utilisés dans cet exemple**
+ DynamoDB
+ Amazon Rekognition
+ Amazon S3
## Exemples sans serveur
### Invocation d’une fonction Lambda à partir d’un déclencheur DynamoDB
L’exemple de code suivant montre comment mettre en œuvre une fonction Lambda qui reçoit un événement déclenché par la réception d’enregistrements à partir d’un flux DynamoDB. La fonction récupère les données utiles DynamoDB et journalise le contenu de l’enregistrement.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’[exemples sans serveur](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda).
Consommation d’un événement DynamoDB avec Lambda en utilisant Rust.
```
use lambda_runtime::{service_fn, tracing, Error, LambdaEvent};
use aws_lambda_events::{
event::dynamodb::{Event, EventRecord},
};
// Built with the following dependencies:
//lambda_runtime = "0.11.1"
//serde_json = "1.0"
//tokio = { version = "1", features = ["macros"] }
//tracing = { version = "0.1", features = ["log"] }
//tracing-subscriber = { version = "0.3", default-features = false, features = ["fmt"] }
//aws_lambda_events = "0.15.0"
async fn function_handler(event: LambdaEvent) ->Result<(), Error> {
let records = &event.payload.records;
tracing::info!("event payload: {:?}",records);
if records.is_empty() {
tracing::info!("No records found. Exiting.");
return Ok(());
}
for record in records{
log_dynamo_dbrecord(record);
}
tracing::info!("Dynamo db records processed");
// Prepare the response
Ok(())
}
fn log_dynamo_dbrecord(record: &EventRecord)-> Result<(), Error>{
tracing::info!("EventId: {}", record.event_id);
tracing::info!("EventName: {}", record.event_name);
tracing::info!("DynamoDB Record: {:?}", record.change );
Ok(())
}
#[tokio::main]
async fn main() -> Result<(), Error> {
tracing_subscriber::fmt()
.with_max_level(tracing::Level::INFO)
.with_target(false)
.without_time()
.init();
let func = service_fn(function_handler);
lambda_runtime::run(func).await?;
Ok(())
}
```
### Signalement des échecs d’articles par lots pour les fonctions Lambda à l’aide d’un déclencheur DynamoDB
L’exemple de code suivant montre comment mettre en œuvre une réponse partielle par lots pour les fonctions Lambda qui reçoivent des événements à partir d’un flux DynamoDB. La fonction signale les défaillances échecs d’articles par lots dans la réponse, en indiquant à Lambda de réessayer ces messages ultérieurement.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’[exemples sans serveur](https://github.com/aws-samples/serverless-snippets/tree/main/integration-ddb-to-lambda-with-batch-item-handling).
Signalement des échecs d’articles par lots DynamoDB avec Lambda à l’aide de Rust.
```
use aws_lambda_events::{
event::dynamodb::{Event, EventRecord, StreamRecord},
streams::{DynamoDbBatchItemFailure, DynamoDbEventResponse},
};
use lambda_runtime::{run, service_fn, Error, LambdaEvent};
/// Process the stream record
fn process_record(record: &EventRecord) -> Result<(), Error> {
let stream_record: &StreamRecord = &record.change;
// process your stream record here...
tracing::info!("Data: {:?}", stream_record);
Ok(())
}
/// Main Lambda handler here...
async fn function_handler(event: LambdaEvent) -> Result {
let mut response = DynamoDbEventResponse {
batch_item_failures: vec![],
};
let records = &event.payload.records;
if records.is_empty() {
tracing::info!("No records found. Exiting.");
return Ok(response);
}
for record in records {
tracing::info!("EventId: {}", record.event_id);
// Couldn't find a sequence number
if record.change.sequence_number.is_none() {
response.batch_item_failures.push(DynamoDbBatchItemFailure {
item_identifier: Some("".to_string()),
});
return Ok(response);
}
// Process your record here...
if process_record(record).is_err() {
response.batch_item_failures.push(DynamoDbBatchItemFailure {
item_identifier: record.change.sequence_number.clone(),
});
/* Since we are working with streams, we can return the failed item immediately.
Lambda will immediately begin to retry processing from this failed item onwards. */
return Ok(response);
}
}
tracing::info!("Successfully processed {} record(s)", records.len());
Ok(response)
}
#[tokio::main]
async fn main() -> Result<(), Error> {
tracing_subscriber::fmt()
.with_max_level(tracing::Level::INFO)
// disable printing the name of the module in every log line.
.with_target(false)
// disabling time is handy because CloudWatch will add the ingestion time.
.without_time()
.init();
run(service_fn(function_handler)).await
}
```
## AWS contributions communautaires
### Création et test d’une application sans serveur
L’exemple de code suivant montre comment créer et tester une application sans serveur à l’aide d’API Gateway avec Lambda et DynamoDB.
**SDK pour Rust**
Illustre comment créer et tester une application sans serveur composée d’une API Gateway avec Lambda et DynamoDB à l’aide du kit SDK Rust.
Pour obtenir le code source complet et les instructions de configuration et d'exécution, consultez l'exemple complet sur [GitHub](https://github.com/aws-samples/serverless-rust-demo).
**Les services utilisés dans cet exemple**
+ API Gateway
+ DynamoDB
+ Lambda
# Exemples Amazon EBS avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon EBS.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `CompleteSnapshot`
L'exemple de code suivant montre comment utiliser`CompleteSnapshot`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples).
```
async fn finish(client: &Client, id: &str) -> Result<(), Error> {
client
.complete_snapshot()
.changed_blocks_count(2)
.snapshot_id(id)
.send()
.await?;
println!("Snapshot ID {}", id);
println!("The state is 'completed' when all of the modified blocks have been transferred to Amazon S3.");
println!("Use the get-snapshot-state code example to get the state of the snapshot.");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [CompleteSnapshot](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.complete_snapshot)la section de *référence de l'API AWS SDK for Rust*.
### `PutSnapshotBlock`
L'exemple de code suivant montre comment utiliser`PutSnapshotBlock`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples).
```
async fn add_block(
client: &Client,
id: &str,
idx: usize,
block: Vec,
checksum: &str,
) -> Result<(), Error> {
client
.put_snapshot_block()
.snapshot_id(id)
.block_index(idx as i32)
.block_data(ByteStream::from(block))
.checksum(checksum)
.checksum_algorithm(ChecksumAlgorithm::ChecksumAlgorithmSha256)
.data_length(EBS_BLOCK_SIZE as i32)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [PutSnapshotBlock](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.put_snapshot_block)la section de *référence de l'API AWS SDK for Rust*.
### `StartSnapshot`
L'exemple de code suivant montre comment utiliser`StartSnapshot`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples).
```
async fn start(client: &Client, description: &str) -> Result {
let snapshot = client
.start_snapshot()
.description(description)
.encrypted(false)
.volume_size(1)
.send()
.await?;
Ok(snapshot.snapshot_id.unwrap())
}
```
+ Pour plus de détails sur l'API, voir [StartSnapshot](https://docs.rs/aws-sdk-ebs/latest/aws_sdk_ebs/client/struct.Client.html#method.start_snapshot)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon EC2 avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon EC2.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Mise en route](#get_started)
+ [Principes de base](#basics)
+ [Actions](#actions)
## Mise en route
### Hello Amazon EC2
L'exemple de code suivant montre comment commencer à utiliser Amazon EC2.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec) {
let response = client
.describe_security_groups()
.set_group_ids(Some(group_ids))
.send()
.await;
match response {
Ok(output) => {
for group in output.security_groups() {
println!(
"Found Security Group {} ({}), vpc id {} and description {}",
group.group_name().unwrap_or("unknown"),
group.group_id().unwrap_or("id-unknown"),
group.vpc_id().unwrap_or("vpcid-unknown"),
group.description().unwrap_or("(none)")
);
}
}
Err(err) => {
let err = err.into_service_error();
let meta = err.meta();
let message = meta.message().unwrap_or("unknown");
let code = meta.code().unwrap_or("unknown");
eprintln!("Error listing EC2 Security Groups: ({code}) {message}");
}
}
}
```
+ Pour plus de détails sur l'API, voir [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)la section de *référence de l'API AWS SDK for Rust*.
## Principes de base
### Principes de base
L’exemple de code suivant illustre comment :
+ Créez une paire de clés et un groupe de sécurité.
+ Sélectionnez une Amazon Machine Image (AMI) et un type d’instance compatible, puis créez une instance.
+ Arrêtez l’instance, puis redémarrez-la.
+ Associez une adresse IP Elastic à votre instance
+ Connectez-vous à votre instance avec SSH, puis nettoyez les ressources.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
L' EC2InstanceScenario implémentation contient une logique permettant d'exécuter l'exemple dans son ensemble.
```
//! Scenario that uses the AWS SDK for Rust (the SDK) with Amazon Elastic Compute Cloud
//! (Amazon EC2) to do the following:
//!
//! * Create a key pair that is used to secure SSH communication between your computer and
//! an EC2 instance.
//! * Create a security group that acts as a virtual firewall for your EC2 instances to
//! control incoming and outgoing traffic.
//! * Find an Amazon Machine Image (AMI) and a compatible instance type.
//! * Create an instance that is created from the instance type and AMI you select, and
//! is configured to use the security group and key pair created in this example.
//! * Stop and restart the instance.
//! * Create an Elastic IP address and associate it as a consistent IP address for your instance.
//! * Connect to your instance with SSH, using both its public IP address and your Elastic IP
//! address.
//! * Clean up all of the resources created by this example.
use std::net::Ipv4Addr;
use crate::{
ec2::{EC2Error, EC2},
getting_started::{key_pair::KeyPairManager, util::Util},
ssm::SSM,
};
use aws_sdk_ssm::types::Parameter;
use super::{
elastic_ip::ElasticIpManager, instance::InstanceManager, security_group::SecurityGroupManager,
util::ScenarioImage,
};
pub struct Ec2InstanceScenario {
ec2: EC2,
ssm: SSM,
util: Util,
key_pair_manager: KeyPairManager,
security_group_manager: SecurityGroupManager,
instance_manager: InstanceManager,
elastic_ip_manager: ElasticIpManager,
}
impl Ec2InstanceScenario {
pub fn new(ec2: EC2, ssm: SSM, util: Util) -> Self {
Ec2InstanceScenario {
ec2,
ssm,
util,
key_pair_manager: Default::default(),
security_group_manager: Default::default(),
instance_manager: Default::default(),
elastic_ip_manager: Default::default(),
}
}
pub async fn run(&mut self) -> Result<(), EC2Error> {
self.create_and_list_key_pairs().await?;
self.create_security_group().await?;
self.create_instance().await?;
self.stop_and_start_instance().await?;
self.associate_elastic_ip().await?;
self.stop_and_start_instance().await?;
Ok(())
}
/// 1. Creates an RSA key pair and saves its private key data as a .pem file in secure
/// temporary storage. The private key data is deleted after the example completes.
/// 2. Optionally, lists the first five key pairs for the current account.
pub async fn create_and_list_key_pairs(&mut self) -> Result<(), EC2Error> {
println!( "Let's create an RSA key pair that you can be use to securely connect to your EC2 instance.");
let key_name = self.util.prompt_key_name()?;
self.key_pair_manager
.create(&self.ec2, &self.util, key_name)
.await?;
println!(
"Created a key pair {} and saved the private key to {:?}.",
self.key_pair_manager
.key_pair()
.key_name()
.ok_or_else(|| EC2Error::new("No key name after creating key"))?,
self.key_pair_manager
.key_file_path()
.ok_or_else(|| EC2Error::new("No key file after creating key"))?
);
if self.util.should_list_key_pairs()? {
for pair in self.key_pair_manager.list(&self.ec2).await? {
println!(
"Found {:?} key {} with fingerprint:\t{:?}",
pair.key_type(),
pair.key_name().unwrap_or("Unknown"),
pair.key_fingerprint()
);
}
}
Ok(())
}
/// 1. Creates a security group for the default VPC.
/// 2. Adds an inbound rule to allow SSH. The SSH rule allows only
/// inbound traffic from the current computer’s public IPv4 address.
/// 3. Displays information about the security group.
///
/// This function uses to get the current public IP
/// address of the computer that is running the example. This method works in most
/// cases. However, depending on how your computer connects to the internet, you
/// might have to manually add your public IP address to the security group by using
/// the AWS Management Console.
pub async fn create_security_group(&mut self) -> Result<(), EC2Error> {
println!("Let's create a security group to manage access to your instance.");
let group_name = self.util.prompt_security_group_name()?;
self.security_group_manager
.create(
&self.ec2,
&group_name,
"Security group for example: get started with instances.",
)
.await?;
println!(
"Created security group {} in your default VPC {}.",
self.security_group_manager.group_name(),
self.security_group_manager
.vpc_id()
.unwrap_or("(unknown vpc)")
);
let check_ip = self.util.do_get("https://checkip.amazonaws.com").await?;
let current_ip_address: Ipv4Addr = check_ip.trim().parse().map_err(|e| {
EC2Error::new(format!(
"Failed to convert response {} to IP Address: {e:?}",
check_ip
))
})?;
println!("Your public IP address seems to be {current_ip_address}");
if self.util.should_add_to_security_group() {
match self
.security_group_manager
.authorize_ingress(&self.ec2, current_ip_address)
.await
{
Ok(_) => println!("Security group rules updated"),
Err(err) => eprintln!("Couldn't update security group rules: {err:?}"),
}
}
println!("{}", self.security_group_manager);
Ok(())
}
/// 1. Gets a list of Amazon Linux 2 AMIs from AWS Systems Manager. Specifying the
/// '/aws/service/ami-amazon-linux-latest' path returns only the latest AMIs.
/// 2. Gets and displays information about the available AMIs and lets you select one.
/// 3. Gets a list of instance types that are compatible with the selected AMI and
/// lets you select one.
/// 4. Creates an instance with the previously created key pair and security group,
/// and the selected AMI and instance type.
/// 5. Waits for the instance to be running and then displays its information.
pub async fn create_instance(&mut self) -> Result<(), EC2Error> {
let ami = self.find_image().await?;
let instance_types = self
.ec2
.list_instance_types(&ami.0)
.await
.map_err(|e| e.add_message("Could not find instance types"))?;
println!(
"There are several instance types that support the {} architecture of the image.",
ami.0
.architecture
.as_ref()
.ok_or_else(|| EC2Error::new(format!("Missing architecture in {:?}", ami.0)))?
);
let instance_type = self.util.select_instance_type(instance_types)?;
println!("Creating your instance and waiting for it to start...");
self.instance_manager
.create(
&self.ec2,
ami.0
.image_id()
.ok_or_else(|| EC2Error::new("Could not find image ID"))?,
instance_type,
self.key_pair_manager.key_pair(),
self.security_group_manager
.security_group()
.map(|sg| vec![sg])
.ok_or_else(|| EC2Error::new("Could not find security group"))?,
)
.await
.map_err(|e| e.add_message("Scenario failed to create instance"))?;
while let Err(err) = self
.ec2
.wait_for_instance_ready(self.instance_manager.instance_id(), None)
.await
{
println!("{err}");
if !self.util.should_continue_waiting() {
return Err(err);
}
}
println!("Your instance is ready:\n{}", self.instance_manager);
self.display_ssh_info();
Ok(())
}
async fn find_image(&mut self) -> Result {
let params: Vec = self
.ssm
.list_path("/aws/service/ami-amazon-linux-latest")
.await
.map_err(|e| e.add_message("Could not find parameters for available images"))?
.into_iter()
.filter(|param| param.name().is_some_and(|name| name.contains("amzn2")))
.collect();
let amzn2_images: Vec = self
.ec2
.list_images(params)
.await
.map_err(|e| e.add_message("Could not find images"))?
.into_iter()
.map(ScenarioImage::from)
.collect();
println!("We will now create an instance from an Amazon Linux 2 AMI");
let ami = self.util.select_scenario_image(amzn2_images)?;
Ok(ami)
}
// 1. Stops the instance and waits for it to stop.
// 2. Starts the instance and waits for it to start.
// 3. Displays information about the instance.
// 4. Displays an SSH connection string. When an Elastic IP address is associated
// with the instance, the IP address stays consistent when the instance stops
// and starts.
pub async fn stop_and_start_instance(&self) -> Result<(), EC2Error> {
println!("Let's stop and start your instance to see what changes.");
println!("Stopping your instance and waiting until it's stopped...");
self.instance_manager.stop(&self.ec2).await?;
println!("Your instance is stopped. Restarting...");
self.instance_manager.start(&self.ec2).await?;
println!("Your instance is running.");
println!("{}", self.instance_manager);
if self.elastic_ip_manager.public_ip() == "0.0.0.0" {
println!("Every time your instance is restarted, its public IP address changes.");
} else {
println!(
"Because you have associated an Elastic IP with your instance, you can connect by using a consistent IP address after the instance restarts."
);
}
self.display_ssh_info();
Ok(())
}
/// 1. Allocates an Elastic IP address and associates it with the instance.
/// 2. Displays an SSH connection string that uses the Elastic IP address.
async fn associate_elastic_ip(&mut self) -> Result<(), EC2Error> {
self.elastic_ip_manager.allocate(&self.ec2).await?;
println!(
"Allocated static Elastic IP address: {}",
self.elastic_ip_manager.public_ip()
);
self.elastic_ip_manager
.associate(&self.ec2, self.instance_manager.instance_id())
.await?;
println!("Associated your Elastic IP with your instance.");
println!("You can now use SSH to connect to your instance by using the Elastic IP.");
self.display_ssh_info();
Ok(())
}
/// Displays an SSH connection string that can be used to connect to a running
/// instance.
fn display_ssh_info(&self) {
let ip_addr = if self.elastic_ip_manager.has_allocation() {
self.elastic_ip_manager.public_ip()
} else {
self.instance_manager.instance_ip()
};
let key_file_path = self.key_pair_manager.key_file_path().unwrap();
println!("To connect, open another command prompt and run the following command:");
println!("\nssh -i {} ec2-user@{ip_addr}\n", key_file_path.display());
let _ = self.util.enter_to_continue();
}
/// 1. Disassociate and delete the previously created Elastic IP.
/// 2. Terminate the previously created instance.
/// 3. Delete the previously created security group.
/// 4. Delete the previously created key pair.
pub async fn clean_up(self) {
println!("Let's clean everything up. This example created these resources:");
println!(
"\tKey pair: {}",
self.key_pair_manager
.key_pair()
.key_name()
.unwrap_or("(unknown key pair)")
);
println!(
"\tSecurity group: {}",
self.security_group_manager.group_name()
);
println!(
"\tInstance: {}",
self.instance_manager.instance_display_name()
);
if self.util.should_clean_resources() {
if let Err(err) = self.elastic_ip_manager.remove(&self.ec2).await {
eprintln!("{err}")
}
if let Err(err) = self.instance_manager.delete(&self.ec2).await {
eprintln!("{err}")
}
if let Err(err) = self.security_group_manager.delete(&self.ec2).await {
eprintln!("{err}");
}
if let Err(err) = self.key_pair_manager.delete(&self.ec2, &self.util).await {
eprintln!("{err}");
}
} else {
println!("Ok, not cleaning up any resources!");
}
}
}
pub async fn run(mut scenario: Ec2InstanceScenario) {
println!("--------------------------------------------------------------------------------");
println!(
"Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo."
);
println!("--------------------------------------------------------------------------------");
if let Err(err) = scenario.run().await {
eprintln!("There was an error running the scenario: {err}")
}
println!("--------------------------------------------------------------------------------");
scenario.clean_up().await;
println!("Thanks for running!");
println!("--------------------------------------------------------------------------------");
}
```
La structure EC2Impl sert de point de blocage automatique pour les tests et ses fonctions encapsulent les appels du kit SDK EC2.
```
use std::{net::Ipv4Addr, time::Duration};
use aws_sdk_ec2::{
client::Waiters,
error::ProvideErrorMetadata,
operation::{
allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput,
},
types::{
DomainType, Filter, Image, Instance, InstanceType, IpPermission, IpRange, KeyPairInfo,
SecurityGroup, Tag,
},
Client as EC2Client,
};
use aws_sdk_ssm::types::Parameter;
use aws_smithy_runtime_api::client::waiters::error::WaiterError;
#[cfg(test)]
use mockall::automock;
#[cfg(not(test))]
pub use EC2Impl as EC2;
#[cfg(test)]
pub use MockEC2Impl as EC2;
#[derive(Clone)]
pub struct EC2Impl {
pub client: EC2Client,
}
#[cfg_attr(test, automock)]
impl EC2Impl {
pub fn new(client: EC2Client) -> Self {
EC2Impl { client }
}
pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> {
tracing::info!("Creating key pair {name}");
let output = self.client.create_key_pair().key_name(name).send().await?;
let info = KeyPairInfo::builder()
.set_key_name(output.key_name)
.set_key_fingerprint(output.key_fingerprint)
.set_key_pair_id(output.key_pair_id)
.build();
let material = output
.key_material
.ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?;
Ok((info, material))
}
pub async fn list_key_pair(&self) -> Result, EC2Error> {
let output = self.client.describe_key_pairs().send().await?;
Ok(output.key_pairs.unwrap_or_default())
}
pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> {
let key_name: String = key_name.into();
tracing::info!("Deleting key pair {key_name}");
self.client
.delete_key_pair()
.key_name(key_name)
.send()
.await?;
Ok(())
}
pub async fn create_security_group(
&self,
name: &str,
description: &str,
) -> Result {
tracing::info!("Creating security group {name}");
let create_output = self
.client
.create_security_group()
.group_name(name)
.description(description)
.send()
.await
.map_err(EC2Error::from)?;
let group_id = create_output
.group_id
.ok_or_else(|| EC2Error::new("Missing security group id after creation"))?;
let group = self
.describe_security_group(&group_id)
.await?
.ok_or_else(|| {
EC2Error::new(format!("Could not find security group with id {group_id}"))
})?;
tracing::info!("Created security group {name} as {group_id}");
Ok(group)
}
/// Find a single security group, by ID. Returns Err if multiple groups are found.
pub async fn describe_security_group(
&self,
group_id: &str,
) -> Result, EC2Error> {
let group_id: String = group_id.into();
let describe_output = self
.client
.describe_security_groups()
.group_ids(&group_id)
.send()
.await?;
let mut groups = describe_output.security_groups.unwrap_or_default();
match groups.len() {
0 => Ok(None),
1 => Ok(Some(groups.remove(0))),
_ => Err(EC2Error::new(format!(
"Expected single group for {group_id}"
))),
}
}
/// Add an ingress rule to a security group explicitly allowing IPv4 address
/// as {ip}/32 over TCP port 22.
pub async fn authorize_security_group_ssh_ingress(
&self,
group_id: &str,
ingress_ips: Vec,
) -> Result<(), EC2Error> {
tracing::info!("Authorizing ingress for security group {group_id}");
self.client
.authorize_security_group_ingress()
.group_id(group_id)
.set_ip_permissions(Some(
ingress_ips
.into_iter()
.map(|ip| {
IpPermission::builder()
.ip_protocol("tcp")
.from_port(22)
.to_port(22)
.ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build())
.build()
})
.collect(),
))
.send()
.await?;
Ok(())
}
pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> {
tracing::info!("Deleting security group {group_id}");
self.client
.delete_security_group()
.group_id(group_id)
.send()
.await?;
Ok(())
}
pub async fn list_images(&self, ids: Vec) -> Result, EC2Error> {
let image_ids = ids.into_iter().filter_map(|p| p.value).collect();
let output = self
.client
.describe_images()
.set_image_ids(Some(image_ids))
.send()
.await?;
let images = output.images.unwrap_or_default();
if images.is_empty() {
Err(EC2Error::new("No images for selected AMIs"))
} else {
Ok(images)
}
}
/// List instance types that match an image's architecture and are free tier eligible.
pub async fn list_instance_types(&self, image: &Image) -> Result, EC2Error> {
let architecture = format!(
"{}",
image.architecture().ok_or_else(|| EC2Error::new(format!(
"Image {:?} does not have a listed architecture",
image.image_id()
)))?
);
let free_tier_eligible_filter = Filter::builder()
.name("free-tier-eligible")
.values("false")
.build();
let supported_architecture_filter = Filter::builder()
.name("processor-info.supported-architecture")
.values(architecture)
.build();
let response = self
.client
.describe_instance_types()
.filters(free_tier_eligible_filter)
.filters(supported_architecture_filter)
.send()
.await?;
Ok(response
.instance_types
.unwrap_or_default()
.into_iter()
.filter_map(|iti| iti.instance_type)
.collect())
}
pub async fn create_instance<'a>(
&self,
image_id: &'a str,
instance_type: InstanceType,
key_pair: &'a KeyPairInfo,
security_groups: Vec<&'a SecurityGroup>,
) -> Result {
let run_instances = self
.client
.run_instances()
.image_id(image_id)
.instance_type(instance_type)
.key_name(
key_pair
.key_name()
.ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
)
.set_security_group_ids(Some(
security_groups
.iter()
.filter_map(|sg| sg.group_id.clone())
.collect(),
))
.min_count(1)
.max_count(1)
.send()
.await?;
if run_instances.instances().is_empty() {
return Err(EC2Error::new("Failed to create instance"));
}
let instance_id = run_instances.instances()[0].instance_id().unwrap();
let response = self
.client
.create_tags()
.resources(instance_id)
.tags(
Tag::builder()
.key("Name")
.value("From SDK Examples")
.build(),
)
.send()
.await;
match response {
Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
Err(err) => {
tracing::info!("Error applying tags to {instance_id}: {err:?}");
return Err(err.into());
}
}
tracing::info!("Instance is created.");
Ok(instance_id.to_string())
}
/// Wait for an instance to be ready and status ok (default wait 60 seconds)
pub async fn wait_for_instance_ready(
&self,
instance_id: &str,
duration: Option,
) -> Result<(), EC2Error> {
self.client
.wait_until_instance_status_ok()
.instance_ids(instance_id)
.wait(duration.unwrap_or(Duration::from_secs(60)))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to start.",
exceeded.max_wait().as_secs()
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
pub async fn describe_instance(&self, instance_id: &str) -> Result {
let response = self
.client
.describe_instances()
.instance_ids(instance_id)
.send()
.await?;
let instance = response
.reservations()
.first()
.ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))?
.instances()
.first()
.ok_or_else(|| {
EC2Error::new(format!("No instances in reservation for {instance_id}"))
})?;
Ok(instance.clone())
}
pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Starting instance {instance_id}");
self.client
.start_instances()
.instance_ids(instance_id)
.send()
.await?;
tracing::info!("Started instance.");
Ok(())
}
pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Stopping instance {instance_id}");
self.client
.stop_instances()
.instance_ids(instance_id)
.send()
.await?;
self.wait_for_instance_stopped(instance_id, None).await?;
tracing::info!("Stopped instance.");
Ok(())
}
pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Rebooting instance {instance_id}");
self.client
.reboot_instances()
.instance_ids(instance_id)
.send()
.await?;
Ok(())
}
pub async fn wait_for_instance_stopped(
&self,
instance_id: &str,
duration: Option,
) -> Result<(), EC2Error> {
self.client
.wait_until_instance_stopped()
.instance_ids(instance_id)
.wait(duration.unwrap_or(Duration::from_secs(60)))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to stop.",
exceeded.max_wait().as_secs(),
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Deleting instance with id {instance_id}");
self.stop_instance(instance_id).await?;
self.client
.terminate_instances()
.instance_ids(instance_id)
.send()
.await?;
self.wait_for_instance_terminated(instance_id).await?;
tracing::info!("Terminated instance with id {instance_id}");
Ok(())
}
async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> {
self.client
.wait_until_instance_terminated()
.instance_ids(instance_id)
.wait(Duration::from_secs(60))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to terminate.",
exceeded.max_wait().as_secs(),
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
pub async fn allocate_ip_address(&self) -> Result {
self.client
.allocate_address()
.domain(DomainType::Vpc)
.send()
.await
.map_err(EC2Error::from)
}
pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> {
self.client
.release_address()
.allocation_id(allocation_id)
.send()
.await?;
Ok(())
}
pub async fn associate_ip_address(
&self,
allocation_id: &str,
instance_id: &str,
) -> Result {
let response = self
.client
.associate_address()
.allocation_id(allocation_id)
.instance_id(instance_id)
.send()
.await?;
Ok(response)
}
pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> {
self.client
.disassociate_address()
.association_id(association_id)
.send()
.await?;
Ok(())
}
}
#[derive(Debug)]
pub struct EC2Error(String);
impl EC2Error {
pub fn new(value: impl Into) -> Self {
EC2Error(value.into())
}
pub fn add_message(self, message: impl Into) -> Self {
EC2Error(format!("{}: {}", message.into(), self.0))
}
}
impl From for EC2Error {
fn from(value: T) -> Self {
EC2Error(format!(
"{}: {}",
value
.code()
.map(String::from)
.unwrap_or("unknown code".into()),
value
.message()
.map(String::from)
.unwrap_or("missing reason".into()),
))
}
}
impl std::error::Error for EC2Error {}
impl std::fmt::Display for EC2Error {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.0)
}
}
```
La structure SSM sert de point de blocage automatique pour les tests et ses fonctions encapsulent les appels du kit SDK SSM.
```
use aws_sdk_ssm::{types::Parameter, Client};
use aws_smithy_async::future::pagination_stream::TryFlatMap;
use crate::ec2::EC2Error;
#[cfg(test)]
use mockall::automock;
#[cfg(not(test))]
pub use SSMImpl as SSM;
#[cfg(test)]
pub use MockSSMImpl as SSM;
pub struct SSMImpl {
inner: Client,
}
#[cfg_attr(test, automock)]
impl SSMImpl {
pub fn new(inner: Client) -> Self {
SSMImpl { inner }
}
pub async fn list_path(&self, path: &str) -> Result, EC2Error> {
let maybe_params: Vec> = TryFlatMap::new(
self.inner
.get_parameters_by_path()
.path(path)
.into_paginator()
.send(),
)
.flat_map(|item| item.parameters.unwrap_or_default())
.collect()
.await;
// Fail on the first error
let params = maybe_params
.into_iter()
.collect::, _>>()?;
Ok(params)
}
}
```
Le scénario utilise plusieurs structures de type « Manager » pour gérer l’accès aux ressources créées et supprimées tout au long du scénario.
```
use aws_sdk_ec2::operation::{
allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput,
};
use crate::ec2::{EC2Error, EC2};
/// ElasticIpManager tracks the lifecycle of a public IP address, including its
/// allocation from the global pool and association with a specific instance.
#[derive(Debug, Default)]
pub struct ElasticIpManager {
elastic_ip: Option,
association: Option,
}
impl ElasticIpManager {
pub fn has_allocation(&self) -> bool {
self.elastic_ip.is_some()
}
pub fn public_ip(&self) -> &str {
if let Some(allocation) = &self.elastic_ip {
if let Some(addr) = allocation.public_ip() {
return addr;
}
}
"0.0.0.0"
}
pub async fn allocate(&mut self, ec2: &EC2) -> Result<(), EC2Error> {
let allocation = ec2.allocate_ip_address().await?;
self.elastic_ip = Some(allocation);
Ok(())
}
pub async fn associate(&mut self, ec2: &EC2, instance_id: &str) -> Result<(), EC2Error> {
if let Some(allocation) = &self.elastic_ip {
if let Some(allocation_id) = allocation.allocation_id() {
let association = ec2.associate_ip_address(allocation_id, instance_id).await?;
self.association = Some(association);
return Ok(());
}
}
Err(EC2Error::new("No ip address allocation to associate"))
}
pub async fn remove(mut self, ec2: &EC2) -> Result<(), EC2Error> {
if let Some(association) = &self.association {
if let Some(association_id) = association.association_id() {
ec2.disassociate_ip_address(association_id).await?;
}
}
self.association = None;
if let Some(allocation) = &self.elastic_ip {
if let Some(allocation_id) = allocation.allocation_id() {
ec2.deallocate_ip_address(allocation_id).await?;
}
}
self.elastic_ip = None;
Ok(())
}
}
use std::fmt::Display;
use aws_sdk_ec2::types::{Instance, InstanceType, KeyPairInfo, SecurityGroup};
use crate::ec2::{EC2Error, EC2};
/// InstanceManager wraps the lifecycle of an EC2 Instance.
#[derive(Debug, Default)]
pub struct InstanceManager {
instance: Option,
}
impl InstanceManager {
pub fn instance_id(&self) -> &str {
if let Some(instance) = &self.instance {
if let Some(id) = instance.instance_id() {
return id;
}
}
"Unknown"
}
pub fn instance_name(&self) -> &str {
if let Some(instance) = &self.instance {
if let Some(tag) = instance.tags().iter().find(|e| e.key() == Some("Name")) {
if let Some(value) = tag.value() {
return value;
}
}
}
"Unknown"
}
pub fn instance_ip(&self) -> &str {
if let Some(instance) = &self.instance {
if let Some(public_ip_address) = instance.public_ip_address() {
return public_ip_address;
}
}
"0.0.0.0"
}
pub fn instance_display_name(&self) -> String {
format!("{} ({})", self.instance_name(), self.instance_id())
}
/// Create an EC2 instance with the given ID on a given type, using a
/// generated KeyPair and applying a list of security groups.
pub async fn create(
&mut self,
ec2: &EC2,
image_id: &str,
instance_type: InstanceType,
key_pair: &KeyPairInfo,
security_groups: Vec<&SecurityGroup>,
) -> Result<(), EC2Error> {
let instance_id = ec2
.create_instance(image_id, instance_type, key_pair, security_groups)
.await?;
let instance = ec2.describe_instance(&instance_id).await?;
self.instance = Some(instance);
Ok(())
}
/// Start the managed EC2 instance, if present.
pub async fn start(&self, ec2: &EC2) -> Result<(), EC2Error> {
if self.instance.is_some() {
ec2.start_instance(self.instance_id()).await?;
}
Ok(())
}
/// Stop the managed EC2 instance, if present.
pub async fn stop(&self, ec2: &EC2) -> Result<(), EC2Error> {
if self.instance.is_some() {
ec2.stop_instance(self.instance_id()).await?;
}
Ok(())
}
pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> {
if self.instance.is_some() {
ec2.reboot_instance(self.instance_id()).await?;
ec2.wait_for_instance_stopped(self.instance_id(), None)
.await?;
ec2.wait_for_instance_ready(self.instance_id(), None)
.await?;
}
Ok(())
}
/// Terminate and delete the managed EC2 instance, if present.
pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> {
if self.instance.is_some() {
ec2.delete_instance(self.instance_id()).await?;
}
Ok(())
}
}
impl Display for InstanceManager {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
if let Some(instance) = &self.instance {
writeln!(f, "\tID: {}", instance.instance_id().unwrap_or("(Unknown)"))?;
writeln!(
f,
"\tImage ID: {}",
instance.image_id().unwrap_or("(Unknown)")
)?;
writeln!(
f,
"\tInstance type: {}",
instance
.instance_type()
.map(|it| format!("{it}"))
.unwrap_or("(Unknown)".to_string())
)?;
writeln!(
f,
"\tKey name: {}",
instance.key_name().unwrap_or("(Unknown)")
)?;
writeln!(f, "\tVPC ID: {}", instance.vpc_id().unwrap_or("(Unknown)"))?;
writeln!(
f,
"\tPublic IP: {}",
instance.public_ip_address().unwrap_or("(Unknown)")
)?;
let instance_state = instance
.state
.as_ref()
.map(|is| {
is.name()
.map(|isn| format!("{isn}"))
.unwrap_or("(Unknown)".to_string())
})
.unwrap_or("(Unknown)".to_string());
writeln!(f, "\tState: {instance_state}")?;
} else {
writeln!(f, "\tNo loaded instance")?;
}
Ok(())
}
}
use std::{env, path::PathBuf};
use aws_sdk_ec2::types::KeyPairInfo;
use crate::ec2::{EC2Error, EC2};
use super::util::Util;
/// KeyPairManager tracks a KeyPairInfo and the path the private key has been
/// written to, if it's been created.
#[derive(Debug)]
pub struct KeyPairManager {
key_pair: KeyPairInfo,
key_file_path: Option,
key_file_dir: PathBuf,
}
impl KeyPairManager {
pub fn new() -> Self {
Self::default()
}
pub fn key_pair(&self) -> &KeyPairInfo {
&self.key_pair
}
pub fn key_file_path(&self) -> Option<&PathBuf> {
self.key_file_path.as_ref()
}
pub fn key_file_dir(&self) -> &PathBuf {
&self.key_file_dir
}
/// Creates a key pair that can be used to securely connect to an EC2 instance.
/// The returned key pair contains private key information that cannot be retrieved
/// again. The private key data is stored as a .pem file.
///
/// :param key_name: The name of the key pair to create.
pub async fn create(
&mut self,
ec2: &EC2,
util: &Util,
key_name: String,
) -> Result {
let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| {
self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build();
e.add_message(format!("Couldn't create key {key_name}"))
})?;
let path = self.key_file_dir.join(format!("{key_name}.pem"));
// Save the key_pair information immediately, so it can get cleaned up if write_secure fails.
self.key_file_path = Some(path.clone());
self.key_pair = key_pair.clone();
util.write_secure(&key_name, &path, material)?;
Ok(key_pair)
}
pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> {
if let Some(key_name) = self.key_pair.key_name() {
ec2.delete_key_pair(key_name).await?;
if let Some(key_path) = self.key_file_path() {
if let Err(err) = util.remove(key_path) {
eprintln!("Failed to remove {key_path:?} ({err:?})");
}
}
}
Ok(())
}
pub async fn list(&self, ec2: &EC2) -> Result, EC2Error> {
ec2.list_key_pair().await
}
}
impl Default for KeyPairManager {
fn default() -> Self {
KeyPairManager {
key_pair: KeyPairInfo::builder().build(),
key_file_path: Default::default(),
key_file_dir: env::temp_dir(),
}
}
}
use std::net::Ipv4Addr;
use aws_sdk_ec2::types::SecurityGroup;
use crate::ec2::{EC2Error, EC2};
/// SecurityGroupManager tracks the lifecycle of a SecurityGroup for an instance,
/// including adding a rule to allow SSH from a public IP address.
#[derive(Debug, Default)]
pub struct SecurityGroupManager {
group_name: String,
group_description: String,
security_group: Option,
}
impl SecurityGroupManager {
pub async fn create(
&mut self,
ec2: &EC2,
group_name: &str,
group_description: &str,
) -> Result<(), EC2Error> {
self.group_name = group_name.into();
self.group_description = group_description.into();
self.security_group = Some(
ec2.create_security_group(group_name, group_description)
.await
.map_err(|e| e.add_message("Couldn't create security group"))?,
);
Ok(())
}
pub async fn authorize_ingress(&self, ec2: &EC2, ip_address: Ipv4Addr) -> Result<(), EC2Error> {
if let Some(sg) = &self.security_group {
ec2.authorize_security_group_ssh_ingress(
sg.group_id()
.ok_or_else(|| EC2Error::new("Missing security group ID"))?,
vec![ip_address],
)
.await?;
};
Ok(())
}
pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> {
if let Some(sg) = &self.security_group {
ec2.delete_security_group(
sg.group_id()
.ok_or_else(|| EC2Error::new("Missing security group ID"))?,
)
.await?;
};
Ok(())
}
pub fn group_name(&self) -> &str {
&self.group_name
}
pub fn vpc_id(&self) -> Option<&str> {
self.security_group.as_ref().and_then(|sg| sg.vpc_id())
}
pub fn security_group(&self) -> Option<&SecurityGroup> {
self.security_group.as_ref()
}
}
impl std::fmt::Display for SecurityGroupManager {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match &self.security_group {
Some(sg) => {
writeln!(
f,
"Security group: {}",
sg.group_name().unwrap_or("(unknown group)")
)?;
writeln!(f, "\tID: {}", sg.group_id().unwrap_or("(unknown group id)"))?;
writeln!(f, "\tVPC: {}", sg.vpc_id().unwrap_or("(unknown group vpc)"))?;
if !sg.ip_permissions().is_empty() {
writeln!(f, "\tInbound Permissions:")?;
for permission in sg.ip_permissions() {
writeln!(f, "\t\t{permission:?}")?;
}
}
Ok(())
}
None => writeln!(f, "No security group loaded."),
}
}
}
```
Le point d’entrée principal du scénario.
```
use ec2_code_examples::{
ec2::EC2,
getting_started::{
scenario::{run, Ec2InstanceScenario},
util::UtilImpl,
},
ssm::SSM,
};
#[tokio::main]
async fn main() {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::load_from_env().await;
let ec2 = EC2::new(aws_sdk_ec2::Client::new(&sdk_config));
let ssm = SSM::new(aws_sdk_ssm::Client::new(&sdk_config));
let util = UtilImpl {};
let scenario = Ec2InstanceScenario::new(ec2, ssm, util);
run(scenario).await;
}
```
+ Pour plus de détails sur l’API, consultez les rubriques suivantes dans la *Référence des API du kit AWS SDK pour Rust*.
+ [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address)
+ [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address)
+ [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress)
+ [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair)
+ [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group)
+ [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair)
+ [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group)
+ [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images)
+ [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types)
+ [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances)
+ [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs)
+ [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)
+ [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address)
+ [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address)
+ [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances)
+ [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances)
+ [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances)
+ [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances)
+ [UnmonitorInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.unmonitor_instances)
## Actions
### `AllocateAddress`
L'exemple de code suivant montre comment utiliser`AllocateAddress`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn allocate_ip_address(&self) -> Result {
self.client
.allocate_address()
.domain(DomainType::Vpc)
.send()
.await
.map_err(EC2Error::from)
}
```
+ Pour plus de détails sur l'API, voir [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address)la section de *référence de l'API AWS SDK for Rust*.
### `AssociateAddress`
L'exemple de code suivant montre comment utiliser`AssociateAddress`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn associate_ip_address(
&self,
allocation_id: &str,
instance_id: &str,
) -> Result {
let response = self
.client
.associate_address()
.allocation_id(allocation_id)
.instance_id(instance_id)
.send()
.await?;
Ok(response)
}
```
+ Pour plus de détails sur l'API, voir [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address)la section de *référence de l'API AWS SDK for Rust*.
### `AuthorizeSecurityGroupIngress`
L'exemple de code suivant montre comment utiliser`AuthorizeSecurityGroupIngress`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
/// Add an ingress rule to a security group explicitly allowing IPv4 address
/// as {ip}/32 over TCP port 22.
pub async fn authorize_security_group_ssh_ingress(
&self,
group_id: &str,
ingress_ips: Vec,
) -> Result<(), EC2Error> {
tracing::info!("Authorizing ingress for security group {group_id}");
self.client
.authorize_security_group_ingress()
.group_id(group_id)
.set_ip_permissions(Some(
ingress_ips
.into_iter()
.map(|ip| {
IpPermission::builder()
.ip_protocol("tcp")
.from_port(22)
.to_port(22)
.ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build())
.build()
})
.collect(),
))
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress)la section de *référence de l'API AWS SDK for Rust*.
### `CreateKeyPair`
L'exemple de code suivant montre comment utiliser`CreateKeyPair`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
Implémentation de Rust qui appelle le create\$1key\$1pair du client EC2 et extrait le matériel renvoyé.
```
pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> {
tracing::info!("Creating key pair {name}");
let output = self.client.create_key_pair().key_name(name).send().await?;
let info = KeyPairInfo::builder()
.set_key_name(output.key_name)
.set_key_fingerprint(output.key_fingerprint)
.set_key_pair_id(output.key_pair_id)
.build();
let material = output
.key_material
.ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?;
Ok((info, material))
}
```
Fonction qui appelle l’implémentation create\$1key et enregistre en toute sécurité la clé privée PEM.
```
/// Creates a key pair that can be used to securely connect to an EC2 instance.
/// The returned key pair contains private key information that cannot be retrieved
/// again. The private key data is stored as a .pem file.
///
/// :param key_name: The name of the key pair to create.
pub async fn create(
&mut self,
ec2: &EC2,
util: &Util,
key_name: String,
) -> Result {
let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| {
self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build();
e.add_message(format!("Couldn't create key {key_name}"))
})?;
let path = self.key_file_dir.join(format!("{key_name}.pem"));
// Save the key_pair information immediately, so it can get cleaned up if write_secure fails.
self.key_file_path = Some(path.clone());
self.key_pair = key_pair.clone();
util.write_secure(&key_name, &path, material)?;
Ok(key_pair)
}
```
+ Pour plus de détails sur l'API, voir [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair)la section de *référence de l'API AWS SDK for Rust*.
### `CreateSecurityGroup`
L'exemple de code suivant montre comment utiliser`CreateSecurityGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn create_security_group(
&self,
name: &str,
description: &str,
) -> Result {
tracing::info!("Creating security group {name}");
let create_output = self
.client
.create_security_group()
.group_name(name)
.description(description)
.send()
.await
.map_err(EC2Error::from)?;
let group_id = create_output
.group_id
.ok_or_else(|| EC2Error::new("Missing security group id after creation"))?;
let group = self
.describe_security_group(&group_id)
.await?
.ok_or_else(|| {
EC2Error::new(format!("Could not find security group with id {group_id}"))
})?;
tracing::info!("Created security group {name} as {group_id}");
Ok(group)
}
```
+ Pour plus de détails sur l'API, voir [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group)la section de *référence de l'API AWS SDK for Rust*.
### `CreateTags`
L'exemple de code suivant montre comment utiliser`CreateTags`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
Cet exemple applique la balise Name après avoir créé une instance.
```
pub async fn create_instance<'a>(
&self,
image_id: &'a str,
instance_type: InstanceType,
key_pair: &'a KeyPairInfo,
security_groups: Vec<&'a SecurityGroup>,
) -> Result {
let run_instances = self
.client
.run_instances()
.image_id(image_id)
.instance_type(instance_type)
.key_name(
key_pair
.key_name()
.ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
)
.set_security_group_ids(Some(
security_groups
.iter()
.filter_map(|sg| sg.group_id.clone())
.collect(),
))
.min_count(1)
.max_count(1)
.send()
.await?;
if run_instances.instances().is_empty() {
return Err(EC2Error::new("Failed to create instance"));
}
let instance_id = run_instances.instances()[0].instance_id().unwrap();
let response = self
.client
.create_tags()
.resources(instance_id)
.tags(
Tag::builder()
.key("Name")
.value("From SDK Examples")
.build(),
)
.send()
.await;
match response {
Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
Err(err) => {
tracing::info!("Error applying tags to {instance_id}: {err:?}");
return Err(err.into());
}
}
tracing::info!("Instance is created.");
Ok(instance_id.to_string())
}
```
+ Pour plus de détails sur l'API, voir [CreateTags](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_tags)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteKeyPair`
L'exemple de code suivant montre comment utiliser`DeleteKeyPair`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
Encapsuleur autour de delete\$1key qui supprime également la clé PEM privée sous-jacente.
```
pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> {
if let Some(key_name) = self.key_pair.key_name() {
ec2.delete_key_pair(key_name).await?;
if let Some(key_path) = self.key_file_path() {
if let Err(err) = util.remove(key_path) {
eprintln!("Failed to remove {key_path:?} ({err:?})");
}
}
}
Ok(())
}
```
```
pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> {
let key_name: String = key_name.into();
tracing::info!("Deleting key pair {key_name}");
self.client
.delete_key_pair()
.key_name(key_name)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteSecurityGroup`
L'exemple de code suivant montre comment utiliser`DeleteSecurityGroup`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> {
tracing::info!("Deleting security group {group_id}");
self.client
.delete_security_group()
.group_id(group_id)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteSnapshot`
L'exemple de code suivant montre comment utiliser`DeleteSnapshot`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples).
```
async fn delete_snapshot(client: &Client, id: &str) -> Result<(), Error> {
client.delete_snapshot().snapshot_id(id).send().await?;
println!("Deleted");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteSnapshot](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_snapshot)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeImages`
L'exemple de code suivant montre comment utiliser`DescribeImages`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn list_images(&self, ids: Vec) -> Result, EC2Error> {
let image_ids = ids.into_iter().filter_map(|p| p.value).collect();
let output = self
.client
.describe_images()
.set_image_ids(Some(image_ids))
.send()
.await?;
let images = output.images.unwrap_or_default();
if images.is_empty() {
Err(EC2Error::new("No images for selected AMIs"))
} else {
Ok(images)
}
}
```
Utilisation de la fonction list\$1images avec SSM pour limiter en fonction de votre environnement. Pour plus de détails sur SSM, consultez https://docs.aws.amazon.com/systems-manager/ latest/userguide/example GetParameters \$1ssm\$1 \$1section.html.
```
async fn find_image(&mut self) -> Result {
let params: Vec = self
.ssm
.list_path("/aws/service/ami-amazon-linux-latest")
.await
.map_err(|e| e.add_message("Could not find parameters for available images"))?
.into_iter()
.filter(|param| param.name().is_some_and(|name| name.contains("amzn2")))
.collect();
let amzn2_images: Vec = self
.ec2
.list_images(params)
.await
.map_err(|e| e.add_message("Could not find images"))?
.into_iter()
.map(ScenarioImage::from)
.collect();
println!("We will now create an instance from an Amazon Linux 2 AMI");
let ami = self.util.select_scenario_image(amzn2_images)?;
Ok(ami)
}
```
+ Pour plus de détails sur l'API, voir [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeInstanceStatus`
L'exemple de code suivant montre comment utiliser`DescribeInstanceStatus`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
async fn show_all_events(client: &Client) -> Result<(), Error> {
let resp = client.describe_regions().send().await.unwrap();
for region in resp.regions.unwrap_or_default() {
let reg: &'static str = Box::leak(Box::from(region.region_name().unwrap()));
let region_provider = RegionProviderChain::default_provider().or_else(reg);
let config = aws_config::from_env().region(region_provider).load().await;
let new_client = Client::new(&config);
let resp = new_client.describe_instance_status().send().await;
println!("Instances in region {}:", reg);
println!();
for status in resp.unwrap().instance_statuses() {
println!(
" Events scheduled for instance ID: {}",
status.instance_id().unwrap_or_default()
);
for event in status.events() {
println!(" Event ID: {}", event.instance_event_id().unwrap());
println!(" Description: {}", event.description().unwrap());
println!(" Event code: {}", event.code().unwrap().as_ref());
println!();
}
}
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeInstanceStatus](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_status)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeInstanceTypes`
L'exemple de code suivant montre comment utiliser`DescribeInstanceTypes`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
/// List instance types that match an image's architecture and are free tier eligible.
pub async fn list_instance_types(&self, image: &Image) -> Result, EC2Error> {
let architecture = format!(
"{}",
image.architecture().ok_or_else(|| EC2Error::new(format!(
"Image {:?} does not have a listed architecture",
image.image_id()
)))?
);
let free_tier_eligible_filter = Filter::builder()
.name("free-tier-eligible")
.values("false")
.build();
let supported_architecture_filter = Filter::builder()
.name("processor-info.supported-architecture")
.values(architecture)
.build();
let response = self
.client
.describe_instance_types()
.filters(free_tier_eligible_filter)
.filters(supported_architecture_filter)
.send()
.await?;
Ok(response
.instance_types
.unwrap_or_default()
.into_iter()
.filter_map(|iti| iti.instance_type)
.collect())
}
```
+ Pour plus de détails sur l'API, voir [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeInstances`
L'exemple de code suivant montre comment utiliser`DescribeInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
Extrait les détails d’une instance EC2.
```
pub async fn describe_instance(&self, instance_id: &str) -> Result {
let response = self
.client
.describe_instances()
.instance_ids(instance_id)
.send()
.await?;
let instance = response
.reservations()
.first()
.ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))?
.instances()
.first()
.ok_or_else(|| {
EC2Error::new(format!("No instances in reservation for {instance_id}"))
})?;
Ok(instance.clone())
}
```
Après avoir créé une instance EC2, extrayez et stockez ses informations.
```
/// Create an EC2 instance with the given ID on a given type, using a
/// generated KeyPair and applying a list of security groups.
pub async fn create(
&mut self,
ec2: &EC2,
image_id: &str,
instance_type: InstanceType,
key_pair: &KeyPairInfo,
security_groups: Vec<&SecurityGroup>,
) -> Result<(), EC2Error> {
let instance_id = ec2
.create_instance(image_id, instance_type, key_pair, security_groups)
.await?;
let instance = ec2.describe_instance(&instance_id).await?;
self.instance = Some(instance);
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeKeyPairs`
L'exemple de code suivant montre comment utiliser`DescribeKeyPairs`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn list_key_pair(&self) -> Result, EC2Error> {
let output = self.client.describe_key_pairs().send().await?;
Ok(output.key_pairs.unwrap_or_default())
}
```
+ Pour plus de détails sur l'API, voir [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeRegions`
L'exemple de code suivant montre comment utiliser`DescribeRegions`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
async fn show_regions(client: &Client) -> Result<(), Error> {
let rsp = client.describe_regions().send().await?;
println!("Regions:");
for region in rsp.regions() {
println!(" {}", region.region_name().unwrap());
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeRegions](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_regions)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeSecurityGroups`
L'exemple de code suivant montre comment utiliser`DescribeSecurityGroups`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec) {
let response = client
.describe_security_groups()
.set_group_ids(Some(group_ids))
.send()
.await;
match response {
Ok(output) => {
for group in output.security_groups() {
println!(
"Found Security Group {} ({}), vpc id {} and description {}",
group.group_name().unwrap_or("unknown"),
group.group_id().unwrap_or("id-unknown"),
group.vpc_id().unwrap_or("vpcid-unknown"),
group.description().unwrap_or("(none)")
);
}
}
Err(err) => {
let err = err.into_service_error();
let meta = err.meta();
let message = meta.message().unwrap_or("unknown");
let code = meta.code().unwrap_or("unknown");
eprintln!("Error listing EC2 Security Groups: ({code}) {message}");
}
}
}
```
+ Pour plus de détails sur l'API, voir [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeSnapshots`
L'exemple de code suivant montre comment utiliser`DescribeSnapshots`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples).
Indique l’état d’un instantané.
```
async fn show_state(client: &Client, id: &str) -> Result<(), Error> {
let resp = client
.describe_snapshots()
.filters(Filter::builder().name("snapshot-id").values(id).build())
.send()
.await?;
println!(
"State: {}",
resp.snapshots().first().unwrap().state().unwrap().as_ref()
);
Ok(())
}
```
```
async fn show_snapshots(client: &Client) -> Result<(), Error> {
// "self" represents your account ID.
// You can list the snapshots for any account by replacing
// "self" with that account ID.
let resp = client.describe_snapshots().owner_ids("self").send().await?;
let snapshots = resp.snapshots();
let length = snapshots.len();
for snapshot in snapshots {
println!(
"ID: {}",
snapshot.snapshot_id().unwrap_or_default()
);
println!(
"Description: {}",
snapshot.description().unwrap_or_default()
);
println!("State: {}", snapshot.state().unwrap().as_ref());
println!();
}
println!();
println!("Found {} snapshot(s)", length);
println!();
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeSnapshots](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_snapshots)la section de *référence de l'API AWS SDK for Rust*.
### `DisassociateAddress`
L'exemple de code suivant montre comment utiliser`DisassociateAddress`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> {
self.client
.disassociate_address()
.association_id(association_id)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address)la section de *référence de l'API AWS SDK for Rust*.
### `RebootInstances`
L'exemple de code suivant montre comment utiliser`RebootInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> {
if self.instance.is_some() {
ec2.reboot_instance(self.instance_id()).await?;
ec2.wait_for_instance_stopped(self.instance_id(), None)
.await?;
ec2.wait_for_instance_ready(self.instance_id(), None)
.await?;
}
Ok(())
}
```
```
pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Rebooting instance {instance_id}");
self.client
.reboot_instances()
.instance_ids(instance_id)
.send()
.await?;
Ok(())
}
```
Les serveurs, par exemple, doivent être dans les états arrêtés et prêts, à l’aide de l’API Waiters. L’utilisation de l’API Waiters nécessite « use aws\$1sdk\$1ec2::client::Waiters » dans le fichier rust.
```
/// Wait for an instance to be ready and status ok (default wait 60 seconds)
pub async fn wait_for_instance_ready(
&self,
instance_id: &str,
duration: Option,
) -> Result<(), EC2Error> {
self.client
.wait_until_instance_status_ok()
.instance_ids(instance_id)
.wait(duration.unwrap_or(Duration::from_secs(60)))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to start.",
exceeded.max_wait().as_secs()
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
pub async fn wait_for_instance_stopped(
&self,
instance_id: &str,
duration: Option,
) -> Result<(), EC2Error> {
self.client
.wait_until_instance_stopped()
.instance_ids(instance_id)
.wait(duration.unwrap_or(Duration::from_secs(60)))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to stop.",
exceeded.max_wait().as_secs(),
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [RebootInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.reboot_instances)la section de *référence de l'API AWS SDK for Rust*.
### `ReleaseAddress`
L'exemple de code suivant montre comment utiliser`ReleaseAddress`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> {
self.client
.release_address()
.allocation_id(allocation_id)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address)la section de *référence de l'API AWS SDK for Rust*.
### `RunInstances`
L'exemple de code suivant montre comment utiliser`RunInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn create_instance<'a>(
&self,
image_id: &'a str,
instance_type: InstanceType,
key_pair: &'a KeyPairInfo,
security_groups: Vec<&'a SecurityGroup>,
) -> Result {
let run_instances = self
.client
.run_instances()
.image_id(image_id)
.instance_type(instance_type)
.key_name(
key_pair
.key_name()
.ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?,
)
.set_security_group_ids(Some(
security_groups
.iter()
.filter_map(|sg| sg.group_id.clone())
.collect(),
))
.min_count(1)
.max_count(1)
.send()
.await?;
if run_instances.instances().is_empty() {
return Err(EC2Error::new("Failed to create instance"));
}
let instance_id = run_instances.instances()[0].instance_id().unwrap();
let response = self
.client
.create_tags()
.resources(instance_id)
.tags(
Tag::builder()
.key("Name")
.value("From SDK Examples")
.build(),
)
.send()
.await;
match response {
Ok(_) => tracing::info!("Created {instance_id} and applied tags."),
Err(err) => {
tracing::info!("Error applying tags to {instance_id}: {err:?}");
return Err(err.into());
}
}
tracing::info!("Instance is created.");
Ok(instance_id.to_string())
}
```
+ Pour plus de détails sur l'API, voir [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances)la section de *référence de l'API AWS SDK for Rust*.
### `StartInstances`
L'exemple de code suivant montre comment utiliser`StartInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
Démarrez une instance EC2 par ID d’instance.
```
pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Starting instance {instance_id}");
self.client
.start_instances()
.instance_ids(instance_id)
.send()
.await?;
tracing::info!("Started instance.");
Ok(())
}
```
À l’aide de l’API Waiters, attendez qu’une instance soit dans l’état « prêt » et que le statut soit « OK ». L’utilisation de l’API Waiters nécessite « use aws\$1sdk\$1ec2::client::Waiters » dans le fichier rust.
```
/// Wait for an instance to be ready and status ok (default wait 60 seconds)
pub async fn wait_for_instance_ready(
&self,
instance_id: &str,
duration: Option,
) -> Result<(), EC2Error> {
self.client
.wait_until_instance_status_ok()
.instance_ids(instance_id)
.wait(duration.unwrap_or(Duration::from_secs(60)))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to start.",
exceeded.max_wait().as_secs()
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances)la section de *référence de l'API AWS SDK for Rust*.
### `StopInstances`
L'exemple de code suivant montre comment utiliser`StopInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Stopping instance {instance_id}");
self.client
.stop_instances()
.instance_ids(instance_id)
.send()
.await?;
self.wait_for_instance_stopped(instance_id, None).await?;
tracing::info!("Stopped instance.");
Ok(())
}
```
À l’aide de l’API Waiters, attendez qu’une instance soit dans l’état arrêté. L’utilisation de l’API Waiters nécessite « use aws\$1sdk\$1ec2::client::Waiters » dans le fichier rust.
```
pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Stopping instance {instance_id}");
self.client
.stop_instances()
.instance_ids(instance_id)
.send()
.await?;
self.wait_for_instance_stopped(instance_id, None).await?;
tracing::info!("Stopped instance.");
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances)la section de *référence de l'API AWS SDK for Rust*.
### `TerminateInstances`
L'exemple de code suivant montre comment utiliser`TerminateInstances`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples).
```
pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> {
tracing::info!("Deleting instance with id {instance_id}");
self.stop_instance(instance_id).await?;
self.client
.terminate_instances()
.instance_ids(instance_id)
.send()
.await?;
self.wait_for_instance_terminated(instance_id).await?;
tracing::info!("Terminated instance with id {instance_id}");
Ok(())
}
```
À l’aide de l’API Waiters, attendez qu’une instance soit dans l’état résilié. L’utilisation de l’API Waiters nécessite « use aws\$1sdk\$1ec2::client::Waiters » dans le fichier rust.
```
async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> {
self.client
.wait_until_instance_terminated()
.instance_ids(instance_id)
.wait(Duration::from_secs(60))
.await
.map_err(|err| match err {
WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!(
"Exceeded max time ({}s) waiting for instance to terminate.",
exceeded.max_wait().as_secs(),
)),
_ => EC2Error::from(err),
})?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon ECR avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon ECR.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `DescribeRepositories`
L'exemple de code suivant montre comment utiliser`DescribeRepositories`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecr#code-examples).
```
async fn show_repos(client: &aws_sdk_ecr::Client) -> Result<(), aws_sdk_ecr::Error> {
let rsp = client.describe_repositories().send().await?;
let repos = rsp.repositories();
println!("Found {} repositories:", repos.len());
for repo in repos {
println!(" ARN: {}", repo.repository_arn().unwrap());
println!(" Name: {}", repo.repository_name().unwrap());
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeRepositories](https://docs.rs/aws-sdk-ecr/latest/aws_sdk_ecr/client/struct.Client.html#method.describe_repositories)la section de *référence de l'API AWS SDK for Rust*.
### `ListImages`
L'exemple de code suivant montre comment utiliser`ListImages`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecr#code-examples).
```
async fn show_images(
client: &aws_sdk_ecr::Client,
repository: &str,
) -> Result<(), aws_sdk_ecr::Error> {
let rsp = client
.list_images()
.repository_name(repository)
.send()
.await?;
let images = rsp.image_ids();
println!("found {} images", images.len());
for image in images {
println!(
"image: {}:{}",
image.image_tag().unwrap(),
image.image_digest().unwrap()
);
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [ListImages](https://docs.rs/aws-sdk-ecr/latest/aws_sdk_ecr/client/struct.Client.html#method.list_images)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon ECS avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon ECS.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `CreateCluster`
L'exemple de code suivant montre comment utiliser`CreateCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples).
```
async fn make_cluster(client: &aws_sdk_ecs::Client, name: &str) -> Result<(), aws_sdk_ecs::Error> {
let cluster = client.create_cluster().cluster_name(name).send().await?;
println!("cluster created: {:?}", cluster);
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [CreateCluster](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.create_cluster)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteCluster`
L'exemple de code suivant montre comment utiliser`DeleteCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples).
```
async fn remove_cluster(
client: &aws_sdk_ecs::Client,
name: &str,
) -> Result<(), aws_sdk_ecs::Error> {
let cluster_deleted = client.delete_cluster().cluster(name).send().await?;
println!("cluster deleted: {:?}", cluster_deleted);
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteCluster](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.delete_cluster)la section de *référence de l'API AWS SDK for Rust*.
### `DescribeClusters`
L'exemple de code suivant montre comment utiliser`DescribeClusters`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ecs#code-examples).
```
async fn show_clusters(client: &aws_sdk_ecs::Client) -> Result<(), aws_sdk_ecs::Error> {
let resp = client.list_clusters().send().await?;
let cluster_arns = resp.cluster_arns();
println!("Found {} clusters:", cluster_arns.len());
let clusters = client
.describe_clusters()
.set_clusters(Some(cluster_arns.into()))
.send()
.await?;
for cluster in clusters.clusters() {
println!(" ARN: {}", cluster.cluster_arn().unwrap());
println!(" Name: {}", cluster.cluster_name().unwrap());
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DescribeClusters](https://docs.rs/aws-sdk-ecs/latest/aws_sdk_ecs/client/struct.Client.html#method.describe_clusters)la section de *référence de l'API AWS SDK for Rust*.
# Exemples Amazon EKS avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec Amazon EKS.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Actions](#actions)
## Actions
### `CreateCluster`
L'exemple de code suivant montre comment utiliser`CreateCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/eks#code-examples).
```
async fn make_cluster(
client: &aws_sdk_eks::Client,
name: &str,
arn: &str,
subnet_ids: Vec,
) -> Result<(), aws_sdk_eks::Error> {
let cluster = client
.create_cluster()
.name(name)
.role_arn(arn)
.resources_vpc_config(
VpcConfigRequest::builder()
.set_subnet_ids(Some(subnet_ids))
.build(),
)
.send()
.await?;
println!("cluster created: {:?}", cluster);
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [CreateCluster](https://docs.rs/aws-sdk-eks/latest/aws_sdk_eks/client/struct.Client.html#method.create_cluster)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteCluster`
L'exemple de code suivant montre comment utiliser`DeleteCluster`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/eks#code-examples).
```
async fn remove_cluster(
client: &aws_sdk_eks::Client,
name: &str,
) -> Result<(), aws_sdk_eks::Error> {
let cluster_deleted = client.delete_cluster().name(name).send().await?;
println!("cluster deleted: {:?}", cluster_deleted);
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteCluster](https://docs.rs/aws-sdk-eks/latest/aws_sdk_eks/client/struct.Client.html#method.delete_cluster)la section de *référence de l'API AWS SDK for Rust*.
# AWS Glue exemples d'utilisation du SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants en utilisant le AWS SDK pour Rust avec AWS Glue.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Mise en route](#get_started)
+ [Principes de base](#basics)
+ [Actions](#actions)
## Mise en route
### Bonjour AWS Glue
L’exemple de code suivant montre comment démarrer avec AWS Glue.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let mut list_jobs = glue.list_jobs().into_paginator().send();
while let Some(list_jobs_output) = list_jobs.next().await {
match list_jobs_output {
Ok(list_jobs) => {
let names = list_jobs.job_names();
info!(?names, "Found these jobs")
}
Err(err) => return Err(GlueMvpError::from_glue_sdk(err)),
}
}
```
+ Pour plus de détails sur l'API, voir [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)la section de *référence de l'API AWS SDK for Rust*.
## Principes de base
### Principes de base
L’exemple de code suivant illustre comment :
+ Créez un Crawler qui indexe un compartiment Amazon S3 public et génère une base de données de métadonnées au format CSV.
+ Répertoriez les informations relatives aux bases de données et aux tables de votre AWS Glue Data Catalog.
+ Créez une tâche pour extraire les données CSV du compartiment S3, transformer les données et charger la sortie au format JSON dans un autre compartiment S3.
+ Répertoriez les informations relatives aux exécutions de tâches, visualisez les données transformées et nettoyez les ressources.
Pour plus d'informations, consultez [Tutoriel : prise en main de AWS Glue Studio](https://docs.aws.amazon.com/glue/latest/ug/tutorial-create-job.html).
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
Créez et exécutez un crawler qui analyse un compartiment Amazon Simple Storage Service (Amazon S3) public et génère une base de données de métadonnées qui décrit les données au format CSV trouvées.
```
let create_crawler = glue
.create_crawler()
.name(self.crawler())
.database_name(self.database())
.role(self.iam_role.expose_secret())
.targets(
CrawlerTargets::builder()
.s3_targets(S3Target::builder().path(CRAWLER_TARGET).build())
.build(),
)
.send()
.await;
match create_crawler {
Err(err) => {
let glue_err: aws_sdk_glue::Error = err.into();
match glue_err {
aws_sdk_glue::Error::AlreadyExistsException(_) => {
info!("Using existing crawler");
Ok(())
}
_ => Err(GlueMvpError::GlueSdk(glue_err)),
}
}
Ok(_) => Ok(()),
}?;
let start_crawler = glue.start_crawler().name(self.crawler()).send().await;
match start_crawler {
Ok(_) => Ok(()),
Err(err) => {
let glue_err: aws_sdk_glue::Error = err.into();
match glue_err {
aws_sdk_glue::Error::CrawlerRunningException(_) => Ok(()),
_ => Err(GlueMvpError::GlueSdk(glue_err)),
}
}
}?;
```
Répertoriez les informations relatives aux bases de données et aux tables de votre AWS Glue Data Catalog.
```
let database = glue
.get_database()
.name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?
.to_owned();
let database = database
.database()
.ok_or_else(|| GlueMvpError::Unknown("Could not find database".into()))?;
let tables = glue
.get_tables()
.database_name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let tables = tables.table_list();
```
Créez et exécutez une tâche qui extrait les données CSV du compartiment Amazon S3 source, les transforme en supprimant et en renommant des champs, et charge la sortie au format JSON dans un autre compartiment Amazon S3.
```
let create_job = glue
.create_job()
.name(self.job())
.role(self.iam_role.expose_secret())
.command(
JobCommand::builder()
.name("glueetl")
.python_version("3")
.script_location(format!("s3://{}/job.py", self.bucket()))
.build(),
)
.glue_version("3.0")
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let job_name = create_job.name().ok_or_else(|| {
GlueMvpError::Unknown("Did not get job name after creating job".into())
})?;
let job_run_output = glue
.start_job_run()
.job_name(self.job())
.arguments("--input_database", self.database())
.arguments(
"--input_table",
self.tables
.first()
.ok_or_else(|| GlueMvpError::Unknown("Missing crawler table".into()))?
.name(),
)
.arguments("--output_bucket_url", self.bucket())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let job = job_run_output
.job_run_id()
.ok_or_else(|| GlueMvpError::Unknown("Missing run id from just started job".into()))?
.to_string();
```
Supprimez toutes les ressources créées par la démonstration.
```
glue.delete_job()
.job_name(self.job())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
for t in &self.tables {
glue.delete_table()
.name(t.name())
.database_name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
}
glue.delete_database()
.name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
glue.delete_crawler()
.name(self.crawler())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
```
+ Pour plus de détails sur l’API, consultez les rubriques suivantes dans la *Référence des API du kit AWS SDK pour Rust*.
+ [CreateCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_crawler)
+ [CreateJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_job)
+ [DeleteCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_crawler)
+ [DeleteDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_database)
+ [DeleteJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_job)
+ [DeleteTable](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_table)
+ [GetCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_crawler)
+ [GetDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_database)
+ [GetDatabases](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_databases)
+ [GetJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job)
+ [GetJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_run)
+ [GetJobRuns](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_runs)
+ [GetTables](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_tables)
+ [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)
+ [StartCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_crawler)
+ [StartJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_job_run)
## Actions
### `CreateCrawler`
L'exemple de code suivant montre comment utiliser`CreateCrawler`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let create_crawler = glue
.create_crawler()
.name(self.crawler())
.database_name(self.database())
.role(self.iam_role.expose_secret())
.targets(
CrawlerTargets::builder()
.s3_targets(S3Target::builder().path(CRAWLER_TARGET).build())
.build(),
)
.send()
.await;
match create_crawler {
Err(err) => {
let glue_err: aws_sdk_glue::Error = err.into();
match glue_err {
aws_sdk_glue::Error::AlreadyExistsException(_) => {
info!("Using existing crawler");
Ok(())
}
_ => Err(GlueMvpError::GlueSdk(glue_err)),
}
}
Ok(_) => Ok(()),
}?;
```
+ Pour plus de détails sur l'API, voir [CreateCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_crawler)la section de *référence de l'API AWS SDK for Rust*.
### `CreateJob`
L'exemple de code suivant montre comment utiliser`CreateJob`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let create_job = glue
.create_job()
.name(self.job())
.role(self.iam_role.expose_secret())
.command(
JobCommand::builder()
.name("glueetl")
.python_version("3")
.script_location(format!("s3://{}/job.py", self.bucket()))
.build(),
)
.glue_version("3.0")
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let job_name = create_job.name().ok_or_else(|| {
GlueMvpError::Unknown("Did not get job name after creating job".into())
})?;
```
+ Pour plus de détails sur l'API, voir [CreateJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.create_job)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteCrawler`
L'exemple de code suivant montre comment utiliser`DeleteCrawler`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
glue.delete_crawler()
.name(self.crawler())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
```
+ Pour plus de détails sur l'API, voir [DeleteCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_crawler)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteDatabase`
L'exemple de code suivant montre comment utiliser`DeleteDatabase`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
glue.delete_database()
.name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
```
+ Pour plus de détails sur l'API, voir [DeleteDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_database)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteJob`
L'exemple de code suivant montre comment utiliser`DeleteJob`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
glue.delete_job()
.job_name(self.job())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
```
+ Pour plus de détails sur l'API, voir [DeleteJob](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_job)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteTable`
L'exemple de code suivant montre comment utiliser`DeleteTable`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
for t in &self.tables {
glue.delete_table()
.name(t.name())
.database_name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
}
```
+ Pour plus de détails sur l'API, voir [DeleteTable](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.delete_table)la section de *référence de l'API AWS SDK for Rust*.
### `GetCrawler`
L'exemple de code suivant montre comment utiliser`GetCrawler`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let tmp_crawler = glue
.get_crawler()
.name(self.crawler())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
```
+ Pour plus de détails sur l'API, voir [GetCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_crawler)la section de *référence de l'API AWS SDK for Rust*.
### `GetDatabase`
L'exemple de code suivant montre comment utiliser`GetDatabase`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let database = glue
.get_database()
.name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?
.to_owned();
let database = database
.database()
.ok_or_else(|| GlueMvpError::Unknown("Could not find database".into()))?;
```
+ Pour plus de détails sur l'API, voir [GetDatabase](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_database)la section de *référence de l'API AWS SDK for Rust*.
### `GetJobRun`
L'exemple de code suivant montre comment utiliser`GetJobRun`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let get_job_run = || async {
Ok::(
glue.get_job_run()
.job_name(self.job())
.run_id(job_run_id.to_string())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?
.job_run()
.ok_or_else(|| GlueMvpError::Unknown("Failed to get job_run".into()))?
.to_owned(),
)
};
let mut job_run = get_job_run().await?;
let mut state = job_run.job_run_state().unwrap_or(&unknown_state).to_owned();
while matches!(
state,
JobRunState::Starting | JobRunState::Stopping | JobRunState::Running
) {
info!(?state, "Waiting for job to finish");
tokio::time::sleep(self.wait_delay).await;
job_run = get_job_run().await?;
state = job_run.job_run_state().unwrap_or(&unknown_state).to_owned();
}
```
+ Pour plus de détails sur l'API, voir [GetJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_job_run)la section de *référence de l'API AWS SDK for Rust*.
### `GetTables`
L'exemple de code suivant montre comment utiliser`GetTables`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let tables = glue
.get_tables()
.database_name(self.database())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let tables = tables.table_list();
```
+ Pour plus de détails sur l'API, voir [GetTables](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.get_tables)la section de *référence de l'API AWS SDK for Rust*.
### `ListJobs`
L'exemple de code suivant montre comment utiliser`ListJobs`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let mut list_jobs = glue.list_jobs().into_paginator().send();
while let Some(list_jobs_output) = list_jobs.next().await {
match list_jobs_output {
Ok(list_jobs) => {
let names = list_jobs.job_names();
info!(?names, "Found these jobs")
}
Err(err) => return Err(GlueMvpError::from_glue_sdk(err)),
}
}
```
+ Pour plus de détails sur l'API, voir [ListJobs](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.list_jobs)la section de *référence de l'API AWS SDK for Rust*.
### `StartCrawler`
L'exemple de code suivant montre comment utiliser`StartCrawler`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let start_crawler = glue.start_crawler().name(self.crawler()).send().await;
match start_crawler {
Ok(_) => Ok(()),
Err(err) => {
let glue_err: aws_sdk_glue::Error = err.into();
match glue_err {
aws_sdk_glue::Error::CrawlerRunningException(_) => Ok(()),
_ => Err(GlueMvpError::GlueSdk(glue_err)),
}
}
}?;
```
+ Pour plus de détails sur l'API, voir [StartCrawler](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_crawler)la section de *référence de l'API AWS SDK for Rust*.
### `StartJobRun`
L'exemple de code suivant montre comment utiliser`StartJobRun`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/glue#code-examples).
```
let job_run_output = glue
.start_job_run()
.job_name(self.job())
.arguments("--input_database", self.database())
.arguments(
"--input_table",
self.tables
.first()
.ok_or_else(|| GlueMvpError::Unknown("Missing crawler table".into()))?
.name(),
)
.arguments("--output_bucket_url", self.bucket())
.send()
.await
.map_err(GlueMvpError::from_glue_sdk)?;
let job = job_run_output
.job_run_id()
.ok_or_else(|| GlueMvpError::Unknown("Missing run id from just started job".into()))?
.to_string();
```
+ Pour plus de détails sur l'API, voir [StartJobRun](https://docs.rs/aws-sdk-glue/latest/aws_sdk_glue/client/struct.Client.html#method.start_job_run)la section de *référence de l'API AWS SDK for Rust*.
# Exemples IAM avec le kit SDK pour Rust
Les exemples de code suivants vous montrent comment effectuer des actions et implémenter des scénarios courants à l'aide du AWS SDK pour Rust avec IAM.
Les *principes de base* sont des exemples de code qui vous montrent comment effectuer les opérations essentielles au sein d’un service.
Les *actions* sont des extraits de code de programmes plus larges et doivent être exécutées dans leur contexte. Alors que les actions vous indiquent comment appeler des fonctions de service individuelles, vous pouvez les voir en contexte dans leurs scénarios associés.
Chaque exemple inclut un lien vers le code source complet, où vous trouverez des instructions sur la configuration et l’exécution du code en contexte.
**Topics**
+ [Mise en route](#get_started)
+ [Principes de base](#basics)
+ [Actions](#actions)
## Mise en route
### Bonjour IAM
L'exemple de code suivant montre comment commencer à utiliser IAM.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
De src/bin/hello .rs.
```
use aws_sdk_iam::error::SdkError;
use aws_sdk_iam::operation::list_policies::ListPoliciesError;
use clap::Parser;
const PATH_PREFIX_HELP: &str = "The path prefix for filtering the results.";
#[derive(Debug, clap::Parser)]
#[command(about)]
struct HelloScenarioArgs {
#[arg(long, default_value="/", help=PATH_PREFIX_HELP)]
pub path_prefix: String,
}
#[tokio::main]
async fn main() -> Result<(), SdkError> {
let sdk_config = aws_config::load_from_env().await;
let client = aws_sdk_iam::Client::new(&sdk_config);
let args = HelloScenarioArgs::parse();
iam_service::list_policies(client, args.path_prefix).await?;
Ok(())
}
```
Depuis src/ .rsiam-service-lib.
```
pub async fn list_policies(
client: iamClient,
path_prefix: String,
) -> Result, SdkError> {
let list_policies = client
.list_policies()
.path_prefix(path_prefix)
.scope(PolicyScopeType::Local)
.into_paginator()
.items()
.send()
.try_collect()
.await?;
let policy_names = list_policies
.into_iter()
.map(|p| {
let name = p
.policy_name
.unwrap_or_else(|| "Missing Policy Name".to_string());
println!("{}", name);
name
})
.collect();
Ok(policy_names)
}
```
+ Pour plus de détails sur l'API, voir [ListPolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_policies)la section de *référence de l'API AWS SDK for Rust*.
## Principes de base
### Principes de base
L’exemple de code suivant montre comment créer un utilisateur et endosser un rôle.
**Avertissement**
Afin d’éviter les risques de sécurité, n’employez pas les utilisateurs IAM pour l’authentification lorsque vous développez des logiciels spécialisés ou lorsque vous travaillez avec des données réelles. Préférez la fédération avec un fournisseur d’identité tel que [AWS IAM Identity Center](https://docs.aws.amazon.com/singlesignon/latest/userguide/what-is.html).
+ Créer un utilisateur sans autorisation.
+ Créer un rôle qui accorde l’autorisation de répertorier les compartiments Amazon S3 pour le compte.
+ Ajouter une politique pour permettre à l’utilisateur d’assumer le rôle.
+ Assumez le rôle et répertorier les compartiments S3 à l’aide d’informations d’identification temporaires, puis nettoyez les ressources.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
use aws_config::meta::region::RegionProviderChain;
use aws_sdk_iam::Error as iamError;
use aws_sdk_iam::{config::Credentials as iamCredentials, config::Region, Client as iamClient};
use aws_sdk_s3::Client as s3Client;
use aws_sdk_sts::Client as stsClient;
use tokio::time::{sleep, Duration};
use uuid::Uuid;
#[tokio::main]
async fn main() -> Result<(), iamError> {
let (client, uuid, list_all_buckets_policy_document, inline_policy_document) =
initialize_variables().await;
if let Err(e) = run_iam_operations(
client,
uuid,
list_all_buckets_policy_document,
inline_policy_document,
)
.await
{
println!("{:?}", e);
};
Ok(())
}
async fn initialize_variables() -> (iamClient, String, String, String) {
let region_provider = RegionProviderChain::first_try(Region::new("us-west-2"));
let shared_config = aws_config::from_env().region(region_provider).load().await;
let client = iamClient::new(&shared_config);
let uuid = Uuid::new_v4().to_string();
let list_all_buckets_policy_document = "{
\"Version\": \"2012-10-17\",
\"Statement\": [{
\"Effect\": \"Allow\",
\"Action\": \"s3:ListAllMyBuckets\",
\"Resource\": \"arn:aws:s3:::*\"}]
}"
.to_string();
let inline_policy_document = "{
\"Version\": \"2012-10-17\",
\"Statement\": [{
\"Effect\": \"Allow\",
\"Action\": \"sts:AssumeRole\",
\"Resource\": \"{}\"}]
}"
.to_string();
(
client,
uuid,
list_all_buckets_policy_document,
inline_policy_document,
)
}
async fn run_iam_operations(
client: iamClient,
uuid: String,
list_all_buckets_policy_document: String,
inline_policy_document: String,
) -> Result<(), iamError> {
let user = iam_service::create_user(&client, &format!("{}{}", "iam_demo_user_", uuid)).await?;
println!("Created the user with the name: {}", user.user_name());
let key = iam_service::create_access_key(&client, user.user_name()).await?;
let assume_role_policy_document = "{
\"Version\": \"2012-10-17\",
\"Statement\": [{
\"Effect\": \"Allow\",
\"Principal\": {\"AWS\": \"{}\"},
\"Action\": \"sts:AssumeRole\"
}]
}"
.to_string()
.replace("{}", user.arn());
let assume_role_role = iam_service::create_role(
&client,
&format!("{}{}", "iam_demo_role_", uuid),
&assume_role_policy_document,
)
.await?;
println!("Created the role with the ARN: {}", assume_role_role.arn());
let list_all_buckets_policy = iam_service::create_policy(
&client,
&format!("{}{}", "iam_demo_policy_", uuid),
&list_all_buckets_policy_document,
)
.await?;
println!(
"Created policy: {}",
list_all_buckets_policy.policy_name.as_ref().unwrap()
);
let attach_role_policy_result =
iam_service::attach_role_policy(&client, &assume_role_role, &list_all_buckets_policy)
.await?;
println!(
"Attached the policy to the role: {:?}",
attach_role_policy_result
);
let inline_policy_name = format!("{}{}", "iam_demo_inline_policy_", uuid);
let inline_policy_document = inline_policy_document.replace("{}", assume_role_role.arn());
iam_service::create_user_policy(&client, &user, &inline_policy_name, &inline_policy_document)
.await?;
println!("Created inline policy.");
//First, fail to list the buckets with the user.
let creds = iamCredentials::from_keys(key.access_key_id(), key.secret_access_key(), None);
let fail_config = aws_config::from_env()
.credentials_provider(creds.clone())
.load()
.await;
println!("Fail config: {:?}", fail_config);
let fail_client: s3Client = s3Client::new(&fail_config);
match fail_client.list_buckets().send().await {
Ok(e) => {
println!("This should not run. {:?}", e);
}
Err(e) => {
println!("Successfully failed with error: {:?}", e)
}
}
let sts_config = aws_config::from_env()
.credentials_provider(creds.clone())
.load()
.await;
let sts_client: stsClient = stsClient::new(&sts_config);
sleep(Duration::from_secs(10)).await;
let assumed_role = sts_client
.assume_role()
.role_arn(assume_role_role.arn())
.role_session_name(format!("iam_demo_assumerole_session_{uuid}"))
.send()
.await;
println!("Assumed role: {:?}", assumed_role);
sleep(Duration::from_secs(10)).await;
let assumed_credentials = iamCredentials::from_keys(
assumed_role
.as_ref()
.unwrap()
.credentials
.as_ref()
.unwrap()
.access_key_id(),
assumed_role
.as_ref()
.unwrap()
.credentials
.as_ref()
.unwrap()
.secret_access_key(),
Some(
assumed_role
.as_ref()
.unwrap()
.credentials
.as_ref()
.unwrap()
.session_token
.clone(),
),
);
let succeed_config = aws_config::from_env()
.credentials_provider(assumed_credentials)
.load()
.await;
println!("succeed config: {:?}", succeed_config);
let succeed_client: s3Client = s3Client::new(&succeed_config);
sleep(Duration::from_secs(10)).await;
match succeed_client.list_buckets().send().await {
Ok(_) => {
println!("This should now run successfully.")
}
Err(e) => {
println!("This should not run. {:?}", e);
panic!()
}
}
//Clean up.
iam_service::detach_role_policy(
&client,
assume_role_role.role_name(),
list_all_buckets_policy.arn().unwrap_or_default(),
)
.await?;
iam_service::delete_policy(&client, list_all_buckets_policy).await?;
iam_service::delete_role(&client, &assume_role_role).await?;
println!("Deleted role {}", assume_role_role.role_name());
iam_service::delete_access_key(&client, &user, &key).await?;
println!("Deleted key for {}", key.user_name());
iam_service::delete_user_policy(&client, &user, &inline_policy_name).await?;
println!("Deleted inline user policy: {}", inline_policy_name);
iam_service::delete_user(&client, &user).await?;
println!("Deleted user {}", user.user_name());
Ok(())
}
```
+ Pour plus de détails sur l’API, consultez les rubriques suivantes dans la *Référence des API du kit AWS SDK pour Rust*.
+ [AttachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_role_policy)
+ [CreateAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_access_key)
+ [CreatePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_policy)
+ [CreateRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_role)
+ [CreateUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_user)
+ [DeleteAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_access_key)
+ [DeletePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_policy)
+ [DeleteRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_role)
+ [DeleteUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user)
+ [DeleteUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user_policy)
+ [DetachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_role_policy)
+ [PutUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.put_user_policy)
## Actions
### `AttachRolePolicy`
L'exemple de code suivant montre comment utiliser`AttachRolePolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn attach_role_policy(
client: &iamClient,
role: &Role,
policy: &Policy,
) -> Result> {
client
.attach_role_policy()
.role_name(role.role_name())
.policy_arn(policy.arn().unwrap_or_default())
.send()
.await
}
```
+ Pour plus de détails sur l'API, voir [AttachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_role_policy)la section de *référence de l'API AWS SDK for Rust*.
### `AttachUserPolicy`
L'exemple de code suivant montre comment utiliser`AttachUserPolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn attach_user_policy(
client: &iamClient,
user_name: &str,
policy_arn: &str,
) -> Result<(), iamError> {
client
.attach_user_policy()
.user_name(user_name)
.policy_arn(policy_arn)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [AttachUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.attach_user_policy)la section de *référence de l'API AWS SDK for Rust*.
### `CreateAccessKey`
L'exemple de code suivant montre comment utiliser`CreateAccessKey`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn create_access_key(client: &iamClient, user_name: &str) -> Result {
let mut tries: i32 = 0;
let max_tries: i32 = 10;
let response: Result> = loop {
match client.create_access_key().user_name(user_name).send().await {
Ok(inner_response) => {
break Ok(inner_response);
}
Err(e) => {
tries += 1;
if tries > max_tries {
break Err(e);
}
sleep(Duration::from_secs(2)).await;
}
}
};
Ok(response.unwrap().access_key.unwrap())
}
```
+ Pour plus de détails sur l'API, voir [CreateAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_access_key)la section de *référence de l'API AWS SDK for Rust*.
### `CreatePolicy`
L'exemple de code suivant montre comment utiliser`CreatePolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn create_policy(
client: &iamClient,
policy_name: &str,
policy_document: &str,
) -> Result {
let policy = client
.create_policy()
.policy_name(policy_name)
.policy_document(policy_document)
.send()
.await?;
Ok(policy.policy.unwrap())
}
```
+ Pour plus de détails sur l'API, voir [CreatePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_policy)la section de *référence de l'API AWS SDK for Rust*.
### `CreateRole`
L'exemple de code suivant montre comment utiliser`CreateRole`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn create_role(
client: &iamClient,
role_name: &str,
role_policy_document: &str,
) -> Result {
let response: CreateRoleOutput = loop {
if let Ok(response) = client
.create_role()
.role_name(role_name)
.assume_role_policy_document(role_policy_document)
.send()
.await
{
break response;
}
};
Ok(response.role.unwrap())
}
```
+ Pour plus de détails sur l'API, voir [CreateRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_role)la section de *référence de l'API AWS SDK for Rust*.
### `CreateServiceLinkedRole`
L'exemple de code suivant montre comment utiliser`CreateServiceLinkedRole`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn create_service_linked_role(
client: &iamClient,
aws_service_name: String,
custom_suffix: Option,
description: Option,
) -> Result> {
let response = client
.create_service_linked_role()
.aws_service_name(aws_service_name)
.set_custom_suffix(custom_suffix)
.set_description(description)
.send()
.await?;
Ok(response)
}
```
+ Pour plus de détails sur l'API, voir [CreateServiceLinkedRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_service_linked_role)la section de *référence de l'API AWS SDK for Rust*.
### `CreateUser`
L'exemple de code suivant montre comment utiliser`CreateUser`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn create_user(client: &iamClient, user_name: &str) -> Result {
let response = client.create_user().user_name(user_name).send().await?;
Ok(response.user.unwrap())
}
```
+ Pour plus de détails sur l'API, voir [CreateUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.create_user)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteAccessKey`
L'exemple de code suivant montre comment utiliser`DeleteAccessKey`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_access_key(
client: &iamClient,
user: &User,
key: &AccessKey,
) -> Result<(), iamError> {
loop {
match client
.delete_access_key()
.user_name(user.user_name())
.access_key_id(key.access_key_id())
.send()
.await
{
Ok(_) => {
break;
}
Err(e) => {
println!("Can't delete the access key: {:?}", e);
sleep(Duration::from_secs(2)).await;
}
}
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteAccessKey](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_access_key)la section de *référence de l'API AWS SDK for Rust*.
### `DeletePolicy`
L'exemple de code suivant montre comment utiliser`DeletePolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_policy(client: &iamClient, policy: Policy) -> Result<(), iamError> {
client
.delete_policy()
.policy_arn(policy.arn.unwrap())
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeletePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_policy)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteRole`
L'exemple de code suivant montre comment utiliser`DeleteRole`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_role(client: &iamClient, role: &Role) -> Result<(), iamError> {
let role = role.clone();
while client
.delete_role()
.role_name(role.role_name())
.send()
.await
.is_err()
{
sleep(Duration::from_secs(2)).await;
}
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_role)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteServiceLinkedRole`
L'exemple de code suivant montre comment utiliser`DeleteServiceLinkedRole`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_service_linked_role(
client: &iamClient,
role_name: &str,
) -> Result<(), iamError> {
client
.delete_service_linked_role()
.role_name(role_name)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteServiceLinkedRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_service_linked_role)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteUser`
L'exemple de code suivant montre comment utiliser`DeleteUser`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_user(client: &iamClient, user: &User) -> Result<(), SdkError> {
let user = user.clone();
let mut tries: i32 = 0;
let max_tries: i32 = 10;
let response: Result<(), SdkError> = loop {
match client
.delete_user()
.user_name(user.user_name())
.send()
.await
{
Ok(_) => {
break Ok(());
}
Err(e) => {
tries += 1;
if tries > max_tries {
break Err(e);
}
sleep(Duration::from_secs(2)).await;
}
}
};
response
}
```
+ Pour plus de détails sur l'API, voir [DeleteUser](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user)la section de *référence de l'API AWS SDK for Rust*.
### `DeleteUserPolicy`
L'exemple de code suivant montre comment utiliser`DeleteUserPolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn delete_user_policy(
client: &iamClient,
user: &User,
policy_name: &str,
) -> Result<(), SdkError> {
client
.delete_user_policy()
.user_name(user.user_name())
.policy_name(policy_name)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DeleteUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.delete_user_policy)la section de *référence de l'API AWS SDK for Rust*.
### `DetachRolePolicy`
L'exemple de code suivant montre comment utiliser`DetachRolePolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn detach_role_policy(
client: &iamClient,
role_name: &str,
policy_arn: &str,
) -> Result<(), iamError> {
client
.detach_role_policy()
.role_name(role_name)
.policy_arn(policy_arn)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DetachRolePolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_role_policy)la section de *référence de l'API AWS SDK for Rust*.
### `DetachUserPolicy`
L'exemple de code suivant montre comment utiliser`DetachUserPolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn detach_user_policy(
client: &iamClient,
user_name: &str,
policy_arn: &str,
) -> Result<(), iamError> {
client
.detach_user_policy()
.user_name(user_name)
.policy_arn(policy_arn)
.send()
.await?;
Ok(())
}
```
+ Pour plus de détails sur l'API, voir [DetachUserPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.detach_user_policy)la section de *référence de l'API AWS SDK for Rust*.
### `GetAccountPasswordPolicy`
L'exemple de code suivant montre comment utiliser`GetAccountPasswordPolicy`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn get_account_password_policy(
client: &iamClient,
) -> Result> {
let response = client.get_account_password_policy().send().await?;
Ok(response)
}
```
+ Pour plus de détails sur l'API, voir [GetAccountPasswordPolicy](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.get_account_password_policy)la section de *référence de l'API AWS SDK for Rust*.
### `GetRole`
L'exemple de code suivant montre comment utiliser`GetRole`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn get_role(
client: &iamClient,
role_name: String,
) -> Result> {
let response = client.get_role().role_name(role_name).send().await?;
Ok(response)
}
```
+ Pour plus de détails sur l'API, voir [GetRole](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.get_role)la section de *référence de l'API AWS SDK for Rust*.
### `ListAttachedRolePolicies`
L'exemple de code suivant montre comment utiliser`ListAttachedRolePolicies`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn list_attached_role_policies(
client: &iamClient,
role_name: String,
path_prefix: Option,
marker: Option,
max_items: Option,
) -> Result> {
let response = client
.list_attached_role_policies()
.role_name(role_name)
.set_path_prefix(path_prefix)
.set_marker(marker)
.set_max_items(max_items)
.send()
.await?;
Ok(response)
}
```
+ Pour plus de détails sur l'API, voir [ListAttachedRolePolicies](https://docs.rs/aws-sdk-iam/latest/aws_sdk_iam/client/struct.Client.html#method.list_attached_role_policies)la section de *référence de l'API AWS SDK for Rust*.
### `ListGroups`
L'exemple de code suivant montre comment utiliser`ListGroups`.
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/iam#code-examples).
```
pub async fn list_groups(
client: &iamClient,
path_prefix: Option,
marker: Option,
max_items: Option,
) -> Result