# Azure Core shared client library for Rust
`azure_core` provides shared primitives, abstractions, and helpers for modern Rust Azure SDK client libraries.
These libraries follow the [Azure SDK Design Guidelines for Rust][guidelines]
and can typically be identified by package and namespaces names starting with `azure_`, e.g. `azure_identity`.
`azure_core` allows client libraries to expose common functionality in a consistent fashion
so that once you learn how to use these APIs in one client library, you will know how to use them in other client libraries.
## Getting started
Typically, you will not need to install `azure_core`;
it will be installed for you when you install one of the client libraries using it.
In case you want to install it explicitly - to implement your own client library, for example -
you can find the [package on crates.io][Package (crates.io)].
## Key concepts
The main shared concepts of `azure_core` - and Azure SDK libraries using `azure_core` - include:
- Configuring service clients, e.g. configuring retries, logging (`ClientOptions`).
- Accessing HTTP response details (`Response<T>`).
- Paging and asynchronous streams (`Pager<T>`).
- Errors from service requests in a consistent fashion. (`azure_core::Error`).
- Customizing requests (`ClientOptions`).
- Abstractions for representing Azure SDK credentials. (`TokenCredentials`).
### Thread safety
We guarantee that all client instance methods are thread-safe and independent of each other ([guidelines]). This ensures that the recommendation of reusing client instances is always safe, even across threads.
### Additional concepts
[Client options](#configuring-service-clients-using-clientoptions) |
[Accessing the response](#accessing-http-response-details-using-responset) |
[Handling errors](#handling-errors) |
[Iterating through pages of resources](#consuming-service-methods-returning-pagert) |
[Waiting on long-running operations](#consuming-service-methods-returning-pollert) |
[Replacing the HTTP client](#replacing-the-http-client) |
[Replacing the async runtime](#replacing-the-async-runtime)
## Features
- `debug`: enables extra information for developers e.g., emitting all fields in `std::fmt::Debug` implementation.
- `decimal`: enables support for `rust_decimal::Decimal` type.
- `derive`: enable derive macros e.g., `SafeDebug`.
- `hmac_openssl`: enables HMAC signing using `openssl`. If both `hmac_openssl` and `hmac_rust` are enabled, `hmac_openssl` is used.
- `hmac_rust`: enables HMAC signing using rust-native libraries `sha2` and `hmac`. If both `hmac_openssl` and `hmac_rust` are enabled, `hmac_openssl` is used.
- `reqwest` (default): enables and sets `reqwest` as the default `HttpClient`.
- `reqwest_deflate` (default): enables deflate compression for `reqwest`.
- `reqwest_gzip` (default): enables gzip compression for `reqwest`.
- `reqwest_native-tls` (default): enables `reqwest`'s `native-tls` feature, which uses schannel on Windows and openssl elsewhere.
- `tokio`: enables and sets `tokio` as the default async runtime.
- `wasm_bindgen`: enables the async runtime for WASM.
- `xml`: enables XML support.
### Enabling dependencies' features
We define features to avoid dependencies which may be unnecessary for some applications or even some client libraries e.g.,
some Azure services do not support the `accept-encoding` request header nor send `content-encoding` back so there's no need to add `reqwest_gzip` by default
for all client libraries. We also want to support developers that want to use additional features of some dependencies like `reqwest`
or even replace some dependencies completely like `reqwest` or `tokio` to use different HTTP clients or async runtimes.
We do not define features to provide parity with all dependencies' features since the [resolver](https://doc.rust-lang.org/cargo/reference/resolver.html)
will unify features e.g., you can add `reqwest`'s `system-proxy` feature without making any changes to Azure SDK dependencies:
```toml
[dependencies]
azure_identity = "1"
azure_security_keyvault_secrets = "1"
reqwest = { version = "0.12.23", features = ["system-proxy"] }
```
Similarly, you can choose to support `reqwest::Client` but use `rustls-tls` with a different TLS provider by disabling our default features
and adding only what you need, such as our `reqwest` feature just to enable the `HttpClient` trait implementation on `reqwest::Client` and
add a dependency on `reqwest` with the feature you want:
```toml
[dependencies]
azure_core = { version = "1", default-features = false, features = ["reqwest"] }
azure_identity = { version = "1", default-features = false }
azure_security_keyvault_secrets = { version = "1", default-features = false }
reqwest = { version = "0.12.23", features = ["rustls-tls-webpki-roots"] }
```
You could even completely replace `reqwest` and provide your own `HttpClient` implementation. See [an example](#other-http-client) below.
**NOTE:** The `debug` feature may expose PII and/or secrets to logs or tracing spans which would normally be redacted.
## Examples
**NOTE:** Samples in this file apply only to packages that follow [Azure SDK Design Guidelines][guidelines]. Names of such packages typically start with `azure_`.
### Configuring service clients using `ClientOptions`
Azure SDK client libraries typically expose one or more _service client_ types that
are the main starting points for calling corresponding Azure services.
You can easily find these client types as their names end with the word _Client_.
For example, `SecretClient` can be used to call the Key Vault service and interact with secrets,
and `KeyClient` can be used to access Key Vault service cryptographic keys.
These client types can be instantiated by calling a simple `new` function that takes various configuration options.These options are passed as a parameter that extends `ClientOptions` class exposed by `azure_core`.
Various service specific options are usually added to its subclasses, but a set of SDK-wide options are
available directly on `ClientOptions`.
```rust no_run
use azure_core::http::ClientOptions;
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{SecretClient, SecretClientOptions};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let credential = DeveloperToolsCredential::new(None)?;
let options = SecretClientOptions {
api_version: "7.5".to_string(),
..Default::default()
};
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
Some(options),
)?;
Ok(())
}
```
### Accessing HTTP response details using `Response<T>`
_Service clients_ have methods that can be used to call Azure services. We refer to these client methods as _service methods_.
_Service methods_ return a shared `azure_core` type `Response<T>` where `T` is either a `Model` type or a `ResponseBody` representing a raw stream of bytes.
This type provides access to both the deserialized result of the service call, and to the details of the HTTP response returned from the server.
```rust no_run
use azure_core::http::Response;
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{models::Secret, SecretClient};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
// create a client
let credential = DeveloperToolsCredential::new(None)?;
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
None,
)?;
// call a service method, which returns Response<T>
let response = client.get_secret("secret-name", None).await?;
// Response<T> has two main accessors:
// 1. The `into_body()` function consumes self to deserialize into a model type
let secret = response.into_body()?;
// get response again because it was moved in above statement
let response: Response<Secret> = client.get_secret("secret-name", None).await?;
// 2. The deconstruct() method for accessing all the details of the HTTP response
let (status, headers, body) = response.deconstruct();
// for example, you can access HTTP status
println!("Status: {}", status);
// or the headers
for (header_name, header_value) in headers.iter() {
println!("{}: {}", header_name.as_str(), header_value.as_str());
}
Ok(())
}
```
### Handling errors
When a service call fails, the returned `Result` will contain an `Error`. The `Error` type provides a status property with an HTTP status code and an error_code property with a service-specific error code.
```rust no_run
use azure_core::{error::ErrorKind, http::{Response, StatusCode}};
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::SecretClient;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
// create a client
let credential = DeveloperToolsCredential::new(None)?;
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
None,
)?;
match client.get_secret("secret-name", None).await {
Ok(secret) => println!("Secret: {:?}", secret.into_body()?.value),
Err(e) => match e.kind() {
ErrorKind::HttpResponse { status, error_code, .. } if *status == StatusCode::NotFound => {
// handle not found error
if let Some(code) = error_code {
println!("ErrorCode: {}", code);
} else {
println!("Secret not found, but no error code provided.");
}
},
_ => println!("An error occurred: {e:?}"),
},
}
Ok(())
}
```
### Consuming service methods returning `Pager<T>`
If a service call returns multiple values in pages, it should return `Result<Pager<T>>` as a result. You can iterate all items from all pages.
```rust no_run
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{ResourceExt, SecretClient};
use futures::TryStreamExt;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
// create a client
let credential = DeveloperToolsCredential::new(None)?;
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
None,
)?;
// get a stream of items
let mut pager = client.list_secret_properties(None)?;
// poll the pager until there are no more SecretListResults
while let Some(secret) = pager.try_next().await? {
// get the secret name from the ID
let name = secret.resource_id()?.name;
println!("Found secret with name: {}", name);
}
Ok(())
}
```
To instead iterate over all pages, call `into_pages()` on the returned `Pager`.
```rust no_run
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{ResourceExt, SecretClient};
use futures::TryStreamExt;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
// create a client
let credential = DeveloperToolsCredential::new(None)?;
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
None,
)?;
// get a stream of pages
let mut pager = client.list_secret_properties(None)?.into_pages();
// poll the pager until there are no more SecretListResults
while let Some(secrets) = pager.try_next().await? {
let secrets = secrets.into_body()?.value;
// loop through secrets in SecretsListResults
for secret in secrets {
// get the secret name from the ID
let name = secret.resource_id()?.name;
println!("Found secret with name: {}", name);
}
}
Ok(())
}
```
### Consuming service methods returning `Poller<T>`
If a service call may take a while to process, it should return `Result<Poller<T>>` as a result, representing a long-running operation (LRO).
The `Poller<T>` implements `futures::Stream` so you can asynchronously iterate over each status monitor update:
```rust no_run
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_certificates::{
CertificateClient,
models::{CreateCertificateParameters, CertificatePolicy, X509CertificateProperties, IssuerParameters},
};
use futures::stream::TryStreamExt as _;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let credential = DeveloperToolsCredential::new(None)?;
let client = CertificateClient::new(
"https://your-key-vault-name.vault.azure.net/",
credential.clone(),
None,
)?;
// Create a self-signed certificate.
let policy = CertificatePolicy {
x509_certificate_properties: Some(X509CertificateProperties {
subject: Some("CN=DefaultPolicy".into()),
..Default::default()
}),
issuer_parameters: Some(IssuerParameters {
name: Some("Self".into()),
..Default::default()
}),
..Default::default()
};
let body = CreateCertificateParameters {
certificate_policy: Some(policy),
..Default::default()
};
// Wait for the certificate operation to complete.
// The Poller implements futures::Stream and automatically waits between polls.
let mut poller = client.begin_create_certificate("certificate-name", body.try_into()?, None)?;
while let Some(operation) = poller.try_next().await? {
let operation = operation.into_body()?;
match operation.status.as_deref().unwrap_or("unknown") {
"inProgress" => continue,
"completed" => {
let target = operation.target.ok_or("expected target")?;
println!("Created certificate {}", target);
break;
},
status => Err(format!("operation terminated with status {status}"))?,
}
}
Ok(())
}
```
If you just want to wait until the `Poller<T>` is complete and get the last status monitor, you can await `wait()`:
```rust no_run
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_certificates::{
CertificateClient,
models::{CreateCertificateParameters, CertificatePolicy, X509CertificateProperties, IssuerParameters},
};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let credential = DeveloperToolsCredential::new(None)?;
let client = CertificateClient::new(
"https://your-key-vault-name.vault.azure.net/",
credential.clone(),
None,
)?;
// Create a self-signed certificate.
let policy = CertificatePolicy {
x509_certificate_properties: Some(X509CertificateProperties {
subject: Some("CN=DefaultPolicy".into()),
..Default::default()
}),
issuer_parameters: Some(IssuerParameters {
name: Some("Self".into()),
..Default::default()
}),
..Default::default()
};
let body = CreateCertificateParameters {
certificate_policy: Some(policy),
..Default::default()
};
// Wait for the certificate operation to complete and get the last status monitor.
let operation = client
.begin_create_certificate("certificate-name", body.try_into()?, None)?
.wait()
.await?
// Deserialize the CertificateOperation:
.into_body()?;
if matches!(operation.status, Some(status) if status == "completed") {
let target = operation.target.ok_or("expected target")?;
println!("Created certificate {}", target);
}
Ok(())
}
```
Awaiting `wait()` will only fail if the HTTP status code does not indicate successfully fetching the status monitor.
### Replacing the HTTP client
Though `azure_core` uses [`reqwest`] for its default HTTP client, you can replace it with either a customized `reqwest::Client` or an entirely different HTTP client.
#### Reqwest
We define a `reqwest` feature that provides a blanket implementation of our `HttpClient` trait for `reqwest::Client` and depends on the `reqwest` crate.
If you just want to configure a `reqwest::Client` to use different options including a different TLS provider, optionally add a dependency on `reqwest` and enable whichever feature you want:
```sh
cargo add reqwest -F rustls-tls-native-roots
```
You can then disable default features of any of the Azure SDK crates and add a dependency on `azure_core` with the `reqwest` feature for the blanket `HttpClient` implementation:
```sh
cargo add azure_core --no-default-features -F reqwest
```
You should end up with a `Cargo.toml` that looks something like:
```toml
[dependencies]
azure_core = { version = "1", default-features = false, features = ["reqwest"] }
azure_identity = { version = "1", default-features = false }
azure_security_keyvault_secrets = { version = "1", default-features = false }
reqwest = { version = "0.12.23", default-features = false, features = [
"deflate",
"gzip",
"rustls-tls-native-roots",
] }
```
In many cases with `reqwest`, importing features may be enough. See their [documentation][`reqwest`] for more information.
If you do need to write code to customize the `reqwest::Client`, you can pass it in `ClientOptions` to our client libraries:
```rust no_run
use azure_core::http::{ClientOptions, Transport};
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{SecretClient, SecretClientOptions};
use std::sync::Arc;
let http_client = Arc::new(reqwest::ClientBuilder::new().gzip(true).build().unwrap());
let options = SecretClientOptions {
client_options: ClientOptions {
transport: Some(Transport::new(http_client)),
..Default::default()
},
..Default::default()
};
let credential = DeveloperToolsCredential::new(None).unwrap();
let client = SecretClient::new(
"https://your-key-vault-name.vault.azure.net/",
credential.clone(),
Some(options),
)
.unwrap();
```
#### Other HTTP client
If you do not want to take a dependency on [`reqwest`] at all - perhaps because you [want to use a different async runtime](#replacing-the-async-runtime) other than [`tokio`] -
you can implement the `HttpClient` (recommended) or the `Policy` trait yourself.
Similar to [customizing `reqwest` above](#reqwest), you can disable default features for Azure SDK crates. In this example where we do not want a dependency on `reqwest` at all,
we need to import `azure_core` with no default features only to implement `HttpClient` so that your `Cargo.toml` looks something like:
```toml
[dependencies]
azure_core = { version = "1", default-features = false }
azure_identity = { version = "1", default-features = false }
azure_security_keyvault_secrets = { version = "1", default-features = false }
http = "1"
ureq = { version = "3", default-features = false, features = [
"gzip",
"native-tls",
] }
```
Then we need to implement `HttpClient` for another HTTP client like [`ureq`](https://docs.rs/ureq):
```rust no_run
use azure_core::{error::{ErrorKind, ResultExt as _}, http::{HttpClient, BufResponse, Request}};
use ureq::tls::{TlsConfig, TlsProvider};
#[derive(Debug)]
struct Agent(ureq::Agent);
impl Default for Agent {
fn default() -> Self {
Self(
ureq::Agent::config_builder()
.https_only(true)
.tls_config(
TlsConfig::builder()
.provider(TlsProvider::NativeTls)
.build(),
)
.build()
.into(),
)
}
}
#[async_trait::async_trait]
impl HttpClient for Agent {
async fn execute_request(&self, request: &Request) -> azure_core::Result<BufResponse> {
let request: ::http::request::Request<Vec<u8>> = todo!("convert our request into their request");
let response = self
.0
.run(request)
.with_context_fn(ErrorKind::Io, || "failed to send request")?;
Ok(todo!("convert their response into our response"))
}
}
```
See the [example](https://github.com/Azure/azure-sdk-for-rust/blob/main/sdk/core/azure_core/examples/core_ureq_client.rs) for a full sample implementation.
After you've implemented `HttpClient`, you pass it in `ClientOptions` to our client libraries as [shown for `reqwest` above](#reqwest).
### Replacing the async runtime
Internally, the Azure SDK uses either the [`tokio`] async runtime (with the `tokio` feature), or it implements asynchronous functionality using functions in the `std` namespace.
If your application uses a different asynchronous runtime, you can replace the asynchronous runtime used for internal functions by providing your own implementation of the `azure_core::async_runtime::AsyncRuntime` trait.
You provide the implementation by calling the `set_async_runtime()` API:
```rust no_run
use azure_core::{async_runtime::{
set_async_runtime, AsyncRuntime, TaskFuture, SpawnedTask},
time::Duration};
use std::sync::Arc;
use futures::FutureExt;
struct CustomRuntime;
impl AsyncRuntime for CustomRuntime {
fn spawn(&self, f: TaskFuture) -> SpawnedTask {
unimplemented!("Custom spawn not implemented");
}
fn sleep(&self, duration: Duration) -> TaskFuture {
unimplemented!("Custom sleep not implemented");
}
}
set_async_runtime(Arc::new(CustomRuntime)).expect("Failed to set async runtime");
```
There can only be one async runtime set in a given process, so attempts to set the async runtime multiple times will fail.
## Troubleshooting
### Logging
To help protected end users from accidental Personally-Identifiable Information (PII) from leaking into logs or traces, models' default implementation of `core::fmt::Debug` formats as non-exhaustive structure tuple e.g.,
```rust no_run
use azure_identity::DeveloperToolsCredential;
use azure_security_keyvault_secrets::{ResourceExt, SecretClient};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
// create a client
let credential = DeveloperToolsCredential::new(None)?;
let client = SecretClient::new(
"https://<your-key-vault-name>.vault.azure.net/",
credential.clone(),
None,
)?;
// get a secret
let secret = client.get_secret("secret-name", None)
.await?
.into_body()?;
println!("{secret:#?}");
Ok(())
}
```
By default this will print:
```text
Secret { .. }
```
Though not recommended for production, you can enable normal `core::fmt::Debug` formatting complete with field names and values by enabling the `debug` feature of `azure_core` e.g.,
```sh
cargo add azure_core -F debug
```
### Known issues
#### Hang when invoking multiple HTTP operations using the default HTTP transport
Some customers have reported hangs when using the default `reqwest` HTTP transport.
The issue is tracked in [this GitHub issue](https://github.com/hyperium/hyper/issues/2312).
The recommended workaround is to disable connection pooling in a custom `reqwest` transport.
If you are encountering this issue, you can construct an `HttpClient` which disables HTTP connection pooling
and set that as the transport in any `ClientOptions` used to configure your Azure SDK clients:
```rust no_run
use std::sync::Arc;
use azure_core::http::{HttpClient, ClientOptions, Transport};
use azure_security_keyvault_secrets::SecretClientOptions;
let client = Arc::new(
::reqwest::ClientBuilder::new()
// Note that reqwest does not support `pool_max_idle_per_host` on WASM.
.pool_max_idle_per_host(0)
.build()
.expect("failed to build `reqwest` client"),
);
let options = SecretClientOptions {
client_options: ClientOptions {
transport: Some(Transport::new(client.clone())),
..Default::default()
},
..Default::default()
};
```
Note that implementing this workaround can result in a significant performance slowdown depending on your scenario.
## Contributing
See the [CONTRIBUTING.md] for details on building, testing, and contributing to these libraries.
This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit <https://opensource.microsoft.com/cla/>.
When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.
This project has adopted the [Microsoft Open Source Code of Conduct]. For more information see the [Code of Conduct FAQ] or contact <opencode@microsoft.com> with any additional questions or comments.
[API Reference Documentation]: https://docs.rs/azure_core
[Code of Conduct FAQ]: https://opensource.microsoft.com/codeofconduct/faq/
[CONTRIBUTING.md]: https://github.com/Azure/azure-sdk-for-rust/blob/main/CONTRIBUTING.md
[guidelines]: https://azure.github.io/azure-sdk/rust_introduction.html
[Package (crates.io)]: https://crates.io/crates/azure_core
[`reqwest`]: https://docs.rs/reqwest
[`tokio`]: https://docs.rs/tokio
[Source code]: https://github.com/Azure/azure-sdk-for-rust/tree/main/sdk/core/azure_core/src