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//! Various utility types and functions that are generally used with Tower.
mod and_then;
mod boxed;
mod boxed_clone;
mod call_all;
mod either;
mod future_service;
mod map_err;
mod map_request;
mod map_response;
mod map_result;
mod map_future;
mod oneshot;
mod optional;
mod ready;
mod service_fn;
mod then;
#[allow(deprecated)]
pub use self::{
and_then::{AndThen, AndThenLayer},
boxed::{BoxLayer, BoxService, UnsyncBoxService},
boxed_clone::BoxCloneService,
either::Either,
future_service::{future_service, FutureService},
map_err::{MapErr, MapErrLayer},
map_future::{MapFuture, MapFutureLayer},
map_request::{MapRequest, MapRequestLayer},
map_response::{MapResponse, MapResponseLayer},
map_result::{MapResult, MapResultLayer},
oneshot::Oneshot,
optional::Optional,
ready::{Ready, ReadyAnd, ReadyOneshot},
service_fn::{service_fn, ServiceFn},
then::{Then, ThenLayer},
};
pub use self::call_all::{CallAll, CallAllUnordered};
use std::future::Future;
use crate::layer::util::Identity;
pub mod error {
//! Error types
pub use super::optional::error as optional;
}
pub mod future {
//! Future types
pub use super::and_then::AndThenFuture;
pub use super::map_err::MapErrFuture;
pub use super::map_response::MapResponseFuture;
pub use super::map_result::MapResultFuture;
pub use super::optional::future as optional;
pub use super::then::ThenFuture;
}
/// An extension trait for `Service`s that provides a variety of convenient
/// adapters
pub trait ServiceExt<Request>: tower_service::Service<Request> {
/// Yields a mutable reference to the service when it is ready to accept a request.
fn ready(&mut self) -> Ready<'_, Self, Request>
where
Self: Sized,
{
Ready::new(self)
}
/// Yields a mutable reference to the service when it is ready to accept a request.
#[deprecated(
since = "0.4.6",
note = "please use the `ServiceExt::ready` method instead"
)]
#[allow(deprecated)]
fn ready_and(&mut self) -> ReadyAnd<'_, Self, Request>
where
Self: Sized,
{
ReadyAnd::new(self)
}
/// Yields the service when it is ready to accept a request.
fn ready_oneshot(self) -> ReadyOneshot<Self, Request>
where
Self: Sized,
{
ReadyOneshot::new(self)
}
/// Consume this `Service`, calling with the providing request once it is ready.
fn oneshot(self, req: Request) -> Oneshot<Self, Request>
where
Self: Sized,
{
Oneshot::new(self, req)
}
/// Process all requests from the given [`Stream`], and produce a [`Stream`] of their responses.
///
/// This is essentially [`Stream<Item = Request>`][stream] + `Self` => [`Stream<Item =
/// Response>`][stream]. See the documentation for [`CallAll`] for
/// details.
///
/// [`Stream`]: https://docs.rs/futures/latest/futures/stream/trait.Stream.html
/// [stream]: https://docs.rs/futures/latest/futures/stream/trait.Stream.html
fn call_all<S>(self, reqs: S) -> CallAll<Self, S>
where
Self: Sized,
Self::Error: Into<crate::BoxError>,
S: futures_core::Stream<Item = Request>,
{
CallAll::new(self, reqs)
}
/// Executes a new future after this service's future resolves. This does
/// not alter the behaviour of the [`poll_ready`] method.
///
/// This method can be used to change the [`Response`] type of the service
/// into a different type. You can use this method to chain along a computation once the
/// service's response has been resolved.
///
/// [`Response`]: crate::Service::Response
/// [`poll_ready`]: crate::Service::poll_ready
///
/// # Example
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # struct Record {
/// # pub name: String,
/// # pub age: u16
/// # }
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Record;
/// # type Error = u8;
/// # type Future = futures_util::future::Ready<Result<Record, u8>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(Record { name: "Jack".into(), age: 32 }))
/// # }
/// # }
/// #
/// # async fn avatar_lookup(name: String) -> Result<Vec<u8>, u8> { Ok(vec![]) }
/// #
/// # fn main() {
/// # async {
/// // A service returning Result<Record, _>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Map the response into a new response
/// let mut new_service = service.and_then(|record: Record| async move {
/// let name = record.name;
/// avatar_lookup(name).await
/// });
///
/// // Call the new service
/// let id = 13;
/// let avatar = new_service.call(id).await.unwrap();
/// # };
/// # }
/// ```
fn and_then<F>(self, f: F) -> AndThen<Self, F>
where
Self: Sized,
F: Clone,
{
AndThen::new(self, f)
}
/// Maps this service's response value to a different value. This does not
/// alter the behaviour of the [`poll_ready`] method.
///
/// This method can be used to change the [`Response`] type of the service
/// into a different type. It is similar to the [`Result::map`]
/// method. You can use this method to chain along a computation once the
/// service's response has been resolved.
///
/// [`Response`]: crate::Service::Response
/// [`poll_ready`]: crate::Service::poll_ready
///
/// # Example
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # struct Record {
/// # pub name: String,
/// # pub age: u16
/// # }
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Record;
/// # type Error = u8;
/// # type Future = futures_util::future::Ready<Result<Record, u8>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(Record { name: "Jack".into(), age: 32 }))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service returning Result<Record, _>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Map the response into a new response
/// let mut new_service = service.map_response(|record| record.name);
///
/// // Call the new service
/// let id = 13;
/// let name = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await?;
/// # Ok::<(), u8>(())
/// # };
/// # }
/// ```
fn map_response<F, Response>(self, f: F) -> MapResponse<Self, F>
where
Self: Sized,
F: FnOnce(Self::Response) -> Response + Clone,
{
MapResponse::new(self, f)
}
/// Maps this service's error value to a different value. This does not
/// alter the behaviour of the [`poll_ready`] method.
///
/// This method can be used to change the [`Error`] type of the service
/// into a different type. It is similar to the [`Result::map_err`] method.
///
/// [`Error`]: crate::Service::Error
/// [`poll_ready`]: crate::Service::poll_ready
///
/// # Example
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # struct Error {
/// # pub code: u32,
/// # pub message: String
/// # }
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = String;
/// # type Error = Error;
/// # type Future = futures_util::future::Ready<Result<String, Error>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(String::new()))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service returning Result<_, Error>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Map the error to a new error
/// let mut new_service = service.map_err(|err| err.code);
///
/// // Call the new service
/// let id = 13;
/// let code = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await
/// .unwrap_err();
/// # Ok::<(), u32>(())
/// # };
/// # }
/// ```
fn map_err<F, Error>(self, f: F) -> MapErr<Self, F>
where
Self: Sized,
F: FnOnce(Self::Error) -> Error + Clone,
{
MapErr::new(self, f)
}
/// Maps this service's result type (`Result<Self::Response, Self::Error>`)
/// to a different value, regardless of whether the future succeeds or
/// fails.
///
/// This is similar to the [`map_response`] and [`map_err`] combinators,
/// except that the *same* function is invoked when the service's future
/// completes, whether it completes successfully or fails. This function
/// takes the [`Result`] returned by the service's future, and returns a
/// [`Result`].
///
/// Like the standard library's [`Result::and_then`], this method can be
/// used to implement control flow based on `Result` values. For example, it
/// may be used to implement error recovery, by turning some [`Err`]
/// responses from the service into [`Ok`] responses. Similarly, some
/// successful responses from the service could be rejected, by returning an
/// [`Err`] conditionally, depending on the value inside the [`Ok`.] Finally,
/// this method can also be used to implement behaviors that must run when a
/// service's future completes, regardless of whether it succeeded or failed.
///
/// This method can be used to change the [`Response`] type of the service
/// into a different type. It can also be used to change the [`Error`] type
/// of the service. However, because the [`map_result`] function is not applied
/// to the errors returned by the service's [`poll_ready`] method, it must
/// be possible to convert the service's [`Error`] type into the error type
/// returned by the [`map_result`] function. This is trivial when the function
/// returns the same error type as the service, but in other cases, it can
/// be useful to use [`BoxError`] to erase differing error types.
///
/// # Examples
///
/// Recovering from certain errors:
///
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # struct Record {
/// # pub name: String,
/// # pub age: u16
/// # }
/// # #[derive(Debug)]
/// # enum DbError {
/// # Parse(std::num::ParseIntError),
/// # NoRecordsFound,
/// # }
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Vec<Record>;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<Vec<Record>, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(vec![Record { name: "Jack".into(), age: 32 }]))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service returning Result<Vec<Record>, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // If the database returns no records for the query, we just want an empty `Vec`.
/// let mut new_service = service.map_result(|result| match result {
/// // If the error indicates that no records matched the query, return an empty
/// // `Vec` instead.
/// Err(DbError::NoRecordsFound) => Ok(Vec::new()),
/// // Propagate all other responses (`Ok` and `Err`) unchanged
/// x => x,
/// });
///
/// // Call the new service
/// let id = 13;
/// let name = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await?;
/// # Ok::<(), DbError>(())
/// # };
/// # }
/// ```
///
/// Rejecting some `Ok` responses:
///
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # struct Record {
/// # pub name: String,
/// # pub age: u16
/// # }
/// # type DbError = String;
/// # type AppError = String;
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Record;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<Record, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(Record { name: "Jack".into(), age: 32 }))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// use tower::BoxError;
///
/// // A service returning Result<Record, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // If the user is zero years old, return an error.
/// let mut new_service = service.map_result(|result| {
/// let record = result?;
///
/// if record.age == 0 {
/// // Users must have been born to use our app!
/// let app_error = AppError::from("users cannot be 0 years old!");
///
/// // Box the error to erase its type (as it can be an `AppError`
/// // *or* the inner service's `DbError`).
/// return Err(BoxError::from(app_error));
/// }
///
/// // Otherwise, return the record.
/// Ok(record)
/// });
///
/// // Call the new service
/// let id = 13;
/// let record = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await?;
/// # Ok::<(), BoxError>(())
/// # };
/// # }
/// ```
///
/// Performing an action that must be run for both successes and failures:
///
/// ```
/// # use std::convert::TryFrom;
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = String;
/// # type Error = u8;
/// # type Future = futures_util::future::Ready<Result<String, u8>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(String::new()))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service returning Result<Record, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Print a message whenever a query completes.
/// let mut new_service = service.map_result(|result| {
/// println!("query completed; success={}", result.is_ok());
/// result
/// });
///
/// // Call the new service
/// let id = 13;
/// let response = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await;
/// # response
/// # };
/// # }
/// ```
///
/// [`map_response`]: ServiceExt::map_response
/// [`map_err`]: ServiceExt::map_err
/// [`map_result`]: ServiceExt::map_result
/// [`Error`]: crate::Service::Error
/// [`Response`]: crate::Service::Response
/// [`poll_ready`]: crate::Service::poll_ready
/// [`BoxError`]: crate::BoxError
fn map_result<F, Response, Error>(self, f: F) -> MapResult<Self, F>
where
Self: Sized,
Error: From<Self::Error>,
F: FnOnce(Result<Self::Response, Self::Error>) -> Result<Response, Error> + Clone,
{
MapResult::new(self, f)
}
/// Composes a function *in front of* the service.
///
/// This adapter produces a new service that passes each value through the
/// given function `f` before sending it to `self`.
///
/// # Example
/// ```
/// # use std::convert::TryFrom;
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # impl Service<String> for DatabaseService {
/// # type Response = String;
/// # type Error = u8;
/// # type Future = futures_util::future::Ready<Result<String, u8>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: String) -> Self::Future {
/// # futures_util::future::ready(Ok(String::new()))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service taking a String as a request
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Map the request to a new request
/// let mut new_service = service.map_request(|id: u32| id.to_string());
///
/// // Call the new service
/// let id = 13;
/// let response = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await;
/// # response
/// # };
/// # }
/// ```
fn map_request<F, NewRequest>(self, f: F) -> MapRequest<Self, F>
where
Self: Sized,
F: FnMut(NewRequest) -> Request,
{
MapRequest::new(self, f)
}
/// Composes this service with a [`Filter`] that conditionally accepts or
/// rejects requests based on a [predicate].
///
/// This adapter produces a new service that passes each value through the
/// given function `predicate` before sending it to `self`.
///
/// # Example
/// ```
/// # use std::convert::TryFrom;
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # #[derive(Debug)] enum DbError {
/// # Parse(std::num::ParseIntError)
/// # }
/// #
/// # impl std::fmt::Display for DbError {
/// # fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { std::fmt::Debug::fmt(self, f) }
/// # }
/// # impl std::error::Error for DbError {}
/// # impl Service<u32> for DatabaseService {
/// # type Response = String;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<String, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(String::new()))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service taking a u32 as a request and returning Result<_, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // Fallibly map the request to a new request
/// let mut new_service = service
/// .filter(|id_str: &str| id_str.parse().map_err(DbError::Parse));
///
/// // Call the new service
/// let id = "13";
/// let response = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await;
/// # response
/// # };
/// # }
/// ```
///
/// [`Filter`]: crate::filter::Filter
/// [predicate]: crate::filter::Predicate
#[cfg(feature = "filter")]
#[cfg_attr(docsrs, doc(cfg(feature = "filter")))]
fn filter<F, NewRequest>(self, filter: F) -> crate::filter::Filter<Self, F>
where
Self: Sized,
F: crate::filter::Predicate<NewRequest>,
{
crate::filter::Filter::new(self, filter)
}
/// Composes this service with an [`AsyncFilter`] that conditionally accepts or
/// rejects requests based on an [async predicate].
///
/// This adapter produces a new service that passes each value through the
/// given function `predicate` before sending it to `self`.
///
/// # Example
/// ```
/// # use std::convert::TryFrom;
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # #[derive(Clone)] struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// # #[derive(Debug)]
/// # enum DbError {
/// # Rejected
/// # }
/// # impl std::fmt::Display for DbError {
/// # fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { std::fmt::Debug::fmt(self, f) }
/// # }
/// # impl std::error::Error for DbError {}
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = String;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<String, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(String::new()))
/// # }
/// # }
/// #
/// # fn main() {
/// # async {
/// // A service taking a u32 as a request and returning Result<_, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// /// Returns `true` if we should query the database for an ID.
/// async fn should_query(id: u32) -> bool {
/// // ...
/// # true
/// }
///
/// // Filter requests based on `should_query`.
/// let mut new_service = service
/// .filter_async(|id: u32| async move {
/// if should_query(id).await {
/// return Ok(id);
/// }
///
/// Err(DbError::Rejected)
/// });
///
/// // Call the new service
/// let id = 13;
/// # let id: u32 = id;
/// let response = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await;
/// # response
/// # };
/// # }
/// ```
///
/// [`AsyncFilter`]: crate::filter::AsyncFilter
/// [asynchronous predicate]: crate::filter::AsyncPredicate
#[cfg(feature = "filter")]
#[cfg_attr(docsrs, doc(cfg(feature = "filter")))]
fn filter_async<F, NewRequest>(self, filter: F) -> crate::filter::AsyncFilter<Self, F>
where
Self: Sized,
F: crate::filter::AsyncPredicate<NewRequest>,
{
crate::filter::AsyncFilter::new(self, filter)
}
/// Composes an asynchronous function *after* this service.
///
/// This takes a function or closure returning a future, and returns a new
/// `Service` that chains that function after this service's [`Future`]. The
/// new `Service`'s future will consist of this service's future, followed
/// by the future returned by calling the chained function with the future's
/// [`Output`] type. The chained function is called regardless of whether
/// this service's future completes with a successful response or with an
/// error.
///
/// This method can be thought of as an equivalent to the [`futures`
/// crate]'s [`FutureExt::then`] combinator, but acting on `Service`s that
/// _return_ futures, rather than on an individual future. Similarly to that
/// combinator, [`ServiceExt::then`] can be used to implement asynchronous
/// error recovery, by calling some asynchronous function with errors
/// returned by this service. Alternatively, it may also be used to call a
/// fallible async function with the successful response of this service.
///
/// This method can be used to change the [`Response`] type of the service
/// into a different type. It can also be used to change the [`Error`] type
/// of the service. However, because the `then` function is not applied
/// to the errors returned by the service's [`poll_ready`] method, it must
/// be possible to convert the service's [`Error`] type into the error type
/// returned by the `then` future. This is trivial when the function
/// returns the same error type as the service, but in other cases, it can
/// be useful to use [`BoxError`] to erase differing error types.
///
/// # Examples
///
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # type Record = ();
/// # type DbError = ();
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Record;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<Record, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(()))
/// # }
/// # }
/// #
/// # fn main() {
/// // A service returning Result<Record, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
///
/// // An async function that attempts to recover from errors returned by the
/// // database.
/// async fn recover_from_error(error: DbError) -> Result<Record, DbError> {
/// // ...
/// # Ok(())
/// }
/// # async {
///
/// // If the database service returns an error, attempt to recover by
/// // calling `recover_from_error`. Otherwise, return the successful response.
/// let mut new_service = service.then(|result| async move {
/// match result {
/// Ok(record) => Ok(record),
/// Err(e) => recover_from_error(e).await,
/// }
/// });
///
/// // Call the new service
/// let id = 13;
/// let record = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await?;
/// # Ok::<(), DbError>(())
/// # };
/// # }
/// ```
///
/// [`Future`]: crate::Service::Future
/// [`Output`]: std::future::Future::Output
/// [`futures` crate]: https://docs.rs/futures
/// [`FutureExt::then`]: https://docs.rs/futures/latest/futures/future/trait.FutureExt.html#method.then
/// [`Error`]: crate::Service::Error
/// [`Response`]: crate::Service::Response
/// [`poll_ready`]: crate::Service::poll_ready
/// [`BoxError`]: crate::BoxError
fn then<F, Response, Error, Fut>(self, f: F) -> Then<Self, F>
where
Self: Sized,
Error: From<Self::Error>,
F: FnOnce(Result<Self::Response, Self::Error>) -> Fut + Clone,
Fut: Future<Output = Result<Response, Error>>,
{
Then::new(self, f)
}
/// Composes a function that transforms futures produced by the service.
///
/// This takes a function or closure returning a future computed from the future returned by
/// the service's [`call`] method, as opposed to the responses produced by the future.
///
/// # Examples
///
/// ```
/// # use std::task::{Poll, Context};
/// # use tower::{Service, ServiceExt, BoxError};
/// #
/// # struct DatabaseService;
/// # impl DatabaseService {
/// # fn new(address: &str) -> Self {
/// # DatabaseService
/// # }
/// # }
/// #
/// # type Record = ();
/// # type DbError = crate::BoxError;
/// #
/// # impl Service<u32> for DatabaseService {
/// # type Response = Record;
/// # type Error = DbError;
/// # type Future = futures_util::future::Ready<Result<Record, DbError>>;
/// #
/// # fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
/// # Poll::Ready(Ok(()))
/// # }
/// #
/// # fn call(&mut self, request: u32) -> Self::Future {
/// # futures_util::future::ready(Ok(()))
/// # }
/// # }
/// #
/// # fn main() {
/// use std::time::Duration;
/// use tokio::time::timeout;
///
/// // A service returning Result<Record, DbError>
/// let service = DatabaseService::new("127.0.0.1:8080");
/// # async {
///
/// let mut new_service = service.map_future(|future| async move {
/// let res = timeout(Duration::from_secs(1), future).await?;
/// Ok::<_, BoxError>(res)
/// });
///
/// // Call the new service
/// let id = 13;
/// let record = new_service
/// .ready()
/// .await?
/// .call(id)
/// .await?;
/// # Ok::<(), BoxError>(())
/// # };
/// # }
/// ```
///
/// Note that normally you wouldn't implement timeouts like this and instead use [`Timeout`].
///
/// [`call`]: crate::Service::call
/// [`Timeout`]: crate::timeout::Timeout
fn map_future<F, Fut, Response, Error>(self, f: F) -> MapFuture<Self, F>
where
Self: Sized,
F: FnMut(Self::Future) -> Fut,
Error: From<Self::Error>,
Fut: Future<Output = Result<Response, Error>>,
{
MapFuture::new(self, f)
}
/// Convert the service into a [`Service`] + [`Send`] trait object.
///
/// See [`BoxService`] for more details.
///
/// If `Self` implements the [`Clone`] trait, the [`boxed_clone`] method
/// can be used instead, to produce a boxed service which will also
/// implement [`Clone`].
///
/// # Example
///
/// ```
/// use tower::{Service, ServiceExt, BoxError, service_fn, util::BoxService};
/// #
/// # struct Request;
/// # struct Response;
/// # impl Response {
/// # fn new() -> Self { Self }
/// # }
///
/// let service = service_fn(|req: Request| async {
/// Ok::<_, BoxError>(Response::new())
/// });
///
/// let service: BoxService<Request, Response, BoxError> = service
/// .map_request(|req| {
/// println!("received request");
/// req
/// })
/// .map_response(|res| {
/// println!("response produced");
/// res
/// })
/// .boxed();
/// # let service = assert_service(service);
/// # fn assert_service<S, R>(svc: S) -> S
/// # where S: Service<R> { svc }
/// ```
///
/// [`Service`]: crate::Service
/// [`boxed_clone`]: Self::boxed_clone
fn boxed(self) -> BoxService<Request, Self::Response, Self::Error>
where
Self: Sized + Send + 'static,
Self::Future: Send + 'static,
{
BoxService::new(self)
}
/// Convert the service into a [`Service`] + [`Clone`] + [`Send`] trait object.
///
/// This is similar to the [`boxed`] method, but it requires that `Self` implement
/// [`Clone`], and the returned boxed service implements [`Clone`].
/// See [`BoxCloneService`] for more details.
///
/// # Example
///
/// ```
/// use tower::{Service, ServiceExt, BoxError, service_fn, util::BoxCloneService};
/// #
/// # struct Request;
/// # struct Response;
/// # impl Response {
/// # fn new() -> Self { Self }
/// # }
///
/// let service = service_fn(|req: Request| async {
/// Ok::<_, BoxError>(Response::new())
/// });
///
/// let service: BoxCloneService<Request, Response, BoxError> = service
/// .map_request(|req| {
/// println!("received request");
/// req
/// })
/// .map_response(|res| {
/// println!("response produced");
/// res
/// })
/// .boxed_clone();
///
/// // The boxed service can still be cloned.
/// service.clone();
/// # let service = assert_service(service);
/// # fn assert_service<S, R>(svc: S) -> S
/// # where S: Service<R> { svc }
/// ```
///
/// [`Service`]: crate::Service
/// [`boxed`]: Self::boxed
fn boxed_clone(self) -> BoxCloneService<Request, Self::Response, Self::Error>
where
Self: Clone + Sized + Send + 'static,
Self::Future: Send + 'static,
{
BoxCloneService::new(self)
}
}
impl<T: ?Sized, Request> ServiceExt<Request> for T where T: tower_service::Service<Request> {}
/// Convert an `Option<Layer>` into a [`Layer`].
///
/// ```
/// # use std::time::Duration;
/// # use tower::Service;
/// # use tower::builder::ServiceBuilder;
/// use tower::util::option_layer;
/// # use tower::timeout::TimeoutLayer;
/// # async fn wrap<S>(svc: S) where S: Service<(), Error = &'static str> + 'static + Send, S::Future: Send {
/// # let timeout = Some(Duration::new(10, 0));
/// // Layer to apply a timeout if configured
/// let maybe_timeout = option_layer(timeout.map(TimeoutLayer::new));
///
/// ServiceBuilder::new()
/// .layer(maybe_timeout)
/// .service(svc);
/// # }
/// ```
///
/// [`Layer`]: crate::layer::Layer
pub fn option_layer<L>(layer: Option<L>) -> Either<L, Identity> {
if let Some(layer) = layer {
Either::A(layer)
} else {
Either::B(Identity::new())
}
}