This library provides eyre::Report, a trait object based
error handling type for easy idiomatic error handling and reporting in Rust
applications.
This crate is a fork of [anyhow] by @dtolnay with a support for customized
Reports. For more details on customization checkout the docs on
[eyre::EyreContext]. For an example on how to implement a custom context
check out [stable-eyre] which implements a minimal custom context for
capturing backtraces on stable.
Use Result<T, eyre::Report>, or equivalently eyre::Result<T>, as the
return type of any fallible function.
Within the function, use ? to easily propagate any error that implements the
std::error::Error trait.
```rust use eyre::Result;
fn getclusterinfo() -> Result
Wrap a lower level error with a new error created from a message to help the person troubleshooting understand what the chain of failures that occured. A low-level error like "No such file or directory" can be annoying to debug without more information about what higher level step the application was in the middle of.
```rust use eyre::{WrapErr, Result};
fn main() -> Result<()> { ... it.detach().wrap_err("Failed to detach the important thing")?;
let content = std::fs::read(path) .wraperrwith(|| format!("Failed to read instrs from {}", path))?; ... } ```
```console Error: Failed to read instrs from ./path/to/instrs.json
Caused by: No such file or directory (os error 2) ```
Downcasting is supported and can be by value, by shared reference, or by mutable reference as needed.
rust
// If the error was caused by redaction, then return a
// tombstone instead of the content.
match root_cause.downcast_ref::<DataStoreError>() {
Some(DataStoreError::Censored(_)) => Ok(Poll::Ready(REDACTED_CONTENT)),
None => Err(error),
}
If using the nightly channel, a backtrace is captured and printed with the
error if the underlying error type does not already provide its own. In order
to see backtraces, they must be enabled through the environment variables
described in [std::backtrace]:
RUST_BACKTRACE=1;RUST_LIB_BACKTRACE=1;RUST_BACKTRACE=1 and
RUST_LIB_BACKTRACE=0.The tracking issue for this feature is [rust-lang/rust#53487].
Eyre works with any error type that has an impl of std::error::Error,
including ones defined in your crate. We do not bundle a derive(Error) macro
but you can write the impls yourself or use a standalone macro like
[thiserror].
```rust use thiserror::Error;
pub enum FormatError { #[error("Invalid header (expected {expected:?}, got {found:?})")] InvalidHeader { expected: String, found: String, }, #[error("Missing attribute: {0}")] MissingAttribute(String), } ```
One-off error messages can be constructed using the eyre! macro, which
supports string interpolation and produces an eyre::Report.
rust
return Err(eyre!("Missing attribute: {}", missing));
NOTE: tests are currently broken for no_std so I cannot guaruntee that
everything works still. I'm waiting for upstream fixes to be merged rather than
fixing them myself, so bear with me.
In nostd mode, the same API is almost all available and works the same way. To depend on Eyre in nostd mode, disable our default enabled "std" feature in Cargo.toml. A global allocator is required.
toml
[dependencies]
eyre = { version = "0.4", default-features = false }
Since the ?-based error conversions would normally rely on the
std::error::Error trait which is only available through std, no_std mode will
require an explicit .map_err(Report::msg) when working with a non-Eyre error
type inside a function that returns Eyre's error type.
The eyre::Report type works something like failure::Error, but unlike
failure ours is built around the standard library's std::error::Error trait
rather than a separate trait failure::Fail. The standard library has adopted
the necessary improvements for this to be possible as part of [RFC 2504].
Use Eyre if you don't care what error type your functions return, you just want it to be easy. This is common in application code. Use [thiserror] if you are a library that wants to design your own dedicated error type(s) so that on failures the caller gets exactly the information that you choose.
anyhowThis crate does its best to be usable as a drop in replacement of anyhow and
vice-versa by re-exporting all of the renamed APIs with the names used in
anyhow.
There are two main incompatibilities that you might encounter when porting a
codebase from anyhow to eyre:
eyre!.context not being implemented for OptionThe type inference issue is caused by the generic parameter, which isn't
present in anyhow::Error. Specifically, the following works in anyhow:
```rust use anyhow::anyhow;
// Works let val = getoptionalval().okorelse(|| anyhow!("failed to get value")).unwrap_err(); ```
Where as with eyre! this will fail due to being unable to infer the type for
the Context parameter. The solution to this problem, should you encounter it,
is to give the compiler a hint for what type it should be resolving to, either
via your return type or a type annotation.
```rust,compile_fail use eyre::eyre;
// Broken let val = getoptionalval().okorelse(|| eyre!("failed to get value")).unwrap();
// Works let val: Report = getoptionalval().okorelse(|| eyre!("failed to get value")).unwrap(); ```
Context and OptionAs part of renaming Context to WrapErr we also intentionally do not
implement WrapErr for Option. This decision was made because wrap_err
implies that you're creating a new error that saves the old error as its
source. With Option there is no source error to wrap, so wrap_err ends up
being somewhat meaningless.
Instead eyre intends for users to use the combinator functions provided by
std for converting Options to Results. So where you would write this with
anyhow:
```rust use anyhow::Context;
let opt: Option<()> = None; let result = opt.context("new error message"); ```
With eyre we want users to write:
```rust use eyre::{eyre, Result};
let opt: Option<()> = None; let result: Result<()> = opt.okorelse(|| eyre!("new error message")); ```
However, to help with porting we do provide a ContextCompat trait which
implements context for options which you can import to make existing
.context calls compile.
Licensed under either of Apache License, Version 2.0 or MIT license at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this crate by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.