36 releases
new 0.35.0 | Nov 29, 2024 |
---|---|
0.34.0 | Jun 5, 2024 |
0.33.0 | May 27, 2024 |
0.32.2 | Jan 30, 2024 |
0.19.0 | Jun 18, 2020 |
#22 in Debugging
943,649 downloads per month
Used in 163 crates
(19 directly)
385KB
8K
SLoC
Sentry Rust SDK: sentry-core
This crate provides the core of the Sentry SDK, which can be used to log events and errors.
sentry-core
is meant for integration authors and third-party library authors
that want to instrument their code for sentry.
Regular users who wish to integrate sentry into their applications should
instead use the sentry
crate, which comes with a default transport and
a large set of integrations for various third-party libraries.
Core Concepts
This crate follows the Unified API guidelines and is centered around
the concepts of Client
, [Hub
] and Scope
, as well as the extension
points via the Integration
, Transport
and TransportFactory
traits.
Parallelism, Concurrency and Async
The main concurrency primitive is the [Hub
]. In general, all concurrent
code, no matter if multithreaded parallelism or futures concurrency, needs
to run with its own copy of a [Hub
]. Even though the [Hub
] is internally
synchronized, using it concurrently may lead to unexpected results up to
panics.
For threads or tasks that are running concurrently or outlive the current
execution context, a new [Hub
] needs to be created and bound for the computation.
use rayon::prelude::*;
use sentry::{Hub, SentryFutureExt};
use std::sync::Arc;
// Parallel multithreaded code:
let outer_hub = Hub::current();
let results: Vec<_> = [1_u32, 2, 3]
.into_par_iter()
.map(|num| {
let thread_hub = Arc::new(Hub::new_from_top(&outer_hub));
Hub::run(thread_hub, || num * num)
})
.collect();
assert_eq!(&results, &[1, 4, 9]);
// Concurrent futures code:
let futures = [1_u32, 2, 3]
.into_iter()
.map(|num| async move { num * num }.bind_hub(Hub::new_from_top(Hub::current())));
let results = futures::future::join_all(futures).await;
assert_eq!(&results, &[1, 4, 9]);
For tasks that are not concurrent and do not outlive the current execution
context, no new [Hub
] needs to be created, but the current [Hub
] has
to be bound.
use sentry::{Hub, SentryFutureExt};
// Spawned thread that is being joined:
let hub = Hub::current();
let result = std::thread::spawn(|| Hub::run(hub, || 1_u32)).join();
assert_eq!(result.unwrap(), 1);
// Spawned future that is being awaited:
let result = tokio::spawn(async { 1_u32 }.bind_hub(Hub::current())).await;
assert_eq!(result.unwrap(), 1);
Minimal API
By default, this crate comes with a so-called "minimal" mode. This mode will provide all the APIs needed to instrument code with sentry, and to write sentry integrations, but it will blackhole a lot of operations.
In minimal mode some types are restricted in functionality. For instance
the Client
is not available and the [Hub
] does not retain all API
functionality.
Features
feature = "client"
: Activates theClient
type and certain [Hub
] functionality.feature = "test"
: Activates thetest
module, which can be used to write integration tests. It comes with a test transport which can capture all sent events for inspection.feature = "debug-logs"
: Uses thelog
crate for debug output, instead of printing tostderr
. This feature is deprecated and will be replaced by a dedicated log callback in the future.
Resources
License: Apache-2.0
- Discord server for project discussions.
- Follow @getsentry on Twitter for updates
Dependencies
~3.5–6MB
~102K SLoC