Expand description
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 certainHub
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.
Modules§
cadence
integration for Sentry.- Utilities to track metrics in Sentry.
- The current latest sentry protocol version.
- This provides testing functionality for building tests.
- This crate provides common types for working with the Sentry protocol or the Sentry server. It’s used by the Sentry Relay infrastructure as well as the rust Sentry client.
Macros§
- Returns the intended release for Sentry as an
Option<Cow<'static, str>>
.
Structs§
- Represents a single breadcrumb.
- The Sentry Client.
- Configuration settings for the client.
- A smart pointer to a span’s
data
field. - A Sentry Envelope.
- The central object that can manage scopes and clients.
- A Hub switch guard used to temporarily swap active hub in thread local storage.
- Holds contextual data for the current scope.
- A scope guard.
- A future that binds a
Hub
to its execution. - A running Performance Monitoring Span.
- An Iterator over HTTP header names and values needed for distributed tracing.
- A running Performance Monitoring Transaction.
- The Transaction Context used to start a new Performance Monitoring Transaction.
- A transaction context builder created by
TransactionContext::builder
. - Iterable for a transaction’s
extra
field. - Represents user info.
Enums§
- Represents the level of severity of an event or breadcrumb.
- The Session Mode of the SDK.
- A wrapper that groups a
Transaction
and aSpan
together.
Traits§
- Integration abstraction.
- A helper trait that converts self into an Iterator of Breadcrumbs.
- Helper trait to convert a string into an
Option<Dsn>
. - Future extensions for Sentry.
- The trait for transports.
- A factory creating transport instances.
Functions§
- Records a breadcrumb by calling a function.
- Captures a
std::error::Error
. - Captures an event on the currently active client if any.
- Captures an arbitrary message.
- Invokes a function that can modify the current scope.
- End the current Release Health Session.
- End the current Release Health Session with the given
SessionStatus
. - Create a sentry
Event
from astd::error::Error
. - Returns the last event ID captured.
- Parse the types name from
Debug
output. - Start a new session for Release Health.
- Start a new Performance Monitoring Transaction.
- Looks up an integration on the current Hub.
- Temporarily pushes a scope for a single call optionally reconfiguring it.
Type Aliases§
- Type alias for before event/breadcrumb handlers.
- Arbitrary data passed by the caller, when starting a transaction.
- A function to be run for each new transaction, to determine the rate at which it should be sampled.