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layer.rs
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use crate::{OtelData, PreSampledTracer};
use once_cell::unsync;
use opentelemetry::{
trace::{self as otel, noop, SpanBuilder, SpanKind, Status, TraceContextExt},
Context as OtelContext, Key, KeyValue, StringValue, Value,
};
use std::fmt;
use std::marker;
use std::thread;
#[cfg(not(target_arch = "wasm32"))]
use std::time::Instant;
use std::{any::TypeId, borrow::Cow};
use tracing_core::span::{self, Attributes, Id, Record};
use tracing_core::{field, Event, Subscriber};
#[cfg(feature = "tracing-log")]
use tracing_log::NormalizeEvent;
use tracing_subscriber::layer::Context;
use tracing_subscriber::registry::LookupSpan;
use tracing_subscriber::Layer;
#[cfg(target_arch = "wasm32")]
use web_time::Instant;
const SPAN_NAME_FIELD: &str = "otel.name";
const SPAN_KIND_FIELD: &str = "otel.kind";
const SPAN_STATUS_CODE_FIELD: &str = "otel.status_code";
const SPAN_STATUS_MESSAGE_FIELD: &str = "otel.status_message";
const EVENT_EXCEPTION_NAME: &str = "exception";
const FIELD_EXCEPTION_MESSAGE: &str = "exception.message";
const FIELD_EXCEPTION_STACKTRACE: &str = "exception.stacktrace";
/// An [OpenTelemetry] propagation layer for use in a project that uses
/// [tracing].
///
/// [OpenTelemetry]: https://opentelemetry.io
/// [tracing]: https://github.com/tokio-rs/tracing
pub struct OpenTelemetryLayer<S, T> {
tracer: T,
location: bool,
tracked_inactivity: bool,
with_threads: bool,
sem_conv_config: SemConvConfig,
get_context: WithContext,
_registry: marker::PhantomData<S>,
}
impl<S> Default for OpenTelemetryLayer<S, noop::NoopTracer>
where
S: Subscriber + for<'span> LookupSpan<'span>,
{
fn default() -> Self {
OpenTelemetryLayer::new(noop::NoopTracer::new())
}
}
/// Construct a layer to track spans via [OpenTelemetry].
///
/// [OpenTelemetry]: https://opentelemetry.io
///
/// # Examples
///
/// ```rust,no_run
/// use tracing_subscriber::layer::SubscriberExt;
/// use tracing_subscriber::Registry;
///
/// // Use the tracing subscriber `Registry`, or any other subscriber
/// // that impls `LookupSpan`
/// let subscriber = Registry::default().with(tracing_opentelemetry::layer());
/// # drop(subscriber);
/// ```
pub fn layer<S>() -> OpenTelemetryLayer<S, noop::NoopTracer>
where
S: Subscriber + for<'span> LookupSpan<'span>,
{
OpenTelemetryLayer::default()
}
// this function "remembers" the types of the subscriber so that we
// can downcast to something aware of them without knowing those
// types at the callsite.
//
// See https://github.com/tokio-rs/tracing/blob/4dad420ee1d4607bad79270c1520673fa6266a3d/tracing-error/src/layer.rs
pub(crate) struct WithContext(
#[allow(clippy::type_complexity)]
fn(&tracing::Dispatch, &span::Id, f: &mut dyn FnMut(&mut OtelData, &dyn PreSampledTracer)),
);
impl WithContext {
// This function allows a function to be called in the context of the
// "remembered" subscriber.
pub(crate) fn with_context(
&self,
dispatch: &tracing::Dispatch,
id: &span::Id,
mut f: impl FnMut(&mut OtelData, &dyn PreSampledTracer),
) {
(self.0)(dispatch, id, &mut f)
}
}
fn str_to_span_kind(s: &str) -> Option<otel::SpanKind> {
match s {
s if s.eq_ignore_ascii_case("server") => Some(otel::SpanKind::Server),
s if s.eq_ignore_ascii_case("client") => Some(otel::SpanKind::Client),
s if s.eq_ignore_ascii_case("producer") => Some(otel::SpanKind::Producer),
s if s.eq_ignore_ascii_case("consumer") => Some(otel::SpanKind::Consumer),
s if s.eq_ignore_ascii_case("internal") => Some(otel::SpanKind::Internal),
_ => None,
}
}
fn str_to_status(s: &str) -> otel::Status {
match s {
s if s.eq_ignore_ascii_case("ok") => otel::Status::Ok,
s if s.eq_ignore_ascii_case("error") => otel::Status::error(""),
_ => otel::Status::Unset,
}
}
#[derive(Default)]
struct SpanBuilderUpdates {
name: Option<Cow<'static, str>>,
span_kind: Option<SpanKind>,
status: Option<Status>,
attributes: Option<Vec<KeyValue>>,
}
impl SpanBuilderUpdates {
fn update(self, span_builder: &mut SpanBuilder) {
let Self {
name,
span_kind,
status,
attributes,
} = self;
if let Some(name) = name {
span_builder.name = name;
}
if let Some(span_kind) = span_kind {
span_builder.span_kind = Some(span_kind);
}
if let Some(status) = status {
span_builder.status = status;
}
if let Some(attributes) = attributes {
if let Some(builder_attributes) = &mut span_builder.attributes {
builder_attributes.extend(attributes);
} else {
span_builder.attributes = Some(attributes);
}
}
}
}
struct SpanEventVisitor<'a, 'b> {
event_builder: &'a mut otel::Event,
span_builder_updates: &'b mut Option<SpanBuilderUpdates>,
sem_conv_config: SemConvConfig,
}
impl<'a, 'b> field::Visit for SpanEventVisitor<'a, 'b> {
/// Record events on the underlying OpenTelemetry [`Span`] from `bool` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_bool(&mut self, field: &field::Field, value: bool) {
match field.name() {
"message" => self.event_builder.name = value.to_string().into(),
// Skip fields that are actually log metadata that have already been handled
#[cfg(feature = "tracing-log")]
name if name.starts_with("log.") => (),
name => {
self.event_builder
.attributes
.push(KeyValue::new(name, value));
}
}
}
/// Record events on the underlying OpenTelemetry [`Span`] from `f64` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_f64(&mut self, field: &field::Field, value: f64) {
match field.name() {
"message" => self.event_builder.name = value.to_string().into(),
// Skip fields that are actually log metadata that have already been handled
#[cfg(feature = "tracing-log")]
name if name.starts_with("log.") => (),
name => {
self.event_builder
.attributes
.push(KeyValue::new(name, value));
}
}
}
/// Record events on the underlying OpenTelemetry [`Span`] from `i64` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_i64(&mut self, field: &field::Field, value: i64) {
match field.name() {
"message" => self.event_builder.name = value.to_string().into(),
// Skip fields that are actually log metadata that have already been handled
#[cfg(feature = "tracing-log")]
name if name.starts_with("log.") => (),
name => {
self.event_builder
.attributes
.push(KeyValue::new(name, value));
}
}
}
/// Record events on the underlying OpenTelemetry [`Span`] from `&str` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_str(&mut self, field: &field::Field, value: &str) {
match field.name() {
"message" => self.event_builder.name = value.to_string().into(),
// While tracing supports the error primitive, the instrumentation macro does not
// use the primitive and instead uses the debug or display primitive.
// In both cases, an event with an empty name and with an error attribute is created.
"error" if self.event_builder.name.is_empty() => {
if self.sem_conv_config.error_events_to_status {
self.span_builder_updates
.get_or_insert_with(SpanBuilderUpdates::default)
.status
.replace(otel::Status::error(format!("{:?}", value)));
}
if self.sem_conv_config.error_events_to_exceptions {
self.event_builder.name = EVENT_EXCEPTION_NAME.into();
self.event_builder.attributes.push(KeyValue::new(
FIELD_EXCEPTION_MESSAGE,
format!("{:?}", value),
));
} else {
self.event_builder
.attributes
.push(KeyValue::new("error", format!("{:?}", value)));
}
}
// Skip fields that are actually log metadata that have already been handled
#[cfg(feature = "tracing-log")]
name if name.starts_with("log.") => (),
name => {
self.event_builder
.attributes
.push(KeyValue::new(name, value.to_string()));
}
}
}
/// Record events on the underlying OpenTelemetry [`Span`] from values that
/// implement Debug.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_debug(&mut self, field: &field::Field, value: &dyn fmt::Debug) {
match field.name() {
"message" => self.event_builder.name = format!("{:?}", value).into(),
// While tracing supports the error primitive, the instrumentation macro does not
// use the primitive and instead uses the debug or display primitive.
// In both cases, an event with an empty name and with an error attribute is created.
"error" if self.event_builder.name.is_empty() => {
if self.sem_conv_config.error_events_to_status {
self.span_builder_updates
.get_or_insert_with(SpanBuilderUpdates::default)
.status
.replace(otel::Status::error(format!("{:?}", value)));
}
if self.sem_conv_config.error_events_to_exceptions {
self.event_builder.name = EVENT_EXCEPTION_NAME.into();
self.event_builder.attributes.push(KeyValue::new(
FIELD_EXCEPTION_MESSAGE,
format!("{:?}", value),
));
} else {
self.event_builder
.attributes
.push(KeyValue::new("error", format!("{:?}", value)));
}
}
// Skip fields that are actually log metadata that have already been handled
#[cfg(feature = "tracing-log")]
name if name.starts_with("log.") => (),
name => {
self.event_builder
.attributes
.push(KeyValue::new(name, format!("{:?}", value)));
}
}
}
/// Set attributes on the underlying OpenTelemetry [`Span`] using a [`std::error::Error`]'s
/// [`std::fmt::Display`] implementation. Also adds the `source` chain as an extra field
///
/// [`Span`]: opentelemetry::trace::Span
fn record_error(
&mut self,
field: &tracing_core::Field,
value: &(dyn std::error::Error + 'static),
) {
let mut chain: Vec<StringValue> = Vec::new();
let mut next_err = value.source();
while let Some(err) = next_err {
chain.push(err.to_string().into());
next_err = err.source();
}
let error_msg = value.to_string();
if self.sem_conv_config.error_fields_to_exceptions {
self.event_builder
.attributes
.push(Key::new(FIELD_EXCEPTION_MESSAGE).string(error_msg.clone()));
// NOTE: This is actually not the stacktrace of the exception. This is
// the "source chain". It represents the heirarchy of errors from the
// app level to the lowest level such as IO. It does not represent all
// of the callsites in the code that led to the error happening.
// `std::error::Error::backtrace` is a nightly-only API and cannot be
// used here until the feature is stabilized.
self.event_builder
.attributes
.push(Key::new(FIELD_EXCEPTION_STACKTRACE).array(chain.clone()));
}
if self.sem_conv_config.error_records_to_exceptions {
let attributes = self
.span_builder_updates
.get_or_insert_with(SpanBuilderUpdates::default)
.attributes
.get_or_insert_with(Vec::new);
attributes.push(KeyValue::new(
FIELD_EXCEPTION_MESSAGE,
Value::String(error_msg.clone().into()),
));
// NOTE: This is actually not the stacktrace of the exception. This is
// the "source chain". It represents the heirarchy of errors from the
// app level to the lowest level such as IO. It does not represent all
// of the callsites in the code that led to the error happening.
// `std::error::Error::backtrace` is a nightly-only API and cannot be
// used here until the feature is stabilized.
attributes.push(KeyValue::new(
FIELD_EXCEPTION_STACKTRACE,
Value::Array(chain.clone().into()),
));
}
self.event_builder
.attributes
.push(Key::new(field.name()).string(error_msg));
self.event_builder
.attributes
.push(Key::new(format!("{}.chain", field.name())).array(chain));
}
}
/// Control over the mapping between tracing fields/events and OpenTelemetry conventional status/exception fields
#[derive(Clone, Copy)]
struct SemConvConfig {
/// If an error value is recorded on an event/span, should the otel fields
/// be added
///
/// Note that this uses tracings `record_error` which is only implemented for `(dyn Error + 'static)`.
error_fields_to_exceptions: bool,
/// If an error value is recorded on an event, should the otel fields be
/// added to the corresponding span
///
/// Note that this uses tracings `record_error` which is only implemented for `(dyn Error + 'static)`.
error_records_to_exceptions: bool,
/// If a function is instrumented and returns a `Result`, should the error
/// value be propagated to the span status.
///
/// Without this enabled, the span status will be "Error" with an empty description
/// when at least one error event is recorded in the span.
///
/// Note: the instrument macro will emit an error event if the function returns the `Err` variant.
/// This is not affected by this setting. Disabling this will only affect the span status.
error_events_to_status: bool,
/// If an event with an empty name and a field named `error` is recorded,
/// should the event be rewritten to have the name `exception` and the field `exception.message`
///
/// Follows the semantic conventions for exceptions.
///
/// Note: the instrument macro will emit an error event if the function returns the `Err` variant.
/// This is not affected by this setting. Disabling this will only affect the created fields on the OTel span.
error_events_to_exceptions: bool,
}
struct SpanAttributeVisitor<'a> {
span_builder_updates: &'a mut SpanBuilderUpdates,
sem_conv_config: SemConvConfig,
}
impl<'a> SpanAttributeVisitor<'a> {
fn record(&mut self, attribute: KeyValue) {
self.span_builder_updates
.attributes
.get_or_insert_with(Vec::new)
.push(KeyValue::new(attribute.key, attribute.value));
}
}
impl<'a> field::Visit for SpanAttributeVisitor<'a> {
/// Set attributes on the underlying OpenTelemetry [`Span`] from `bool` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_bool(&mut self, field: &field::Field, value: bool) {
self.record(KeyValue::new(field.name(), value));
}
/// Set attributes on the underlying OpenTelemetry [`Span`] from `f64` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_f64(&mut self, field: &field::Field, value: f64) {
self.record(KeyValue::new(field.name(), value));
}
/// Set attributes on the underlying OpenTelemetry [`Span`] from `i64` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_i64(&mut self, field: &field::Field, value: i64) {
self.record(KeyValue::new(field.name(), value));
}
/// Set attributes on the underlying OpenTelemetry [`Span`] from `&str` values.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_str(&mut self, field: &field::Field, value: &str) {
match field.name() {
SPAN_NAME_FIELD => self.span_builder_updates.name = Some(value.to_string().into()),
SPAN_KIND_FIELD => self.span_builder_updates.span_kind = str_to_span_kind(value),
SPAN_STATUS_CODE_FIELD => self.span_builder_updates.status = Some(str_to_status(value)),
SPAN_STATUS_MESSAGE_FIELD => {
self.span_builder_updates.status = Some(otel::Status::error(value.to_string()))
}
_ => self.record(KeyValue::new(field.name(), value.to_string())),
}
}
/// Set attributes on the underlying OpenTelemetry [`Span`] from values that
/// implement Debug.
///
/// [`Span`]: opentelemetry::trace::Span
fn record_debug(&mut self, field: &field::Field, value: &dyn fmt::Debug) {
match field.name() {
SPAN_NAME_FIELD => self.span_builder_updates.name = Some(format!("{:?}", value).into()),
SPAN_KIND_FIELD => {
self.span_builder_updates.span_kind = str_to_span_kind(&format!("{:?}", value))
}
SPAN_STATUS_CODE_FIELD => {
self.span_builder_updates.status = Some(str_to_status(&format!("{:?}", value)))
}
SPAN_STATUS_MESSAGE_FIELD => {
self.span_builder_updates.status = Some(otel::Status::error(format!("{:?}", value)))
}
_ => self.record(Key::new(field.name()).string(format!("{:?}", value))),
}
}
/// Set attributes on the underlying OpenTelemetry [`Span`] using a [`std::error::Error`]'s
/// [`std::fmt::Display`] implementation. Also adds the `source` chain as an extra field
///
/// [`Span`]: opentelemetry::trace::Span
fn record_error(
&mut self,
field: &tracing_core::Field,
value: &(dyn std::error::Error + 'static),
) {
let mut chain: Vec<StringValue> = Vec::new();
let mut next_err = value.source();
while let Some(err) = next_err {
chain.push(err.to_string().into());
next_err = err.source();
}
let error_msg = value.to_string();
if self.sem_conv_config.error_fields_to_exceptions {
self.record(Key::new(FIELD_EXCEPTION_MESSAGE).string(error_msg.clone()));
// NOTE: This is actually not the stacktrace of the exception. This is
// the "source chain". It represents the heirarchy of errors from the
// app level to the lowest level such as IO. It does not represent all
// of the callsites in the code that led to the error happening.
// `std::error::Error::backtrace` is a nightly-only API and cannot be
// used here until the feature is stabilized.
self.record(Key::new(FIELD_EXCEPTION_STACKTRACE).array(chain.clone()));
}
self.record(Key::new(field.name()).string(error_msg));
self.record(Key::new(format!("{}.chain", field.name())).array(chain));
}
}
impl<S, T> OpenTelemetryLayer<S, T>
where
S: Subscriber + for<'span> LookupSpan<'span>,
T: otel::Tracer + PreSampledTracer + 'static,
{
/// Set the [`Tracer`] that this layer will use to produce and track
/// OpenTelemetry [`Span`]s.
///
/// [`Tracer`]: opentelemetry::trace::Tracer
/// [`Span`]: opentelemetry::trace::Span
///
/// # Examples
///
/// ```no_run
/// use tracing_opentelemetry::OpenTelemetryLayer;
/// use tracing_subscriber::layer::SubscriberExt;
/// use tracing_subscriber::Registry;
///
/// // Create a jaeger exporter pipeline for a `trace_demo` service.
/// let tracer = opentelemetry_jaeger::new_agent_pipeline()
/// .with_service_name("trace_demo")
/// .install_simple()
/// .expect("Error initializing Jaeger exporter");
///
/// // Create a layer with the configured tracer
/// let otel_layer = OpenTelemetryLayer::new(tracer);
///
/// // Use the tracing subscriber `Registry`, or any other subscriber
/// // that impls `LookupSpan`
/// let subscriber = Registry::default().with(otel_layer);
/// # drop(subscriber);
/// ```
pub fn new(tracer: T) -> Self {
OpenTelemetryLayer {
tracer,
location: true,
tracked_inactivity: true,
with_threads: true,
sem_conv_config: SemConvConfig {
error_fields_to_exceptions: true,
error_records_to_exceptions: true,
error_events_to_exceptions: true,
error_events_to_status: true,
},
get_context: WithContext(Self::get_context),
_registry: marker::PhantomData,
}
}
/// Set the [`Tracer`] that this layer will use to produce and track
/// OpenTelemetry [`Span`]s.
///
/// [`Tracer`]: opentelemetry::trace::Tracer
/// [`Span`]: opentelemetry::trace::Span
///
/// # Examples
///
/// ```no_run
/// use tracing_subscriber::layer::SubscriberExt;
/// use tracing_subscriber::Registry;
///
/// // Create a jaeger exporter pipeline for a `trace_demo` service.
/// let tracer = opentelemetry_jaeger::new_agent_pipeline()
/// .with_service_name("trace_demo")
/// .install_simple()
/// .expect("Error initializing Jaeger exporter");
///
/// // Create a layer with the configured tracer
/// let otel_layer = tracing_opentelemetry::layer().with_tracer(tracer);
///
/// // Use the tracing subscriber `Registry`, or any other subscriber
/// // that impls `LookupSpan`
/// let subscriber = Registry::default().with(otel_layer);
/// # drop(subscriber);
/// ```
pub fn with_tracer<Tracer>(self, tracer: Tracer) -> OpenTelemetryLayer<S, Tracer>
where
Tracer: otel::Tracer + PreSampledTracer + 'static,
{
OpenTelemetryLayer {
tracer,
location: self.location,
tracked_inactivity: self.tracked_inactivity,
with_threads: self.with_threads,
sem_conv_config: self.sem_conv_config,
get_context: WithContext(OpenTelemetryLayer::<S, Tracer>::get_context),
_registry: self._registry,
}
}
/// Sets whether or not span and event metadata should include OpenTelemetry
/// exception fields such as `exception.message` and `exception.backtrace`
/// when an `Error` value is recorded. If multiple error values are recorded
/// on the same span/event, only the most recently recorded error value will
/// show up under these fields.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// exceptions][conv].
///
/// By default, these attributes are recorded.
/// Note that this only works for `(dyn Error + 'static)`.
/// See [Implementations on Foreign Types of tracing::Value][impls] or [`OpenTelemetryLayer::with_error_events_to_exceptions`]
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/tree/main/docs/exceptions/
/// [impls]: https://docs.rs/tracing/0.1.37/tracing/trait.Value.html#foreign-impls
#[deprecated(
since = "0.21.0",
note = "renamed to `OpenTelemetryLayer::with_error_fields_to_exceptions`"
)]
pub fn with_exception_fields(self, exception_fields: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_fields_to_exceptions: exception_fields,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not span and event metadata should include OpenTelemetry
/// exception fields such as `exception.message` and `exception.backtrace`
/// when an `Error` value is recorded. If multiple error values are recorded
/// on the same span/event, only the most recently recorded error value will
/// show up under these fields.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// exceptions][conv].
///
/// By default, these attributes are recorded.
/// Note that this only works for `(dyn Error + 'static)`.
/// See [Implementations on Foreign Types of tracing::Value][impls] or [`OpenTelemetryLayer::with_error_events_to_exceptions`]
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/tree/main/docs/exceptions/
/// [impls]: https://docs.rs/tracing/0.1.37/tracing/trait.Value.html#foreign-impls
pub fn with_error_fields_to_exceptions(self, error_fields_to_exceptions: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_fields_to_exceptions,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not an event considered for exception mapping (see [`OpenTelemetryLayer::with_error_recording`])
/// should be propagated to the span status error description.
///
///
/// By default, these events do set the span status error description.
pub fn with_error_events_to_status(self, error_events_to_status: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_events_to_status,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not a subset of events following the described schema are mapped to
/// events following the [OpenTelemetry semantic conventions for
/// exceptions][conv].
///
/// * Only events without a message field (unnamed events) and at least one field with the name error
/// are considered for mapping.
///
/// By default, these events are mapped.
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/tree/main/docs/exceptions/
pub fn with_error_events_to_exceptions(self, error_events_to_exceptions: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_events_to_exceptions,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not reporting an `Error` value on an event will
/// propagate the OpenTelemetry exception fields such as `exception.message`
/// and `exception.backtrace` to the corresponding span. You do not need to
/// enable `with_exception_fields` in order to enable this. If multiple
/// error values are recorded on the same span/event, only the most recently
/// recorded error value will show up under these fields.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// exceptions][conv].
///
/// By default, these attributes are propagated to the span. Note that this only works for `(dyn Error + 'static)`.
/// See [Implementations on Foreign Types of tracing::Value][impls] or [`OpenTelemetryLayer::with_error_events_to_exceptions`]
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/tree/main/docs/exceptions/
/// [impls]: https://docs.rs/tracing/0.1.37/tracing/trait.Value.html#foreign-impls
#[deprecated(
since = "0.21.0",
note = "renamed to `OpenTelemetryLayer::with_error_records_to_exceptions`"
)]
pub fn with_exception_field_propagation(self, exception_field_propagation: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_records_to_exceptions: exception_field_propagation,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not reporting an `Error` value on an event will
/// propagate the OpenTelemetry exception fields such as `exception.message`
/// and `exception.backtrace` to the corresponding span. You do not need to
/// enable `with_exception_fields` in order to enable this. If multiple
/// error values are recorded on the same span/event, only the most recently
/// recorded error value will show up under these fields.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// exceptions][conv].
///
/// By default, these attributes are propagated to the span. Note that this only works for `(dyn Error + 'static)`.
/// See [Implementations on Foreign Types of tracing::Value][impls] or [`OpenTelemetryLayer::with_error_events_to_exceptions`]
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/tree/main/docs/exceptions/
/// [impls]: https://docs.rs/tracing/0.1.37/tracing/trait.Value.html#foreign-impls
pub fn with_error_records_to_exceptions(self, error_records_to_exceptions: bool) -> Self {
Self {
sem_conv_config: SemConvConfig {
error_records_to_exceptions,
..self.sem_conv_config
},
..self
}
}
/// Sets whether or not span and event metadata should include OpenTelemetry
/// attributes with location information, such as the file, module and line number.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// source locations][conv].
///
/// By default, locations are enabled.
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/blob/main/docs/general/attributes.md#source-code-attributes/
pub fn with_location(self, location: bool) -> Self {
Self { location, ..self }
}
/// Sets whether or not span and event metadata should include OpenTelemetry
/// attributes with location information, such as the file, module and line number.
///
/// These attributes follow the [OpenTelemetry semantic conventions for
/// source locations][conv].
///
/// By default, locations are enabled.
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/blob/main/docs/general/attributes.md#source-code-attributes/
#[deprecated(
since = "0.17.3",
note = "renamed to `OpenTelemetrySubscriber::with_location`"
)]
pub fn with_event_location(self, event_location: bool) -> Self {
Self {
location: event_location,
..self
}
}
/// Sets whether or not spans metadata should include the _busy time_
/// (total time for which it was entered), and _idle time_ (total time
/// the span existed but was not entered).
pub fn with_tracked_inactivity(self, tracked_inactivity: bool) -> Self {
Self {
tracked_inactivity,
..self
}
}
/// Sets whether or not spans record additional attributes for the thread
/// name and thread ID of the thread they were created on, following the
/// [OpenTelemetry semantic conventions for threads][conv].
///
/// By default, thread attributes are enabled.
///
/// [conv]: https://github.com/open-telemetry/semantic-conventions/blob/main/docs/general/attributes.md#general-thread-attributes/
pub fn with_threads(self, threads: bool) -> Self {
Self {
with_threads: threads,
..self
}
}
/// Retrieve the parent OpenTelemetry [`Context`] from the current tracing
/// [`span`] through the [`Registry`]. This [`Context`] links spans to their
/// parent for proper hierarchical visualization.
///
/// [`Context`]: opentelemetry::Context
/// [`span`]: tracing::Span
/// [`Registry`]: tracing_subscriber::Registry
fn parent_context(&self, attrs: &Attributes<'_>, ctx: &Context<'_, S>) -> OtelContext {
if let Some(parent) = attrs.parent() {
// A span can have an _explicit_ parent that is NOT seen by this `Layer` (for which
// `Context::span` returns `None`. This happens if the parent span is filtered away
// from the layer by a per-layer filter. In that case, we fall-through to the `else`
// case, and consider this span a root span.
//
// This is likely rare, as most users who use explicit parents will configure their
// filters so that children and parents are both seen, but it's not guaranteed. Also,
// if users configure their filter with a `reload` filter, it's possible that a parent
// and child have different filters as they are created with a filter change
// in-between.
//
// In these case, we prefer to emit a smaller span tree instead of panicking.
if let Some(span) = ctx.span(parent) {
let mut extensions = span.extensions_mut();
return extensions
.get_mut::<OtelData>()
.map(|builder| self.tracer.sampled_context(builder))
.unwrap_or_default();
}
}
// Else if the span is inferred from context, look up any available current span.
if attrs.is_contextual() {
ctx.lookup_current()
.and_then(|span| {
let mut extensions = span.extensions_mut();
extensions
.get_mut::<OtelData>()
.map(|builder| self.tracer.sampled_context(builder))
})
.unwrap_or_else(OtelContext::current)
// Explicit root spans should have no parent context.
} else {
OtelContext::new()
}
}
fn get_context(
dispatch: &tracing::Dispatch,
id: &span::Id,
f: &mut dyn FnMut(&mut OtelData, &dyn PreSampledTracer),
) {
let subscriber = dispatch
.downcast_ref::<S>()
.expect("subscriber should downcast to expected type; this is a bug!");
let span = subscriber
.span(id)
.expect("registry should have a span for the current ID");
let layer = dispatch
.downcast_ref::<OpenTelemetryLayer<S, T>>()
.expect("layer should downcast to expected type; this is a bug!");
let mut extensions = span.extensions_mut();
if let Some(builder) = extensions.get_mut::<OtelData>() {
f(builder, &layer.tracer);
}
}
fn extra_span_attrs(&self) -> usize {
let mut extra_attrs = 0;
if self.location {
extra_attrs += 3;
}
if self.with_threads {
extra_attrs += 2;
}
extra_attrs
}
}
thread_local! {
static THREAD_ID: unsync::Lazy<u64> = unsync::Lazy::new(|| {
// OpenTelemetry's semantic conventions require the thread ID to be
// recorded as an integer, but `std::thread::ThreadId` does not expose
// the integer value on stable, so we have to convert it to a `usize` by
// parsing it. Since this requires allocating a `String`, store it in a
// thread local so we only have to do this once.
// TODO(eliza): once `std::thread::ThreadId::as_u64` is stabilized
// (https://github.com/rust-lang/rust/issues/67939), just use that.
thread_id_integer(thread::current().id())
});
}
impl<S, T> Layer<S> for OpenTelemetryLayer<S, T>
where
S: Subscriber + for<'span> LookupSpan<'span>,
T: otel::Tracer + PreSampledTracer + 'static,
{
/// Creates an [OpenTelemetry `Span`] for the corresponding [tracing `Span`].
///
/// [OpenTelemetry `Span`]: opentelemetry::trace::Span
/// [tracing `Span`]: tracing::Span
fn on_new_span(&self, attrs: &Attributes<'_>, id: &span::Id, ctx: Context<'_, S>) {
let span = ctx.span(id).expect("Span not found, this is a bug");
let mut extensions = span.extensions_mut();
if self.tracked_inactivity && extensions.get_mut::<Timings>().is_none() {
extensions.insert(Timings::new());
}
let parent_cx = self.parent_context(attrs, &ctx);
let mut builder = self
.tracer
.span_builder(attrs.metadata().name())
.with_start_time(crate::time::now())
// Eagerly assign span id so children have stable parent id
.with_span_id(self.tracer.new_span_id());
// Record new trace id if there is no active parent span
if !parent_cx.has_active_span() {
builder.trace_id = Some(self.tracer.new_trace_id());
}
let builder_attrs = builder.attributes.get_or_insert(Vec::with_capacity(
attrs.fields().len() + self.extra_span_attrs(),
));
if self.location {
let meta = attrs.metadata();
if let Some(filename) = meta.file() {
builder_attrs.push(KeyValue::new("code.filepath", filename));
}
if let Some(module) = meta.module_path() {
builder_attrs.push(KeyValue::new("code.namespace", module));
}
if let Some(line) = meta.line() {
builder_attrs.push(KeyValue::new("code.lineno", line as i64));
}
}
if self.with_threads {
THREAD_ID.with(|id| builder_attrs.push(KeyValue::new("thread.id", **id as i64)));
if let Some(name) = std::thread::current().name() {
// TODO(eliza): it's a bummer that we have to allocate here, but
// we can't easily get the string as a `static`. it would be
// nice if `opentelemetry` could also take `Arc<str>`s as
// `String` values...
builder_attrs.push(KeyValue::new("thread.name", name.to_string()));
}
}
let mut updates = SpanBuilderUpdates::default();
attrs.record(&mut SpanAttributeVisitor {
span_builder_updates: &mut updates,
sem_conv_config: self.sem_conv_config,
});
updates.update(&mut builder);
extensions.insert(OtelData { builder, parent_cx });
}
fn on_enter(&self, id: &span::Id, ctx: Context<'_, S>) {
if !self.tracked_inactivity {
return;
}
let span = ctx.span(id).expect("Span not found, this is a bug");
let mut extensions = span.extensions_mut();
if let Some(timings) = extensions.get_mut::<Timings>() {
let now = Instant::now();
timings.idle += (now - timings.last).as_nanos() as i64;
timings.last = now;
}
}
fn on_exit(&self, id: &span::Id, ctx: Context<'_, S>) {
if !self.tracked_inactivity {
return;
}
let span = ctx.span(id).expect("Span not found, this is a bug");
let mut extensions = span.extensions_mut();
if let Some(timings) = extensions.get_mut::<Timings>() {
let now = Instant::now();
timings.busy += (now - timings.last).as_nanos() as i64;
timings.last = now;
}
}
/// Record OpenTelemetry [`attributes`] for the given values.
///
/// [`attributes`]: opentelemetry::trace::SpanBuilder::attributes
fn on_record(&self, id: &Id, values: &Record<'_>, ctx: Context<'_, S>) {
let span = ctx.span(id).expect("Span not found, this is a bug");
let mut updates = SpanBuilderUpdates::default();
values.record(&mut SpanAttributeVisitor {
span_builder_updates: &mut updates,
sem_conv_config: self.sem_conv_config,
});
let mut extensions = span.extensions_mut();
if let Some(data) = extensions.get_mut::<OtelData>() {
updates.update(&mut data.builder);
}