Status: Stable, Feature-freeze
Table of Contents
The Tracing API consist of these main classes:
TracerProvider
is the entry point of the API. It provides access toTracer
s.Tracer
is the class responsible for creatingSpan
s.Span
is the API to trace an operation.
While languages and platforms have different ways of representing data, this section defines some generic requirements for this API.
OpenTelemetry can operate on time values up to nanosecond (ns) precision. The representation of those values is language specific.
A timestamp is the time elapsed since the Unix epoch.
- The minimal precision is milliseconds.
- The maximal precision is nanoseconds.
A duration is the elapsed time between two events.
- The minimal precision is milliseconds.
- The maximal precision is nanoseconds.
Tracer
s can be accessed with a TracerProvider
.
In implementations of the API, the TracerProvider
is expected to be the
stateful object that holds any configuration.
Normally, the TracerProvider
is expected to be accessed from a central place.
Thus, the API SHOULD provide a way to set/register and access
a global default TracerProvider
.
Notwithstanding any global TracerProvider
, some applications may want to or
have to use multiple TracerProvider
instances,
e.g. to have different configuration (like SpanProcessor
s) for each
(and consequently for the Tracer
s obtained from them),
or because its easier with dependency injection frameworks.
Thus, implementations of TracerProvider
SHOULD allow creating an arbitrary
number of TracerProvider
instances.
The TracerProvider
MUST provide the following functions:
- Get a
Tracer
This API MUST accept the following parameters:
name
(required): This name must identify the instrumentation library (e.g.io.opentelemetry.contrib.mongodb
). If an application or library has built-in OpenTelemetry instrumentation, both Instrumented library and Instrumentation library may refer to the same library. In that scenario, thename
denotes a module name or component name within that library or application. In case an invalid name (null or empty string) is specified, a working default Tracer implementation as a fallback is returned rather than returning null or throwing an exception. A library, implementing the OpenTelemetry API may also ignore this name and return a default instance for all calls, if it does not support "named" functionality (e.g. an implementation which is not even observability-related). A TracerProvider could also return a no-op Tracer here if application owners configure the SDK to suppress telemetry produced by this library.version
(optional): Specifies the version of the instrumentation library (e.g.1.0.0
).
It is unspecified whether or under which conditions the same or different
Tracer
instances are returned from this functions.
Implementations MUST NOT require users to repeatedly obtain a Tracer
again
with the same name+version to pick up configuration changes.
This can be achieved either by allowing to work with an outdated configuration or
by ensuring that new configuration applies also to previously returned Tracer
s.
Note: This could, for example, be implemented by storing any mutable
configuration in the TracerProvider
and having Tracer
implementation objects
have a reference to the TracerProvider
from which they were obtained.
If configuration must be stored per-tracer (such as disabling a certain tracer),
the tracer could, for example, do a look-up with its name+version in a map in
the TracerProvider
, or the TracerProvider
could maintain a registry of all
returned Tracer
s and actively update their configuration if it changes.
This section defines all operations within the Tracing API that interact with the
Context
.
The API MUST provide the following functionality to interact with a Context
instance:
- Extract the
Span
from aContext
instance - Insert the
Span
to aContext
instance
The functionality listed above is necessary because API users SHOULD NOT have access to the Context Key used by the Tracing API implementation.
If the language has support for implicitly propagated Context
(see
here), the API SHOULD also provide
the following functionality:
- Get the currently active span from the implicit context. This is equivalent to getting the implicit context, then extracting the
Span
from the context. - Set the currently active span to the implicit context. This is equivalent to getting the implicit context, then inserting the
Span
to the context.
All the above functionalities operate solely on the context API, and they MAY be exposed as either static methods on the trace module, or as static methods on a class inside the trace module. This functionality SHOULD be fully implemented in the API when possible.
The tracer is responsible for creating Span
s.
Note that Tracers
should usually not be responsible for configuration.
This should be the responsibility of the TracerProvider
instead.
The Tracer
MUST provide functions to:
- Create a new
Span
(see the section onSpan
)
A SpanContext
represents the portion of a Span
which must be serialized and
propagated along side of a distributed context. SpanContext
s are immutable.
The OpenTelemetry SpanContext
representation conforms to the W3C TraceContext
specification. It contains two
identifiers - a TraceId
and a SpanId
- along with a set of common
TraceFlags
and system-specific TraceState
values.
TraceId
A valid trace identifier is a 16-byte array with at least one
non-zero byte.
SpanId
A valid span identifier is an 8-byte array with at least one non-zero
byte.
TraceFlags
contain details about the trace. Unlike TraceState values,
TraceFlags are present in all traces. The current version of the specification
only supports a single flag called sampled.
TraceState
carries vendor-specific trace identification data, represented as a list
of key-value pairs. TraceState allows multiple tracing
systems to participate in the same trace. It is fully described in the W3C Trace Context
specification.
The API MUST implement methods to create a SpanContext
. These methods SHOULD be the only way to
create a SpanContext
. This functionality MUST be fully implemented in the API, and SHOULD NOT be
overridable.
The API MUST allow retrieving the TraceId
and SpanId
in the following forms:
- Hex - returns the lowercase hex encoded
TraceId
(result MUST be a 32-hex-character lowercase string) orSpanId
(result MUST be a 16-hex-character lowercase string). - Binary - returns the binary representation of the
TraceId
(result MUST be a 16-byte array) orSpanId
(result MUST be an 8-byte array).
The API SHOULD NOT expose details about how they are internally stored.
An API called IsValid
, that returns a boolean value, which is true
if the SpanContext has a
non-zero TraceID and a non-zero SpanID, MUST be provided.
An API called IsRemote
, that returns a boolean value, which is true
if the SpanContext was
propagated from a remote parent, MUST be provided.
When extracting a SpanContext
through the Propagators API,
IsRemote
MUST return true, whereas for the SpanContext of any child spans it MUST return false.
TraceState
is a part of SpanContext
, represented by an immutable list of string key/value pairs and
formally defined by the W3C Trace Context specification.
Tracing API MUST provide at least the following operations on TraceState
:
- Get value for a given key
- Add a new key/value pair
- Update an existing value for a given key
- Delete a key/value pair
These operations MUST follow the rules described in the W3C Trace Context specification.
All mutating operations MUST return a new TraceState
with the modifications applied.
TraceState
MUST at all times be valid according to rules specified in W3C Trace Context specification.
Every mutating operations MUST validate input parameters.
If invalid value is passed the operation MUST NOT return TraceState
containing invalid data
and MUST follow the general error handling guidelines.
Please note, since SpanContext
is immutable, it is not possible to update SpanContext
with a new TraceState
.
Such changes then make sense only right before
SpanContext
propagation
or telemetry data exporting.
In both cases, Propagators
and SpanExporters
may create a modified TraceState
copy before serializing it to the wire.
A Span
represents a single operation within a trace. Spans can be nested to
form a trace tree. Each trace contains a root span, which typically describes
the entire operation and, optionally, one or more sub-spans for its sub-operations.
- The span name
- An immutable
SpanContext
that uniquely identifies theSpan
- A parent span in the form of a
Span
,SpanContext
, or null - A
SpanKind
- A start timestamp
- An end timestamp
Attributes
- A list of
Link
s to otherSpan
s - A list of timestamped
Event
s - A
Status
.
The span name concisely identifies the work represented by the Span, for example, an RPC method name, a function name, or the name of a subtask or stage within a larger computation. The span name SHOULD be the most general string that identifies a (statistically) interesting class of Spans, rather than individual Span instances while still being human-readable. That is, "get_user" is a reasonable name, while "get_user/314159", where "314159" is a user ID, is not a good name due to its high cardinality. Generality SHOULD be prioritized over human-readability.
For example, here are potential span names for an endpoint that gets a hypothetical account information:
Span Name | Guidance |
---|---|
get |
Too general |
get_account/42 |
Too specific |
get_account |
Good, and account_id=42 would make a nice Span attribute |
get_account/{accountId} |
Also good (using the "HTTP route") |
The Span
's start and end timestamps reflect the elapsed real time of the
operation.
For example, if a span represents a request-response cycle (e.g. HTTP or an RPC), the span should have a start time that corresponds to the start time of the first sub-operation, and an end time of when the final sub-operation is complete. This includes:
- receiving the data from the request
- parsing of the data (e.g. from a binary or json format)
- any middleware or additional processing logic
- business logic
- construction of the response
- sending of the response
Child spans (or in some cases events) may be created to represent sub-operations which require more detailed observability. Child spans should measure the timing of the respective sub-operation, and may add additional attributes.
A Span
's start time SHOULD be set to the current time on span
creation. After the Span
is created, it SHOULD be possible to
change its name, set its Attribute
s, add Event
s, and set the Status
. These
MUST NOT be changed after the Span
's end time has been set.
Span
s are not meant to be used to propagate information within a process. To
prevent misuse, implementations SHOULD NOT provide access to a Span
's
attributes besides its SpanContext
.
Vendors may implement the Span
interface to effect vendor-specific logic.
However, alternative implementations MUST NOT allow callers to create Span
s
directly. All Span
s MUST be created via a Tracer
.
There MUST NOT be any API for creating a Span
other than with a Tracer
.
Span
creation MUST NOT set the newly created Span
as the currently
active Span
by default, but this functionality MAY be offered additionally
as a separate operation.
The API MUST accept the following parameters:
-
The span name. This is a required parameter.
-
The parent
Context
or an indication that the newSpan
should be a rootSpan
. The API MAY also have an option for implicitly using the current Context as parent as a default behavior. This API MUST NOT accept aSpan
orSpanContext
as parent, only a fullContext
.The semantic parent of the Span MUST be determined according to the rules described in Determining the Parent Span from a Context.
-
SpanKind
, default toSpanKind.Internal
if not specified. -
Attributes
. Additionally, these attributes may be used to make a sampling decision as noted in sampling description. An empty collection will be assumed if not specified.Whenever possible, users SHOULD set any already known attributes at span creation instead of calling
SetAttribute
later. -
Link
s - an ordered sequence of Links, see API definition here. -
Start timestamp
, default to current time. This argument SHOULD only be set when span creation time has already passed. If API is called at a moment of a Span logical start, API user MUST NOT explicitly set this argument.
Each span has zero or one parent span and zero or more child spans, which
represent causally related operations. A tree of related spans comprises a
trace. A span is said to be a root span if it does not have a parent. Each
trace includes a single root span, which is the shared ancestor of all other
spans in the trace. Implementations MUST provide an option to create a Span
as
a root span, and MUST generate a new TraceId
for each root span created.
For a Span with a parent, the TraceId
MUST be the same as the parent.
Also, the child span MUST inherit all TraceState
values of its parent by default.
A Span
is said to have a remote parent if it is the child of a Span
created in another process. Each propagators' deserialization must set
IsRemote
to true on a parent SpanContext
so Span
creation knows if the
parent is remote.
Any span that is created MUST also be ended. This is the responsibility of the user. API implementations MAY leak memory or other resources (including, for example, CPU time for periodic work that iterates all spans) if the user forgot to end the span.
When a new Span
is created from a Context
, the Context
may contain a Span
representing the currently active instance, and will be used as parent.
If there is no Span
in the Context
, the newly created Span
will be a root span.
A SpanContext
cannot be set as active in a Context
directly, but by
wrapping it into a Span.
For example, a Propagator
performing context extraction may need this.
During the Span
creation user MUST have the ability to record links to other
Span
s. Linked Span
s can be from the same or a different trace. See Links
description. Link
s cannot be added after
Span creation.
A Link
is structurally defined by the following properties:
SpanContext
of theSpan
to link to.- Zero or more
Attributes
further describing the link.
The Span creation API MUST provide:
- An API to record a single
Link
where theLink
properties are passed as arguments. This MAY be calledAddLink
. This API takes theSpanContext
of theSpan
to link to and optionalAttributes
, either as individual parameters or as an immutable object encapsulating them, whichever is most appropriate for the language.
Links SHOULD preserve the order in which they're set.
With the exception of the function to retrieve the Span
's SpanContext
and
recording status, none of the below may be called after the Span
is finished.
The Span interface MUST provide:
- An API that returns the
SpanContext
for the givenSpan
. The returned value may be used even after theSpan
is finished. The returned value MUST be the same for the entire Span lifetime. This MAY be calledGetContext
.
Returns true if this Span
is recording information like events with the
AddEvent
operation, attributes using SetAttributes
, status with SetStatus
,
etc.
After a Span
is ended, it usually becomes non-recording and thus
IsRecording
SHOULD consequently return false for ended Spans.
Note: Streaming implementations, where it is not known if a span is ended,
are one expected case where IsRecording
cannot change after ending a Span.
IsRecording
SHOULD NOT take any parameters.
This flag SHOULD be used to avoid expensive computations of a Span attributes or
events in case when a Span is definitely not recorded. Note that any child
span's recording is determined independently from the value of this flag
(typically based on the sampled
flag of a TraceFlag
on
SpanContext).
This flag may be true
despite the entire trace being sampled out. This
allows to record and process information about the individual Span without
sending it to the backend. An example of this scenario may be recording and
processing of all incoming requests for the processing and building of
SLA/SLO latency charts while sending only a subset - sampled spans - to the
backend. See also the sampling section of SDK design.
Users of the API should only access the IsRecording
property when
instrumenting code and never access SampledFlag
unless used in context
propagators.
A Span
MUST have the ability to set Attributes
associated with it.
The Span interface MUST provide:
- An API to set a single
Attribute
where the attribute properties are passed as arguments. This MAY be calledSetAttribute
. To avoid extra allocations some implementations may offer a separate API for each of the possible value types.
Setting an attribute with the same key as an existing attribute SHOULD overwrite the existing attribute's value.
Note that the OpenTelemetry project documents certain "standard attributes" that have prescribed semantic meanings.
Note that Samplers can only consider information already present during span creation. Any changes done later, including new or changed attributes, cannot change their decisions.
A Span
MUST have the ability to add events. Events have a time associated
with the moment when they are added to the Span
.
An Event
is structurally defined by the following properties:
- Name of the event.
- A timestamp for the event. Either the time at which the event was added or a custom timestamp provided by the user.
- Zero or more
Attributes
further describing the event.
The Span interface MUST provide:
- An API to record a single
Event
where theEvent
properties are passed as arguments. This MAY be calledAddEvent
. This API takes the name of the event, optionalAttributes
and an optionalTimestamp
which can be used to specify the time at which the event occurred, either as individual parameters or as an immutable object encapsulating them, whichever is most appropriate for the language. If no custom timestamp is provided by the user, the implementation automatically sets the time at which this API is called on the event.
Events SHOULD preserve the order in which they are recorded. This will typically match the ordering of the events' timestamps, but events may be recorded out-of-order using custom timestamps.
Consumers should be aware that an event's timestamp might be before the start or after the end of the span if custom timestamps were provided by the user for the event or when starting or ending the span. The specification does not require any normalization if provided timestamps are out of range.
Note that the OpenTelemetry project documents certain "standard event names and keys" which have prescribed semantic meanings.
Note that RecordException
is a specialized variant of
AddEvent
for recording exception events.
Sets the Status
of the Span
. If used, this will override the default Span
status, which is Unset
.
Status
is structurally defined by the following properties:
StatusCode
, one of the values listed below.- Optional
Description
that provides a descriptive message of theStatus
.Description
MUST only be used with theError
StatusCode
value.
StatusCode
is one of the following values:
Unset
- The default status.
Ok
- The operation has been validated by an Application developer or Operator to have completed successfully.
Error
- The operation contains an error.
The Span interface MUST provide:
- An API to set the
Status
. This SHOULD be calledSetStatus
. This API takes theStatusCode
, and an optionalDescription
, either as individual parameters or as an immutable object encapsulating them, whichever is most appropriate for the language.Description
MUST be IGNORED forStatusCode
Ok
&Unset
values.
The status code SHOULD remain unset, except for the following circumstances:
When the status is set to ERROR
by Instrumentation Libraries, the status codes
SHOULD be documented and predictable. The status code should only be set to ERROR
according to the rules defined within the semantic conventions. For operations
not covered by the semantic conventions, Instrumentation Libraries SHOULD
publish their own conventions, including status codes.
Generally, Instrumentation Libraries SHOULD NOT set the status code to Ok
,
unless explicitly configured to do so. Instrumention libraries SHOULD leave the
status code as Unset
unless there is an error, as described above.
Application developers and Operators may set the status code to Ok
.
Analysis tools SHOULD respond to an Ok
status by suppressing any errors they
would otherwise generate. For example, to suppress noisy errors such as 404s.
Only the value of the last call will be recorded, and implementations are free to ignore previous calls.
Updates the Span
name. Upon this update, any sampling behavior based on Span
name will depend on the implementation.
Note that Samplers can only consider information already present during span creation. Any changes done later, including updated span name, cannot change their decisions.
Alternatives for the name update may be late Span
creation, when Span is
started with the explicit timestamp from the past at the moment where the final
Span
name is known, or reporting a Span
with the desired name as a child
Span
.
Required parameters:
- The new span name, which supersedes whatever was passed in when the
Span
was started
Signals that the operation described by this span has now (or at the time optionally specified) ended.
Implementations SHOULD ignore all subsequent calls to End
and any other Span methods,
i.e. the Span becomes non-recording by being ended
(there might be exceptions when Tracer is streaming events
and has no mutable state associated with the Span
).
Language SIGs MAY provide methods other than End
in the API that also end the
span to support language-specific features like with
statements in Python.
However, all API implementations of such methods MUST internally call the End
method and be documented to do so.
End
MUST NOT have any effects on child spans.
Those may still be running and can be ended later.
End
MUST NOT inactivate the Span
in any Context
it is active in.
It MUST still be possible to use an ended span as parent via a Context it is
contained in. Also, any mechanisms for putting the Span into a Context MUST
still work after the Span was ended.
Parameters:
- (Optional) Timestamp to explicitly set the end timestamp. If omitted, this MUST be treated equivalent to passing the current time.
This API MUST be non-blocking.
To facilitate recording an exception languages SHOULD provide a
RecordException
method if the language uses exceptions.
This is a specialized variant of AddEvent
,
so for anything not specified here, the same requirements as for AddEvent
apply.
The signature of the method is to be determined by each language
and can be overloaded as appropriate.
The method MUST record an exception as an Event
with the conventions outlined in
the exception semantic conventions document.
The minimum required argument SHOULD be no more than only an exception object.
If RecordException
is provided, the method MUST accept an optional parameter
to provide any additional event attributes
(this SHOULD be done in the same way as for the AddEvent
method).
If attributes with the same name would be generated by the method already,
the additional attributes take precedence.
Note: RecordException
may be seen as a variant of AddEvent
with
additional exception-specific parameters and all other parameters being optional
(because they have defaults from the exception semantic convention).
Span lifetime represents the process of recording the start and the end timestamps to the Span object:
- The start time is recorded when the Span is created.
- The end time needs to be recorded when the operation is ended.
Start and end time as well as Event's timestamps MUST be recorded at a time of a calling of corresponding API.
The API MUST provide an operation for wrapping a SpanContext
with an object
implementing the Span
interface. This is done in order to expose a SpanContext
as a Span
in operations such as in-process Span
propagation.
If a new type is required for supporting this operation, it SHOULD NOT be exposed
publicly if possible (e.g. by only exposing a function that returns something
with the Span interface type). If a new type is required to be publicly exposed,
it SHOULD be named NonRecordingSpan
.
The behavior is defined as follows:
GetContext()
MUST return the wrappedSpanContext
.IsRecording
MUST returnfalse
to signal that events, attributes and other elements are not being recorded, i.e. they are being dropped.
The remaining functionality of Span
MUST be defined as no-op operations.
Note: This includes End
, so as an exception from the general rule,
it is not required (or even helpful) to end such a Span.
This functionality MUST be fully implemented in the API, and SHOULD NOT be overridable.
SpanKind
describes the relationship between the Span, its parents,
and its children in a Trace. SpanKind
describes two independent
properties that benefit tracing systems during analysis.
The first property described by SpanKind
reflects whether the Span
is a remote child or parent. Spans with a remote parent are
interesting because they are sources of external load. Spans with a
remote child are interesting because they reflect a non-local system
dependency.
The second property described by SpanKind
reflects whether a child
Span represents a synchronous call. When a child span is synchronous,
the parent is expected to wait for it to complete under ordinary
circumstances. It can be useful for tracing systems to know this
property, since synchronous Spans may contribute to the overall trace
latency. Asynchronous scenarios can be remote or local.
In order for SpanKind
to be meaningful, callers SHOULD arrange that
a single Span does not serve more than one purpose. For example, a
server-side span SHOULD NOT be used directly as the parent of another
remote span. As a simple guideline, instrumentation should create a
new Span prior to extracting and serializing the SpanContext for a
remote call.
These are the possible SpanKinds:
SERVER
Indicates that the span covers server-side handling of a synchronous RPC or other remote request. This span is the child of a remoteCLIENT
span that was expected to wait for a response.CLIENT
Indicates that the span describes a synchronous request to some remote service. This span is the parent of a remoteSERVER
span and waits for its response.PRODUCER
Indicates that the span describes the parent of an asynchronous request. This parent span is expected to end before the corresponding childCONSUMER
span, possibly even before the child span starts. In messaging scenarios with batching, tracing individual messages requires a newPRODUCER
span per message to be created.CONSUMER
Indicates that the span describes the child of an asynchronousPRODUCER
request.INTERNAL
Default value. Indicates that the span represents an internal operation within an application, as opposed to an operations with remote parents or children.
To summarize the interpretation of these kinds:
SpanKind |
Synchronous | Asynchronous | Remote Incoming | Remote Outgoing |
---|---|---|---|---|
CLIENT |
yes | yes | ||
SERVER |
yes | yes | ||
PRODUCER |
yes | maybe | ||
CONSUMER |
yes | maybe | ||
INTERNAL |
For languages which support concurrent execution the Tracing APIs provide specific guarantees and safeties. Not all of API functions are safe to be called concurrently.
TracerProvider - all methods are safe to be called concurrently.
Tracer - all methods are safe to be called concurrently.
Span - All methods of Span are safe to be called concurrently.
Event - Events are immutable and safe to be used concurrently.
Link - Links are immutable and safe to be used concurrently.
The API layer or an extension package MUST include the following Propagator
s:
- A
TextMapPropagator
implementing the W3C TraceContext Specification.
See Propagators Distribution for how propagators are to be distributed.
In general, in the absence of an installed SDK, the Trace API is a "no-op" API.
This means that operations on a Tracer, or on Spans, should have no side effects and do nothing. However, there
is one important exception to this general rule, and that is related to propagation of a SpanContext
:
The API MUST create a non-recording Span with the SpanContext
that is in the Span
in the parent Context
(whether explicitly given or implicit current) or,
if the parent is a non-recording Span (which it usually always is if no SDK is present),
it MAY return the parent Span back from the creation method.
If the parent Context
contains no Span
, an empty non-recording Span MUST be returned instead
(i.e., having a SpanContext
with all-zero Span and Trace IDs, empty Tracestate, and unsampled TraceFlags).
This means that a SpanContext
that has been provided by a configured Propagator
will be propagated through to any child span and ultimately also Inject
,
but that no new SpanContext
s will be created.