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This repository elaborates identifiers used to place an operation in a trace tree. These attributes are propagated in-process, and eventually downstream (often via http headers), to ensure all activity originating from the same root are collected together. A sampling decision is made at the root of the trace, and this indicates if trace details should be collected and reported to the tracing system (usually Zipkin) or not.

Overall Process

The most common propagation use case is to copy a trace context from a client sending an RPC request to a server receiving it.

In this case, the same trace IDs are used, which means that both the client and server side of an operation end up in the same node in the trace tree.

Here's an example flow using multiple header encoding, assuming an HTTP request carries the propagated trace:

   Client Tracer                                                  Server Tracer     
┌───────────────────────┐                                       ┌───────────────────────┐
│                       │                                       │                       │
│   TraceContext        │          Http Request Headers         │   TraceContext        │
│ ┌───────────────────┐ │         ┌───────────────────┐         │ ┌───────────────────┐ │
│ │ TraceId           │ │         │ X-B3-TraceId      │         │ │ TraceId           │ │
│ │                   │ │         │                   │         │ │                   │ │
│ │ ParentSpanId      │ │ Inject  │ X-B3-ParentSpanId │ Extract │ │ ParentSpanId      │ │
│ │                   ├─┼────────>│                   ├─────-───┼>│                   │ │
│ │ SpanId            │ │         │ X-B3-SpanId       │         │ │ SpanId            │ │
│ │                   │ │         │                   │         │ │                   │ │
│ │ Sampling decision │ │         │ X-B3-Sampled      │         │ │ Sampling decision │ │
│ └───────────────────┘ │         └───────────────────┘         │ └───────────────────┘ │
│                       │                                       │                       │
└───────────────────────┘                                       └───────────────────────┘


Trace identifiers are 64 or 128-bit, but all span identifiers within a trace are 64-bit. All identifiers are opaque.


The TraceId is 64 or 128-bit in length and indicates the overall ID of the trace. Every span in a trace shares this ID.


The SpanId is 64-bit in length and indicates the position of the current operation in the trace tree. The value should not be interpreted: it may or may not be derived from the value of the TraceId.


The ParentSpanId is 64-bit in length and indicates the position of the parent operation in the trace tree. When the span is the root of the trace tree, there is no ParentSpanId.

Sampling State

Sampling is a mechanism to reduce the volume of data that ends up in the tracing system. In B3, sampling applies consistently per-trace: once the sampling decision is made, the same value should be consistently sent downstream. This means you will see all spans sharing a trace ID or none.

Here are the valid sampling states. Note they all applied to the trace ID, not the span ID:

  • Defer: aka I don't know yet!
    • Defer is used when trace identifiers are set by a proxy, but that proxy doesn't send data to Zipkin. The most common use case for defering a decision is pre-provisioning trace identifiers.
  • Deny: aka don't sample or don't record
    • Deny is used to achieve a probabilistic rate or to prevent certain paths (such as health checks) from generating traces. Where possible, instrumentation should should optimize deny such that less overhead occurs.
  • Accept: aka sample or record
    • Accept is used to achieve a probabilistic rate or to ensure certain paths (such as low-traffic endpoints) are always traced. When a trace is accepted, spans should be reported to zipkin except in overload scenarios.
  • Debug: aka force trace
    • Debug is a production troubleshooting aid used in tools like curl or chrome debug. Debug is an emphasized accept decision that implies accept, additionally reporting Span.debug = true for each span in the trace.

The most common use of sampling is probablistic: eg, accept 0.01% of traces and deny the rest. Debug is the least common use case.

Http Encodings

There are two encodings of B3: Single Header and Multiple Header. Multiple header encoding uses an X-B3- prefixed header per item in the trace context. Single header delimits the context into into a single entry named b3. The single-header variant takes precedence over the multiple header one when extracting fields.

Multiple Headers

B3 attributes are most commonly propagated as multiple http headers. All B3 headers follows the convention of X-B3-${name} with special-casing for flags. When extracting state headers, the first value wins.

Note: Http headers are case-insensitive, but sometimes this encoding is used for other transports. When encoding in case-sensitive transports, prefer lowercase keys or the single header header encoding which is explicitly lowercase.


The X-B3-TraceId header is required and is encoded as 32 or 16 lower-hex characters. For example, a 128-bit TraceId header might look like: X-B3-TraceId: 463ac35c9f6413ad48485a3953bb6124


The X-B3-SpanId header is required and is encoded as 16 lower-hex characters. For example, a SpanId header might look like: X-B3-SpanId: a2fb4a1d1a96d312


The X-B3-ParentSpanId header may be present on a child span and must be absent on the root span. It is encoded as 16 lower-hex characters. For example, a ParentSpanId header might look like: X-B3-ParentSpanId: 0020000000000001

Sampling State

An accept sampling decision is encoded as X-B3-Sampled: 1 and a deny as X-B3-Sampled: 0. Absent means defer the decision to the receiver of this header. For example, a Sampled header might look like: X-B3-Sampled: 1.

Note: Before this specification was written, some tracers propagated X-B3-Sampled as true or false as opposed to 1 or 0. While you shouldn't encode X-B3-Sampled as true or false, a lenient implementation may accept them.

Debug Flag

Debug is encoded as X-B3-Flags: 1. Debug implies an accept decision, so don't also send the X-B3-Sampled header.

Single Header

A single header named b3 standardized in late 2018 for use in JMS and w3c tracestate. Design and rationale are captured here. Check or update our support page for adoption status.

In simplest terms b3 maps propagation fields into a hyphen delimited string.

b3={TraceId}-{SpanId}-{SamplingState}-{ParentSpanId}, where the last two fields are optional.

For example, the following state encoded in multiple headers:

X-B3-TraceId: 80f198ee56343ba864fe8b2a57d3eff7
X-B3-ParentSpanId: 05e3ac9a4f6e3b90
X-B3-SpanId: e457b5a2e4d86bd1
X-B3-Sampled: 1

Becomes one b3 header, for example:

b3: 80f198ee56343ba864fe8b2a57d3eff7-e457b5a2e4d86bd1-1-05e3ac9a4f6e3b90

Note: When only propagating a sampling decision, the header is still named b3, but only contains the sampling state.

A deny decision encodes as:

b3: 0


The first position of the b3 value is the 32 or 16 lower-hex character TraceId. Unless propagating only the Sampling State, the TraceId is required.

For example, a TraceId of 80f198ee56343ba864fe8b2a57d3eff7 encodes in the left-most position:

b3: 80f198ee56343ba864fe8b2a57d3eff7-e457b5a2e4d86bd1-1


The second position of the b3 value is the 16 lower-hex character SpanId. Unless propagating only the Sampling State, the SpanId is required.

For example, a SpanId of e457b5a2e4d86bd1 encodes after the left-most hyphen:

b3: 80f198ee56343ba864fe8b2a57d3eff7-e457b5a2e4d86bd1-1

Sampling State

When the sampling state isn't Defer, it is encoded as a single hex character in the third position of the b3 value. Sampling state can also be sent on its own (with no identifiers).

Sampling State is encoded as a single hex character for all states except Defer. Defer is absence of the sampling field.

  • Accept: 1
  • Deny: 0
  • Debug: d

For example, a debug trace could look like this

b3: 80f198ee56343ba864fe8b2a57d3eff7-e457b5a2e4d86bd1-d

A deny decision may omit identifiers and look like this:

b3: 0


When present, ParentSpanId is the 16 lower-hex characters in the final position of b3.

For example, a ParentSpanId of 05e3ac9a4f6e3b90 encodes in the right-most position:

b3: 80f198ee56343ba864fe8b2a57d3eff7-e457b5a2e4d86bd1-1-05e3ac9a4f6e3b90

gRPC Encoding

B3 attributes can also be propagated as ASCII headers in the Custom Metadata of a request. The encoding is exactly the same as Http headers, except the names are explicitly or implicitly down-cased.

For example, when using multiple headers, X-B3-ParentSpanId: 0020000000000001 encodes as an ASCII header x-b3-parentspanid with the same value.

JMS Encoding

JMS (Java Message Service) has constraints that disallow X-B3- prefixed headers. As such, only the single header format b3 should be used with JMS. As messaging spans never share a SpanId, it is encouraged to omit the ParentSpanId field when propagating.

Refer to our design documentation for details.

Frequently Asked Questions

Why is ParentSpanId propagated?

In B3, the trace context is extracted from incoming headers. Timing and metadata for the client and server side of an operation are recorded with the same context. The ParentSpanId is the ID of the operation that caused the current RPC. For example, it could be the ID of another server request or a scheduled job. ParentSpanId is propagated so that when data is reported to Zipkin, it can be placed in the correct spot in the trace tree.

Here's an example of a B3 library extracting a trace context from incoming http request headers:

 Incoming Headers          │   TraceContext    │
┌───────────────────┐      │ ┌───────────────┐ │
│ X-B3-TraceId      │──────┼─┼> TraceId      │ │
│                   │      │ │               │ │
│ X-B3-ParentSpanId │──────┼─┼> ParentSpanId │ │
│                   │      │ │               │ │
│ X-B3-SpanId       │──────┼─┼> SpanId       │ │
│                   │      │ └───────────────┘ │
└───────────────────┘      └───────────────────┘

Some propagation formats look similar to B3, but don't propagate a field named parent. Instead, they propagate a span ID field which serves the same purpose as ParentSpanId. Unlike B3, these systems use a different span ID for the client and server side of an RPC. When a server reads headers like this, it is expected to provision a new span ID for itself, and use the one it extracted as its parent.

Here's an example of an alternate library composing a trace context with incoming http request headers and an ID generator:

 Incoming Headers          │   TraceContext    │
┌───────────────────┐      │ ┌───────────────┐ │
│ XXXX-TraceId      │──────┼─┼> TraceId      │ │
│                   │      │ │               │ │
│ XXXX-SpanId       │──────┼─┼> ParentSpanId │ │
└───────────────────┘      │ │               │ │      ┌──────────────┐
                           │ │  SpanId      <┼─┼──────│ ID Generator │
                           │ └───────────────┘ │      └──────────────┘

In both B3 and the above example, incoming headers contain the parent's span ID, and three IDs (trace, parent, span) end up in the trace context. The difference is that B3 uses the same span ID for the client and server side of an RPC, where the latter does not.

Why propagate a reject sampling decision?

It may not be obvious why you'd send a reject sampling decision to the next hop. Imagine a service decides not to trace an operation and makes 2 out-going calls, and these branched out further. If reject ("don't trace") isn't propagated, the system might receive only parts of the operation, confusing users.

Another reason to reject sampling is to prevent overwhelming the collector with high throughput. If the reject-sampling decision is not propagated then there's no way to tell recipients of outbound calls that they should not send span info to the collector.

Why send trace IDs with a reject sampling decision?

While valid to propagate only a reject sampling decision (X-B3-Sampled: 0), if trace identifiers are established, they should be propagated, too. The tracing system is often not the only consumer of trace identifiers. Services may still want to do things with the tracing info even if they aren't sending span data to the collector, e.g. tag logs with trace IDs.

Why defer a sampling decision?

Deferring the sampling decision is special-case. The only known use-cases are the following:

  • Debug trace: A debug trace is implicitly an accepted trace
  • Externally provisioned IDs: When you want to control IDs, but not sampling policy

Unless it is a debug trace, leaving out a sampling decision is typically ID correlation. For example, someone re-uses a global identifier from another system, or correlating in logs. In these cases, the caller knows the ID they want, but allows the next hop to decide if it will be traced or not. The caller should not report a span to the tracing system using this ID unless they propagate an accept sampling decision.

Why is Debug encoded as X-B3-Flags: 1?

The first tracer to use B3 was Finagle. In Finagle, thrift-rpc was a dominant protocol, and a fixed-width binary encoding held B3 attributes. This binary encoding used a bit field to encode the sampling decision and the debug flag.

Http encoding chose to use a separate header for the sampling decision, but kept the flags field for debug. In hind sight, it would have made more sense to use a separate header such as X-B3-Debug: 1 as no other flags were added and no implementation treats X-B3-Flags as a bit field. That said, renaming the field would cause more damage than good, so it was left alone.