import { TraceState } from './trace_state'; /** * A SpanContext represents the portion of a {@link Span} which must be * serialized and propagated along side of a {@link Baggage}. */ export interface SpanContext { /** * The ID of the trace that this span belongs to. It is worldwide unique * with practically sufficient probability by being made as 16 randomly * generated bytes, encoded as a 32 lowercase hex characters corresponding to * 128 bits. */ traceId: string; /** * The ID of the Span. It is globally unique with practically sufficient * probability by being made as 8 randomly generated bytes, encoded as a 16 * lowercase hex characters corresponding to 64 bits. */ spanId: string; /** * Only true if the SpanContext was propagated from a remote parent. */ isRemote?: boolean; /** * Trace flags to propagate. * * It is represented as 1 byte (bitmap). Bit to represent whether trace is * sampled or not. When set, the least significant bit documents that the * caller may have recorded trace data. A caller who does not record trace * data out-of-band leaves this flag unset. * * see {@link TraceFlags} for valid flag values. */ traceFlags: number; /** * Tracing-system-specific info to propagate. * * The tracestate field value is a `list` as defined below. The `list` is a * series of `list-members` separated by commas `,`, and a list-member is a * key/value pair separated by an equals sign `=`. Spaces and horizontal tabs * surrounding `list-members` are ignored. There can be a maximum of 32 * `list-members` in a `list`. * More Info: https://www.w3.org/TR/trace-context/#tracestate-field * * Examples: * Single tracing system (generic format): * tracestate: rojo=00f067aa0ba902b7 * Multiple tracing systems (with different formatting): * tracestate: rojo=00f067aa0ba902b7,congo=t61rcWkgMzE */ traceState?: TraceState; } //# sourceMappingURL=span_context.d.ts.map