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Looking for the plugin's configuration parameters? You can find them in the Zipkin configuration reference doc.
Propagate Zipkin distributed tracing spans and report spans to a Zipkin server.
Queueing
The zipkin plugin uses a queue to decouple the production and consumption of data. This reduces the number of concurrent requests made to the upstream server under high load situations and provides buffering during temporary network or upstream outages.
You can set several parameters to configure the behavior and capacity of the queues used by the plugin. For more information about how to use these parameters, see Plugin Queuing Reference in the Kong Gateway documentation.
The queue parameters all reside in a record under the key queue
in
the config
parameter section of the plugin.
Queues are not shared between workers and queueing parameters are scoped to one worker. For whole-system capacity planning, the number of workers need to be considered when setting queue parameters.
Trace IDs in serialized logs
When the Zipkin plugin is configured along with a plugin that uses the
Log Serializer,
the trace ID of each request is added to the key trace_id
in the serialized log output.
The value of this field is an object that can contain different formats
of the current request’s trace ID. In case of multiple tracing headers in the
same request, the trace_id
field includes one trace ID format
for each different header format, as in the following example:
"trace_id": {
"b3": "4bf92f3577b34da6a3ce929d0e0e4736",
"datadog": "11803532876627986230"
},
How it Works
When enabled, this plugin traces requests in a way compatible with zipkin.
The code is structured around an OpenTracing core using the opentracing-lua library to collect timing data of a request in each of Kong’s phases.
The plugin uses opentracing-lua
compatible extractor, injector, and reporters to implement Zipkin’s protocols.
Reporter
An OpenTracing “reporter” is how tracing data is reported to another system. This plugin records tracing data for a given request, and sends it as a batch to a Zipkin server using the Zipkin v2 API. Note that zipkin version 1.31 or higher is required.
The http_endpoint
configuration variable must contain the full uri including scheme, host, port and path sections (i.e. your uri likely ends in /api/v2/spans
).
Spans
The plugin does request sampling. For each request which triggers the plugin, a random number between 0 and 1 is chosen.
If the number is smaller than the configured sample_ratio
, then a trace with several spans will be generated. If sample_ratio
is set to 1, then all requests will generate a trace (this might be very noisy).
For each request that gets traced, the following spans are produced:
-
Request span: 1 per request. Encompasses the whole request in kong (kind: SERVER). The Proxy and Balancer spans are children of this span. It contains the following logs/annotations for the rewrite phase:
-
krs
-kong.rewrite.start
-
krf
-kong.rewrite.finish
The Request span has the following tags:
-
lc
: Hardcoded tokong
. -
kong.service
: The uuid of the service matched when processing the request, if any. -
kong.service_name
: The name of the service matched when processing the request, if service exists and has aname
attribute. -
kong.route
: The uuid of the route matched when processing the request, if any (it can be nil on non-matched requests). -
kong.route_name
: The name of the route matched when processing the request, if route exists and has aname
attribute. -
http.method
: The HTTP method used on the original request (only for HTTP requests). -
http.path
: The path of the request (only for HTTP requests). - If the plugin
tags_header
config option is set, and the request contains headers with the appropriate name and correct encoding tags, then the trace will include the tags. - If the plugin
static_tags
config option is set, then the tags in the config option will be included in the trace.
-
-
Proxy span: 1 per request, encompassing most of Kong’s internal processing of a request (kind: CLIENT).
Contains the following logs/annotations for the start/finish of the of the Kong plugin phases:
-
kas
-kong.access.start
-
kaf
-kong.access.finish
-
kbs
-kong.body_filter.start
-
kbf
-kong.body_filter.finish
-
khs
-kong.header_filter.start
-
khf
-kong.header_filter.finish
-
kps
-kong.preread.start
(only for stream requests) -
kpf
-kong.preread.finish
(only for stream requests)
-
-
Balancer span(s): 0 or more per request, each encompassing one balancer attempt (kind: CLIENT).
Contains the following tags specific to load balancing:
-
kong.balancer.try
: A number indicating the attempt (1 for the first load-balancing attempt, 2 for the second, and so on). -
peer.ipv4
orpeer.ipv6
for the balancer IP. -
peer.port
for the balanced port. -
error
: Set totrue
if the balancing attempt was unsuccessful, otherwise unset. -
http.status_code
: The HTTP status code received, in case of error. -
kong.balancer.state
: An NGINX-specific description of the error,next/failed
for HTTP failures, or0
for stream failures. Equivalent tostate_name
in OpenResty’s balancer’sget_last_failure
function.
-
Propagation
The Zipkin plugin supports propagation of the following header formats:
-
w3c
: W3C trace context -
b3
andb3-single
: Zipkin headers -
jaeger
: Jaeger headers -
ot
: OpenTracing headers -
datadog
: Datadog headers -
aws
: AWS X-Ray header -
gcp
: GCP X-Cloud-Trace-Context header
This plugin offers extensive options for configuring tracing header propagation, providing a high degree of flexibility. Users can freely customize which headers are used to extract and inject tracing context. Additionally, they have the ability to configure headers to be cleared after the tracing context extraction process, enabling a high level of customization.
flowchart LR id1(Original Request) --> Extract id1(Original Request) -->|"headers (original)"| Extract id1(Original Request) --> Extract subgraph ide1 [Headers Propagation] Extract --> Clear Extract -->|"headers (original)"| Clear Extract --> Clear Clear -->|"headers (filtered)"| Inject end Extract -.->|extracted ctx| id2((tracing logic)) id2((tracing logic)) -.->|updated ctx| Inject Inject -->|"headers (updated ctx)"| id3(Updated request)
The following examples demonstrate how the propagation configuration options can be used to achieve various use cases.
Extract, clear, and inject
- Extract the tracing context using order of precedence:
w3c
>b3
>jaeger
>ot
>aws
>datadog
- Clear
b3
anduber-trace-id
headers after extraction, if present in the request - Inject the tracing context using the format:
w3c
- config:
propagation:
extract: [ w3c, b3, jaeger, ot, aws, datadog ]
clear: [ b3, uber-trace-id ]
inject: [ w3c ]
Multiple injection
- Extract the tracing context from:
b3
- Inject the tracing context using the formats:
w3c
,b3
,jaeger
,ot
,aws
,datadog
,gcp
- config:
propagation:
extract: [ b3 ]
inject: [ w3c, b3, jaeger, ot, aws, datadog, gcp ]
Preserve incoming format
- Extract the tracing context using order of precedence:
w3c
>b3
>jaeger
>ot
>aws
>datadog
- Inject the tracing context in the extracted header type
- Default to
w3c
for context injection if none of theextract
header types were found in the request
- config:
propagation:
extract: [ w3c, b3, jaeger, ot, aws, datadog ]
inject: [ preserve ]
default_format: "w3c"
preserve
can also be used with other formats, to specify that the incoming format should be preserved in addition to the others:
- config:
propagation:
extract: [ w3c, b3, jaeger, ot, datadog ]
inject: [ aws, preserve, datadog ]
default_format: "w3c"
Ignore incoming headers
- No tracing context extraction
- Inject the tracing context using the formats:
b3
,datadog
- config:
propagation:
extract: [ ]
inject: [ b3, datadog ]
Note: Some header formats specify different trace and span ID sizes. When the tracing context is extracted and injected from/to headers with different ID sizes, the IDs are truncated or left-padded to align with the target format.
Refer to the plugin’s configuration reference for a complete overview of the available options and values.
Note: If any of the
propagation.*
configuration options (extract
,clear
, orinject
) are configured, thepropagation
configuration takes precedence over the deprecatedheader_type
anddefault_header_type
parameters. If none of thepropagation.*
configuration options are set, theheader_type
anddefault_header_type
parameters are still used to determine the propagation behavior.
See also
For more information, read the Kong blog post.