f9de896427 | ||
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.. | ||
cmd | ||
codec | ||
testdata | ||
trace | ||
README.md | ||
convert.go | ||
convert_test.go | ||
handler.go | ||
handler_test.go | ||
zipkin.go | ||
zipkin_test.go |
README.md
Zipkin Plugin
This plugin implements the Zipkin http server to gather trace and timing data needed to troubleshoot latency problems in microservice architectures.
Please Note: This plugin is experimental; Its data schema may be subject to change based on its main usage cases and the evolution of the OpenTracing standard.
Configuration:
[[inputs.zipkin]]
path = "/api/v1/spans" # URL path for span data
port = 9411 # Port on which Telegraf listens
The plugin accepts spans in JSON
or thrift
if the Content-Type
is application/json
or application/x-thrift
, respectively.
If Content-Type
is not set, then the plugin assumes it is JSON
format.
Tracing:
This plugin uses Annotations tags and fields to track data from spans
-
TRACE: is a set of spans that share a single root span. Traces are built by collecting all Spans that share a traceId.
-
SPAN: is a set of Annotations and BinaryAnnotations that correspond to a particular RPC.
-
Annotations: for each annotation & binary annotation of a span a metric is output. Records an occurrence in time at the beginning and end of a request.
Annotations may have the following values:
- CS (client start): beginning of span, request is made.
- SR (server receive): server receives request and will start processing it network latency & clock jitters differ it from cs
- SS (server send): server is done processing and sends request back to client amount of time it took to process request will differ it from sr
- CR (client receive): end of span, client receives response from server RPC is considered complete with this annotation
Tags
- "id": The 64 bit ID of the span.
- "parent_id": An ID associated with a particular child span. If there is no child span, the parent ID is set to ID.
- "trace_id": The 64 or 128-bit ID of a particular trace. Every span in a trace shares this ID. Concatenation of high and low and converted to hexadecimal.
- "name": Defines a span
Annotations have these additional tags:
- "service_name": Defines a service
- "annotation": The value of an annotation
- "endpoint_host": Listening port concat with IPV4, if port is not present it will not be concatenated
Binary Annotations have these additional tag:
- "service_name": Defines a service
- "annotation": The value of an annotation
- "endpoint_host": Listening port concat with IPV4, if port is not present it will not be concatenated
- "annotation_key": label describing the annotation
Fields:
- "duration_ns": The time in nanoseconds between the end and beginning of a span.
Sample Queries:
Get All Span Names for Service my_web_server
SHOW TAG VALUES FROM "zipkin" with key="name" WHERE "service_name" = 'my_web_server'
- Description: returns a list containing the names of the spans which have annotations with the given
service_name
ofmy_web_server
.
Get All Service Names
SHOW TAG VALUES FROM "zipkin" WITH KEY = "service_name"
- Description: returns a list of all
distinct
endpoint service names.
Find spans with longest duration
SELECT max("duration_ns") FROM "zipkin" WHERE "service_name" = 'my_service' AND "name" = 'my_span_name' AND time > now() - 20m GROUP BY "trace_id",time(30s) LIMIT 5
- Description: In the last 20 minutes find the top 5 longest span durations for service
my_server
and span namemy_span_name
Recommended InfluxDB setup
This test will create high cardinality data so we recommend using the tsi influxDB engine.
How To Set Up InfluxDB For Work With Zipkin
Steps
-
Update InfluxDB to >= 1.3, in order to use the new tsi engine.
-
Generate a config file with the following command:
influxd config > /path/for/config/file
- Add the following to your config file, under the
[data]
tab:
[data]
index-version = "tsi1"
- Start
influxd
with your new config file:
influxd -config=/path/to/your/config/file
- Update your retention policy:
ALTER RETENTION POLICY "autogen" ON "telegraf" DURATION 1d SHARD DURATION 30m
Example Input Trace:
Trace Example from Zipkin model
{
"traceId": "bd7a977555f6b982",
"name": "query",
"id": "be2d01e33cc78d97",
"parentId": "ebf33e1a81dc6f71",
"timestamp": 1458702548786000,
"duration": 13000,
"annotations": [
{
"endpoint": {
"serviceName": "zipkin-query",
"ipv4": "192.168.1.2",
"port": 9411
},
"timestamp": 1458702548786000,
"value": "cs"
},
{
"endpoint": {
"serviceName": "zipkin-query",
"ipv4": "192.168.1.2",
"port": 9411
},
"timestamp": 1458702548799000,
"value": "cr"
}
],
"binaryAnnotations": [
{
"key": "jdbc.query",
"value": "select distinct `zipkin_spans`.`trace_id` from `zipkin_spans` join `zipkin_annotations` on (`zipkin_spans`.`trace_id` = `zipkin_annotations`.`trace_id` and `zipkin_spans`.`id` = `zipkin_annotations`.`span_id`) where (`zipkin_annotations`.`endpoint_service_name` = ? and `zipkin_spans`.`start_ts` between ? and ?) order by `zipkin_spans`.`start_ts` desc limit ?",
"endpoint": {
"serviceName": "zipkin-query",
"ipv4": "192.168.1.2",
"port": 9411
}
},
{
"key": "sa",
"value": true,
"endpoint": {
"serviceName": "spanstore-jdbc",
"ipv4": "127.0.0.1",
"port": 3306
}
}
]
}