Honeycomb logger is a simple library that lets you extremely easily export runtime information from your Cloudflare Workers into Honeycomb. Honeycomb is an observability platform which allows you to query and graph across any (number of) dimension(s) you have in your data. So you can for example graph request duration for 200 response codes, for GET requests, to a particular URL, for a particular customer.
Or you can drill into an entire trace of a request that errored out, including all subrequests.
Table of Contents
- Prerequisites
- Getting Started
- Config
- Adding logs and other data
- Traces
- Dynamic Sampling
- Cloudflare Pages Support
This script does not yet work for scheduled workers. It supports Workers in both the addEventListener
and module syntaxes, including Durable Objects. For more information on Durable Object support, see below.
Installation is done via the usual npm install @cloudflare/workers-honeycomb-logger
or yarn add @cloudflare/workers-honeycomb-logger
.
The next two things you need are a Honeycomb API key and a dataset name. You can pick any dataset name you like, Honeycomb will automatically create a new dataset if it sees a new name.
The next step depends on if you are using the addEventListener
format or the new module format (required for Durable Objects)
Automatically unpack nested JSON
setting in the dataset settings in https://ui.honeycomb.io to be able to query over all the data that is automatically included.
To configure the package, you need to wrap your listener with the honeycomb logger. So if your current code looks something like this:
addEventListener('fetch', (event) => {
event.respondWith(handleRequest(event.request))
})
function handleRequest(request) {
//your worker code.
}
You can change that to:
import { hc } from '@cloudflare/workers-honeycomb-logger'
const hc_config = {
apiKey: '<api_key>',
dataset: '<my-first-dataset>',
}
const listener = hc(hc_config, (event) => {
event.respondWith(handleRequest(event.request))
})
addEventListener('fetch', listener)
function handleRequest(request) {
//your worker code.
}
You are now good to go. Read through the config section to see what else you can configure. If you run into any problems, here is a full example of an addEventListener configured worker
If you are using the module syntax, the setup is slightly different. But you still have to wrap the worker.
If your code was something like this:
export default {
async fetch(request, env, ctx) {
return new Response('Hello world!', { status: 200 })
},
}
You would change that to something like:
const worker = {
async fetch(request, env, ctx) {
return new Response('Hello world!', { status: 200 })
},
}
const config = {
apiKey: '__HONEYCOMB_API_KEY__', // can also be provided by setting env var HONEYCOMB_API_KEY
dataset: 'my-first-dataset', // can also be provided by setting env var HONEYCOMB_DATASET
}
export default wrapModule(config, worker)
You are now good to go. Read through the config section to see what else you can configure. If you run into any problems, here is a full example of a module syntax configured worker
If you don't want to hardcode the API key manually, you can also set the environment variables HONEYCOMB_API_KEY
and HONEYCOMB_DATASET
and they will override whatever is inserted into wrapModule
.
If you are using Durable Objects, we support automatic distributed tracing across both your workers and your Durable Objects. You need to wrap your Worker code with the module system configuration above, and then wrap your durable object as well.
You can do it like this:
import { Counter as counter_do } from './counter.mjs'
const worker = {
async fetch(request, env) {
// handleRequest
},
}
const config = {
apiKey: '__HONEYCOMB_API_KEY__', // can also be provided by setting env var HONEYCOMB_API_KEY
dataset: 'my-first-dataset', // can also be provided by setting env var HONEYCOMB_DATASET
}
const Counter = wrapDurableObject(config, counter_do)
export default wrapModule(config, worker)
export { Counter }
If you run into any problems, here is a full example of a durable object configured worker
The config object can take a few extra parameters to add more detail to the events that are sent to Honeycomb or configure other aspects.
interface Config {
apiKey?: string //The honeycomb API Key, can be specified as env var HONEYCOMB_API_KEY
dataset?: string //The name of the dataset, can be specified as env var HONEYCOMB_DATASET
acceptTraceContext?: boolean //Do you want to accept automatic TraceContext information from clients? Defaults to 'false'
data?: any //Any data you want to add to every request. Things like service name, version info etc.
redactRequestHeaders?: string[] //Array of headers to redact. Will replace value with `REDACTED`. default is ['authorization', 'cookie', 'referer'].
redactResponseHeaders?: string[] //Array of headers to redact. Will replace value with `REDACTED`. default is ['set-cookie'].
sampleRates?: SampleRates | SampleRateFn //Either an object or function that configured sampling ([See below](#dynamic-sampling))
sendTraceContext?: boolean | RegExp //set this to true to send a TraceContext with all fetch requests. With a Regex, we will check the URL against the regex first. Defaults to 'false'
serviceName?: string //The serviceName you want to see in Honeycomb. Defaults to 'worker'
debugLog?: boolean // console.log response info for Honeycomb requests. Defaults to false
}
NOTE: In previous versions there were methods for parsing request and responses, but this becomes an issue when reading the body of the request or the response, so it has been removed. If you want add any information you can do so with the tracer.addData
method described below.
If you want to add any other data or logs to the current request, you can use the tracer.addData(data: object)
and tracer.log(message: string)
methods.
You can get a reference to the tracer either on the request object, or the second argument in the listener.
async function handleRequest(request: TracerRequest) {
request.tracer.log('handling request')
const customer = parseCustomer(request)
request.tracer.addData({customer: customer.name})
return ...
}
Honeycomb has a concept of a trace, which is a hierarchial representatation of multiple, related events. The Cloudflare Worker Honeycomb logger supports trace events for subrequests (outgoing HTTP fetch requests in your worker) like this:
To be able to associate the a subrequest with the correct incoming request, you will have to use the fetch defined on the tracer described above. The method on the tracer delegates all arguments to the regular fetch method, so the tracer.fetch
function is a drop-in replacement for all fetch
function calls.
Example:
async function handleRequest(request: Request) {
return request.tracer.fetch('https://docs.honeycomb.io/api/events/')
}
If you want to enable automatic distributed traces from your client to your backend, you can enable the acceptTrace
property to participate in the trace started by your client and sendTraceContext
to automatically send through the TraceContext to your backend.
This only works on the fetch
methods that are defined on the tracer
object and is compatible with any of the official Honeycomb beeline frameworks.
Remember that you do have to use the same dataset
for all systems to be able to assemble your trace in Honeycomb.
One of the challenges with storing all this information per request is that when you scale that up to past tens of millions of requests as month, it becomes more and more expensive. But at the same time you are almost certainly not very interested in the vast majority of the events. Which is why Honeycomb supports sampling. Sending only a portion of the events there. The problem with doing simple sampling (like sending only 1 in 10 requests for example), is that you lose a lot of events that happen rarely. So Honeycomb and this library support dynamic sampling. The easiest sampling that you can configure is by response code. So you can configure to keep only 1 in 10 responses code 200s, and keep all 5xx.
The number is technically how many requests it is representative for. An easier way to remember is that a request has a 1/x chance to be sampled.
export interface SampleRates {
'1xx': number
'2xx': number
'3xx': number
'4xx': number
'5xx': number
exception: number
}
In an example:
const hc_config = {
api_key: 'abcd',
dataset: 'my-first-dataset',
sampleRates: {
'1xx': 20,
'2xx': 10,
'3xx': 5,
'4xx': 2,
'5xx': 1,
exception: 1,
},
}
This configures the library to only send 1 in 10 requests with a response code in the 200s, but keep all errors; both 500s and exceptions.
If you want more fine grained control over what is sampled, you can supply a function that takes the entire data
object of the outer event.
This is the exact object that will be sent to Honeycomb, so you can see what values are available there.
This includes all information that you have added with request.tracer.addData()
Please note that the Headers
for both request and response objects are converted into a Record<string, string>
. So if you want to check the content-type
headers in the response, you can do data.response.headers['content-type']
.
Examples
function sampleRates(data: any): number {
if (data.request.url.contains('/healthcheck')) {
return 0
} else if (data.customer.plan === 'enterprise') {
return 5
} else if (data.response.ok === true) {
return 20
} else {
return 1
}
}
The one caveat with sampling and distributed tracing is that if you sample in both/all systems independently of one another, that it becomes likely that you will get partial traces.
For Cloudflare Pages support, check out the Honeycomb Pages Plugin.