If you are using Fastify and Mercurius as GraphQL adapter, you have faced the problem of logging the data sent by the client.
If you are not using Fastify, the fastest Node.js web framework and Mercurius GraphQL adapter, nevermind, you will learn how to create it in the next section 🎉
The default log line shows only the same /graphql
endpoint over and over again:
{
"level": 30,
"time": 1660395516356,
"pid": 83316,
"hostname": "eomm",
"name": "gateway",
"reqId": "req-1",
"req": {
"method": "POST",
"url": "/graphql",
"hostname": "localhost:60767",
"remoteAddress": "127.0.0.1",
"remotePort": 60769
},
"msg": "incoming request"
}
This is not very useful because you don't know:
- the operation name
- the query sent by the client
- the variables sent by the client
So let's try to add some extra information to the log line to be more effective during debugging.
How to create a basic GQL application?
Luckily, Fastify and Mercurius are highly extensible and let us add all the necessary information.
First, let's create a sample GraphQL application by creating a new project:
mkdir demo-logging-gql
cd demo-logging-gql
npm init --yes
npm i fastify mercurius
Now we need to add a new sample-app.js
file:
const Fastify = require('fastify')
const GQL = require('mercurius')
main()
async function main () {
const app = Fastify({
logger: {
name: 'sample-app',
level: 'info'
}
})
// A simple GQL schema with a single query
const schema = `
type Query {
readMeaningOfLife: Int
}
`
// Register and load the schema with the GQL adapter
await app.register(GQL, {
schema,
resolvers: {
// A simple resolver that will execute the query
readMeaningOfLife: function (schema, args, context, info) {
return 42
}
}
})
// Start the server
await app.listen({ port: 8080 })
// Now we can run a GQL query
const res = await doQuery(app, '{ one:readMeaningOfLife }')
console.log(JSON.stringify(res.json(), null, 2)) // let's see the result
app.close()
}
function doQuery (app, query) {
return app.inject({
method: 'POST',
url: '/graphql',
body: {
query
}
})
}
Great! Now we can run the application with the command:
node sample-app.js
You will see something like:
{"level":30,"time":1660401031343,"pid":97351,"hostname":"eomm","name":"sample-app","msg":"Server listening at http://127.0.0.1:8080"}
{"level":30,"time":1660401031346,"pid":97351,"hostname":"eomm","name":"sample-app","msg":"Server listening at http://[::1]:8080"}
{"level":30,"time":1660401031386,"pid":97351,"hostname":"eomm","name":"sample-app","reqId":"req-1","req":{"method":"POST","url":"/graphql","hostname":"localhost:80","remoteAddress":"127.0.0.1"},"msg":"incoming request"}
{"level":30,"time":1660401031395,"pid":97351,"hostname":"eomm","name":"sample-app","reqId":"req-1","res":{"statusCode":200},"responseTime":8.89283299446106,"msg":"request completed"}
As you can see, the log line does not contain any info about the query sent by the client. Let's see how to add this info to the log line!
How to log the query?
Mercurius has a lot of hooks that allow us to execute custom code before or after some tasks.
In this case, we want to log what is being executed before the GQL resolvers are executed. The preExecution
hook is the perfect place to do it.
So, we can now edit the sample-app.js
file by adding this code before the app.listen()
call:
app.graphql.addHook('preExecution', async function logGraphQLDetails (schema, document, context) {
console.log('preExecution', schema, document, context)
return null
})
This simple snippet will help us to inspect the hook's arguments and understand what each variable contains. Returning null
from the hook will continue the execution of the resolvers.
After some trials, you may find this snippet useful:
app.graphql.addHook('preExecution', function logGraphQLDetails (schema, document, context) {
// use the request object to log the query. We will get the reqId to be able to match the response with the request
context.reply.request.log.info({
graphql: {
// we need to traverse the document to get the data
queries: document.definitions
.filter(d => d.kind === 'OperationDefinition' && d.operation === 'query')
.flatMap(d => d.selectionSet.selections)
.map(selectionSet => selectionSet.name.value)
}
})
return null
})
The document
argument is the GraphQL document AST that will be processed. You can find more details about the AST structure in the GraphQL specification.
Now, re-running the application will log:
{"level":30,"time":1660402270890,"pid":99991,"hostname":"eomm","name":"sample-app","msg":"Server listening at http://127.0.0.1:8080"}
{"level":30,"time":1660402270891,"pid":99991,"hostname":"eomm","name":"sample-app","msg":"Server listening at http://[::1]:8080"}
{"level":30,"time":1660402270901,"pid":99991,"hostname":"eomm","name":"sample-app","reqId":"req-1","req":{"method":"POST","url":"/graphql","hostname":"localhost:80","remoteAddress":"127.0.0.1"},"msg":"incoming request"}
{"level":30,"time":1660402270905,"pid":99991,"hostname":"eomm","name":"sample-app","reqId":"req-1","graphql":{"queries":["readMeaningOfLife"]}}
{"level":30,"time":1660402270911,"pid":99991,"hostname":"eomm","name":"sample-app","reqId":"req-1","res":{"statusCode":200},"responseTime":10.019375085830688,"msg":"request completed"}
If we look closely at the log line, we can see that the graphql
property contains the list of queries that will be executed.
{
"level": 30,
"time": 1660402270905,
"pid": 99991,
"hostname": "eomm",
"name": "sample-app",
"reqId": "req-1",
"graphql": {
"queries": [
"readMeaningOfLife"
]
}
}
Note that the queries
object is an array because we can have multiple queries in a single request! You can try it by modifying the sample-app.js
and adding a new query:
await doQuery(app, `{
one:readMeaningOfLife
two:readMeaningOfLife
}`)
Summary
You have now learned how to use the preExecution
hook to log the queries that are being executed and extract some metrics to know the GQL queries usages and all that you may think of.
This blog post has been an inspiration to create a Mercurius plugin to log the queries and mutations!! Check it out mercurius-logging
!
If you have found this useful, you may read this article.
Now jump into the source code on GitHub and start to play with the GraphQL implemented in Fastify. Comment and share if you enjoyed this article!
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