v6.1.1
winston-cloudwatchSend logs to Amazon Cloudwatch using Winston
Starting from version 3.0.0 we moved aws-sdk into devDependencies to reduce the size of the package, so if you're not using this on AWS Lambda make sure you add aws-sdk dependency into your application package.json.
If you were using this library before version 2.0.0 have a look at the migration guide for Winston and at the updated examples.
Features
- logging to AWS CloudWatchLogs
- logging to multiple streams
- programmatically flush logs and exit
- logging with multiple levels
- creates group / stream if they don't exist
- waits for an upload to suceed before trying the next
- truncates messages that are too big
- batches messages taking care of the AWS limit (you should use more streams if you hit this a lot)
- support for Winston's uncaught exception handler
- support for TypeScript, see TypeScript definition
- see options for more
Installing
$ npm install --save winston winston-cloudwatch @aws-sdk/client-cloudwatch-logs
Also consider that we have both winston and @aws-sdk/client-cloudwatch-logs configured as peerDependencies.
Configuring
AWS configuration works using ~/.aws/credentials
as written in AWS JavaScript SDK guide.
As a best practice remember to use one stream per resource, so for example if you have 4 servers you should setup 4 streams on AWS CloudWatch Logs, this is a general best practice to avoid incurring in token clashes and to avoid limits of the service (see usage for more).
Credentials
Use awsOptions
to set your credentials, like so:
new WinstonCloudWatch({
...,
awsOptions: {
credentials: {
accessKeyId,
secretAccessKey,
},
region,
}
})
Region note
As specified in the docs:
The AWS SDK for Node.js doesn't select the region by default.
so you should take care of that. See the examples below.
If either the group or the stream do not exist they will be created for you.
AWS UI
For displaying time in AWS CloudWatch UI you should click on the gear in the top right corner in the page with your logs and enable checkbox "Creation Time".
TypeScript
Remember to install types for both winston and this library.
Usage
Please refer to AWS CloudWatch Logs documentation for possible contraints that might affect you. Also have a look at AWS CloudWatch Logs limits.
In ES5
var winston = require('winston'),
WinstonCloudWatch = require('winston-cloudwatch');
In ES6
import { createLogger, format } from 'winston';
import * as WinstonCloudWatch from 'winston-cloudwatch';
export const log = createLogger({
level: 'debug',
format: format.json(),
transports: [
new WinstonCloudWatch({
level: 'error',
logGroupName: 'groupName',
logStreamName: 'errors',
awsRegion: 'eu-west-3'
}),
]
});
You can also specify a function for the logGroupName
and logStreamName
options. This is handy if you are using this module in a server, say with express, as it enables you to easily split streams across dates, for example. There is an example of this here.
Logging to multiple streams
You could also log to multiple streams with / without different log levels, have a look at this example.
Consider that when using this feature you will have two instances of winston-cloudwatch, each with its own setInterval
running.
Programmatically flush logs and exit
Think AWS Lambda for example, you don't want to leave the process running there for ever waiting for logs to arrive.
You could have winston-cloudwatch to flush and stop the setInterval loop (thus exiting), have a look at this example.
Custom AWS.CloudWatchLogs instance
const AWS = require('aws-sdk');
AWS.config.update({
region: 'us-east-1',
});
winston.add(new WinstonCloudWatch({
cloudWatchLogs: new AWS.CloudWatchLogs(),
logGroupName: 'testing',
logStreamName: 'first'
}));
Options
This is the list of options you could pass as argument to winston.add
:
- name -
string
- level - defaults to
info
- logGroupName -
string
orfunction
- logStreamName -
string
orfunction
- cloudWatchLogs -
AWS.CloudWatchLogs
instance, used to set custom AWS instance. - awsOptions -
object
, params as per docs, values inawsOptions
are overridden by any other if specified, run this example to have a look; you should put youraccessKeyId
andsecretAccessKey
under a nextedcredentials
property, specifyregion
underawsOptions
- jsonMessage -
boolean
, format the message as JSON - messageFormatter -
function
, format the message the way you like. This function will receive alog
object that has the following properties:level
,message
, andmeta
, which are passed by winston to thelog
function (see CustomLogger.prototype.log as an example) - uploadRate -
Number
, how often logs have to be sent to AWS. Be careful of not hitting AWS CloudWatch Logs limits, the default is 2000ms. - errorHandler -
function
, invoked with an error object, if not provided the error is sent toconsole.error
- retentionInDays -
Number
, defaults to0
, if set to one of the possible values1, 3, 5, 7, 14, 30, 60, 90, 120, 150, 180, 365, 400, 545, 731, 1827, and 3653
the retention policy on the log group written will be set to the value provided.
AWS keys are usually picked by aws-sdk
so you don't have to specify them, I provided the option just in case. Remember that awsRegion
should still be set if you're using IAM roles.
Examples
Please refer to the provided examples for more hints.
Note that when running the examples the process will not exit because of the setInterval
Simulation
You could simulate how winston-cloudwatch runs by using the files in
examples/simulate
:
running-process.js
represents a winston-cloudwatch process that sits there, sends a couple logs then waits for a signal to send morelog.sh
is a script that you could run to send logs to the above
At this point you could for example run log.sh
in a tight loop, like so
$ while true; do ./examples/simulate/log.sh $PID; sleep 0.2; done
and see what happens in the library, this might be useful to test if you need
more streams for example, all you need to do is change running-process.js
to
better reflect your needs.
If you want more detailed information you could do
$ WINSTON_CLOUDWATCH_DEBUG=true node examples/simulate/running-process.js
which will print lots of debug statements as you might've guessed.