Serverless MySQL is a wrapper for Doug Wilson's amazing mysql Node.js module. Normally, using the mysql
module with Node apps would be just fine. However, serverless functions (like AWS Lambda, Google Cloud Functions, and Azure Functions) scale almost infinitely by creating separate instances for each concurrent user. This is a MAJOR PROBLEM for RDBS solutions like MySQL, because available connections can be quickly maxed out by competing functions. Not anymore. 😀
Serverless MySQL adds a connection management component to the mysql
module that is designed specifically for use with serverless applications. This module constantly monitors the number of connections being utilized, and then based on your settings, manages those connections to allow thousands of concurrent executions to share them. It will clean up zombies, enforce connection limits per user, and retry connections using trusted backoff algorithms.
In addition, Serverless MySQL also adds modern async/await
support to the mysql
module, eliminating callback hell or the need to wrap calls in promises. It also dramatically simplifies transactions, giving you a simple and consistent pattern to handle common workflows.
NOTE: This module should work with any standards-based MySQL server. It has been tested with AWS's RDS MySQL, Aurora MySQL, and Aurora Serverless.
// Require and initialize outside of your main handler
const mysql = require('serverless-mysql')({
config: {
host : process.env.ENDPOINT,
database : process.env.DATABASE,
user : process.env.USERNAME,
password : process.env.PASSWORD
}
})
// Main handler function
exports.handler = async (event, context) => {
// Run your query
let results = await mysql.query('SELECT * FROM table')
// Run clean up function
await mysql.end()
// Return the results
return results
}
npm i serverless-mysql
- Node 8.10+
- MySQL server/cluster
- Return promises for easy async request handling
- Exponential backoff (using Jitter) to handle failed connections
- Monitor active connections and disconnect if more than X% of connections are being used
- Support transactions
- Support JIT connections
- Assume AWS endorsed best practices from here
Serverless MySQL wraps the mysql module, so this module supports pretty much everything that the mysql
module does. It uses all the same connection options, provides a query()
method that accepts the same arguments when performing queries (except the callback), and passes back the query results exactly as the mysql
module returns them. There are a few things that don't make sense in serverless environments, like streaming rows, so there is no support for that yet.
To use Serverless MySQL, require it OUTSIDE your main function handler. This will allow for connection reuse between executions. The module must be initialized before its methods are available. Configuration options must be passed in during initialization.
// Require and initialize with default options
const mysql = require('serverless-mysql')() // <-- initialize with function call
// OR include configuration options
const mysql = require('serverless-mysql')({
backoff: 'decorrelated',
base: 5,
cap: 200
})
MySQL connection options can be passed in at initialization or later using the config()
method.
mysql.config({
host : process.env.ENDPOINT,
database : process.env.DATABASE,
user : process.env.USERNAME,
password : process.env.PASSWORD
})
You can explicitly establish a connection using the connect()
method if you want to, though it isn't necessary. This method returns a promise, so you'll need to await
the response or wrap it in a promise chain.
await mysql.connect()
Running queries is super simple using the query()
method. It supports all query options supported by the mysql
module, but returns a promise instead of using the standard callbacks. You either need to await
them or wrap them in a promise chain.
// Simple query
let results = await query('SELECT * FROM table')
// Query with placeholder values
let results = await query('SELECT * FROM table WHERE name = ?', ['serverless'])
// Query with advanced options
let results = await query({
sql: 'SELECT * FROM table WHERE name = ?',
timeout: 10000,
values: ['serverless'])
})
Once you've run all your queries and your serverless function is ready to return data, call the end()
method to perform connection management. This will do things like check the current number of connections, clean up zombies, or even disconnect if there are too many connections being used. Be sure to await
its results before continuing.
// Perform connection management tasks
await mysql.end()
Note that end()
will NOT necessarily terminate the connection. Only if it has to to manage the connections. If you'd like to explicitly terminate connections, use the quit()
method.
// Gracefully terminate the connection
mysql.quit()
If you need access to the connection
object, you can use the getClient()
method. This will allow you to use any supported feature of the mysql
module directly.
// Get the connection object
let connection = mysql.getClient()
// Use it to escape a value
let value = connection.escape('Some value to be escaped')
Below is a table containing all of the possible configuration options for serverless-mysql
. Additional details are provided throughout the documentation.
Property | Type | Description | Default |
---|---|---|---|
backoff | String or Function |
Backoff algorithm to be used when retrying connections. Possible values are full and decorrelated , or you can also specify your own algorithm. See Connection Backoff for more information. |
full |
base | Integer |
Number of milliseconds added to random backoff values. | 2 |
cap | Integer |
Maximum number of milliseconds between connection retries. | 100 |
config | Object |
A mysql configuration object as defined here |
{} |
connUtilization | Number |
The percentage of total connections to use when connecting to your MySQL server. A value of 0.75 would use 75% of your total available connections. |
0.8 |
manageConns | Boolean |
Flag indicating whether or not you want serverless-mysql to manage MySQL connections for you. |
true |
maxConnsFreq | Integer |
The number of milliseconds to cache lookups of @@max_connections. | 15000 |
maxRetries | Integer |
Maximum number of times to retry a connection before throwing an error. | 50 |
onError | function |
Event callback when the MySQL connection fires an error. | |
onClose | function |
Event callback when MySQL connections are explicitly closed. | |
onConnect | function |
Event callback when connections are succesfully established. | |
onConnectError | function |
Event callback when connection fails. | |
onKill | function |
Event callback when connections are explicitly killed. | |
onKillError | function |
Event callback when a connection cannot be killed. | |
onRetry | function |
Event callback when connections are retried. | |
usedConnsFreq | Integer |
The number of milliseconds to cache lookups of current connection usage. | 0 |
zombieMaxTimeout | Integer |
The maximum number of seconds that a connection can stay idle before being recycled. | 900 |
zombieMinTimeout | Integer |
The minimum number of seconds that a connection must be idle before the module will recycle it. | 3 |
If manageConns
is not set to false
, then this module will automatically kill idle connections or disconnect the current connection if the connUtilization
limit is reached. Even with this aggressive strategy, it is possible that multiple functions will be competing for available connections. The backoff
setting uses the strategy outlined here to use Jitter instead of Exponential Backoff when attempting connection retries.
The two supported methods are full
and decorrelated
Jitter. Both are effective in reducing server strain and minimize retries. The module defaults to full
.
Full Jitter: LESS work, MORE time
sleep = random_between(0, min(cap, base * 2 ** attempts))
Decorrelated Jitter: MORE work, LESS time
sleep = min(cap, random_between(base, sleep * 3))
In addition to the two built-in algorithms, you can also provide your own by setting the value of backoff
to an anonymous function. The function will receive the last wait
value (how long the previous connection delay was) and retries
(the number of retries attempted). Your function must return an Integer
that represents the number of milliseconds to delay the next retry.
backoff: (wait,retries) => {
console.log('CUSTOM BACKOFF',wait,retries)
return 20 // return integer
}
The module fires seven different types of events: onConnect
, onConnectError
, onRetry
, onClose
, onError
, onKill
, and onKillError
. These are reporting events that allow you to add logging or perform additional actions. You could use these events to short-circuit your handler execution, but using catch
blocks is preferred. For example, onError
and onKillError
are not fatal and will be handled by serverless-mysql
. Therefore, they will NOT throw
an error and trigger a catch
block.
Error events (onConnectError
, onError
and onKillError
) all receive one argument containing the mysql
module error object.
onConnectError: (e) => { console.log('Connect Error: ' + e.code) }
The onConnect
event recieves the MySQL connection
object, onKill
receives the threadId
of the connection killed, and onClose
doesn't receive any arguments.
onRetry
receives four arguments. The error
object, the number of retries
, the delay
until the next retry, and the backoff
algorithm used (full
, decorrelated
or custom
).
onRetry: (err,retries,delay,type) => { console.log('RETRY') }
There really isn't anything special that needs to be done in order for your MySQL server (including RDS, Aurora, and Aurora Serverless) to use serverless-mysql
. You should just be aware of the following two scenarios.
If you set max user_connections
, the module will only manage connections for that user. This is useful if you have multiple clients connecting to the same MySQL server (or cluster) and you want to make sure your serverless app doesn't use all of the available connections.
If you're not setting max user_connections
, the user MUST BE granted the PROCESS
privilege in order to count other connections. Otherwise it will assume that its connections are the only ones being used. Granting PROCESS
is fairly safe as it is a read only permission and doesn't expose any sensitive data.
The mysql
module allows you to specify a "timeout" with each query. Typically this will disconnect the connection and prevent you from running additional queries. serverless-mysql
handles timeouts a bit more elegantly by throwing an error and destroy()
ing the connection. This will reset the connection completely, allowing you to run additional queries AFTER you catch the error.
Transaction support in serverless-mysql
has been dramatically simplified. Start a new transaction using the transaction()
method, and then chain queries using the query()
method. The query()
method supports all standard query options. Alternatively, you can specify a function as the only argument in a query()
method call and return the arguments as an array of values. The function receives two arguments, the result of the last query executed and an array containing all the previous query results. This is useful if you need values from a previous query as part of your transaction.
You can specify an optional rollback()
method in the chain. This will receive the error
object, allowing you to add additional logging or perform some other action. Call the commit()
method when you are ready to execute the queries.
let results = await mysql.transaction()
.query('INSERT INTO table (x) VALUES(?)', [1])
.query('UPDATE table SET x = 1')
.rollback(e => { /* do something with the error */ }) // optional
.commit() // execute the queries
With a function to get the insertId
from the previous query:
let results = await mysql.transaction()
.query('INSERT INTO table (x) VALUES(?)', [1])
.query((r) => ['UPDATE table SET x = 1 WHERE id = ?', r.insertId])
.rollback(e => { /* do something with the error */ }) // optional
.commit() // execute the queries
If you're using AWS Lambda, be sure to set context.callbackWaitsForEmptyEventLoop = false;
in your main handler. This will allow the freezing of connections and will prevent Lambda from hanging on open connections. See here for more information.
I've run a lot of tests using a number of different configurations. Ramp ups appear to work best, but once there are several warm containers, the response times are much better. Below is an example test I ran using AWS Lambda and Aurora Serverless. Aurora Serverless was configured with 2 ACUs (and it didn't autoscale), so there were only 90 connections available to the MySQL cluster. The Lambda function was configured with 1,024 MB of memory. This test simulated 500 users per second for one minute. Each user ran a sample query retrieving a few rows from a table.
From the graph below you can see that the average response time was 41 ms (min 20 ms, max 3743 ms) with ZERO errors.
Other tests that use larger configurations were extremely successful too, but I'd appreciate other independent tests to verify my assumptions.
Contributions, ideas and bug reports are welcome and greatly appreciated. Please add issues for suggestions and bug reports or create a pull request.
- Add
changeUser
support - Add connection retries on failed queries
- Add automated tests and coverage reports