A core foundation for rich Web applications.
Bedrock® is a modular Web application framework designed to help keep code well-organized, secure, and to allow an ecosystem to grow without unnecessary hindrance. Bedrock provides a powerful configuration system, an event-based API, Linked Data-capabilities, securely integrated modules, and testing capabilities that make writing modular Web applications easy.
When creating a Web app, you need a foundation on which to build. There are a lot of disparate technologies out there that can be brought together into a cohesive whole to make this happen. The trouble is in finding, vetting, testing, and combining these technologies -- all of which needs to happen before you can begin to make serious progress on your own project.
Bedrock is an opinionated, but flexible framework. Bedrock modules emulate organizing principles and clear guidelines for developers to follow that help break down problems and reduce cognitive load.
Bedrock uses node.js and runs on Linux, Mac OS X, and Windows. It can run on a low-powered laptop all the way up to an enterprise server.
Runnable examples can be found at bedrock-examples.
npm install bedrock
Create a typical application:
import * as bedrock from '@bedrock/core';
// modules
import 'bedrock-express';
import 'bedrock-mongodb';
import 'bedrock-server';
import 'bedrock-session-mongodb';
import 'bedrock-validation';
import 'bedrock-views';
import 'bedrock-webpack';
bedrock.start();
To include the Vue.js-based frontend, npm install
these modules:
npm install bedrock-vue bedrock-quasar
Create a simple express-based bedrock application:
import * as bedrock from '@bedrock/core';
// modules
import 'bedrock-express';
bedrock.events.on('bedrock-express.configure.routes', function(app) {
app.get('/', function(req, res) {
res.send('Hello World!');
});
});
bedrock.start();
Create a bedrock REST application with an express server, mongodb database, and mongodb-backed session storage:
import * as bedrock from '@bedrock/core';
// modules
import 'bedrock-express';
import 'bedrock-session-mongodb';
import * as database from 'bedrock-mongodb';
bedrock.events.on('bedrock-mongodb.ready', async () => {
await database.openCollections(['people']);
});
bedrock.events.on('bedrock-express.configure.routes', function(app) {
app.get('/people', function(req, res, next) {
database.collections.people.find({}).toArray(function(err, docs) {
if(err) {
return next(err);
}
res.send(docs);
});
});
app.get('/people/:name', function(req, res, next) {
database.collections.people.findOne(
{name: req.param('name')}, function(err, result) {
if(err) {
return next(err);
}
res.send(result);
});
});
app.post('/people/:name', function(req, res){
database.collections.people.insert(
[{name: req.param('name')}], function(err, result) {
if(err) {
return next(err);
}
res.send(result.result);
});
});
app.delete('/people/:name', function(req, res){
database.collections.people.remove(
{name: req.param('name')}, function(err, result) {
if(err) {
return next(err);
}
res.send(result.result);
});
});
});
bedrock.start();
To create a MEAN stack application with identity management and authentication, see the [bedrock-seed][] project.
Below is an example that demonstrates Bedrock's event API. It creates a
module with an http server that other modules can attach listeners to. It
also registers a debug
subcommand that displays the listeners that attached
to the http server. The example also creates a module that attaches a simple
"hello world" listener to the http server. The example demonstrates how to use
Bedrock's event API to:
- Register a subcommand and handle it if is detected when the command line is parsed.
- Create a modular http server, listen to a privileged port (80), and emit a custom event to allow other modules to attach listeners to the server only after process privileges have been dropped.
- Execute custom behavior (eg: print the server's registered event listeners) after all other modules have started, if a subcommand was detected.
import * as bedrock from '@bedrock/core';
import http from 'http';
// setup default module config
bedrock.config['example-server'] = {port: 80};
const server = http.createServer();
// emitted prior to command line parsing
bedrock.events.on('bedrock-cli.init', function() {
// add a new subcommand executed via: node project.js debug
const command = bedrock.program
.command('debug')
.description('display registered http listeners')
.option(
'--debug-event <event>',
'The event to print listeners for. [request]')
.action(function() {
// save the parsed command information
bedrock.config.cli.command = command;
});
});
// emitted after the command line has been parsed
bedrock.events.on('bedrock-cli.ready', function() {
const command = bedrock.config.cli.command;
if(command.name() !== 'debug') {
// `debug` not specified on the command line, return early
return;
}
// emitted after all bedrock.start listeners have run
bedrock.events.on('bedrock.ready', function() {
// print out all the listeners that registered with the server
const event = command.debugEvent || 'request';
const listeners = server.listeners(event);
console.log('listeners for event: ' + event);
listeners.forEach(function(listener, index) {
console.log(index, listener.toString());
});
});
});
// emitted before initialization, to allow any further configuration
bedrock.events.on('bedrock.configure', function() {
if(bedrock.config.foo) {
bedrock.config.foo.bar = true;
}
});
// emitted for early initialization, prior to dropping process privileges
bedrock.events.on('bedrock.admin.init', async () => {
// listen on port 80
return new Promise((resolve, reject) => {
// resolve when listening to allow bedrock to continue processing events
server.listen(bedrock.config['example-server'].port, () => resolve());
});
});
// emitted for modules to do or schedule any unprivileged work on start up
bedrock.events.on('bedrock.start', async () {
// emit a custom event giving other modules access to the example server
await bedrock.events.emit('example.server.ready', server);
});
// emitted after all bedrock.ready listeners have run
bedrock.events.on('bedrock.started', function() {
console.log('everything is running now');
});
import * as bedrock from '@bedrock/core';
// load bedrock-example-server dependency
import './bedrock-example-server.js';
// emitted to allow listeners to be attached to the example server
bedrock.events.on('example.server.ready', function(server) {
server.on('request', function(request, response) {
response.writeHead(200, {'Content-Type': 'text/plain'});
response.end('Hello World\n');
});
});
import * as bedrock from '@bedrock/core';
// bedrock modules to load
import './bedrock-example-server.js';
import './bedrock-example-listener.js';
// change the port to use
// bedrock.config['example-server'].port = 8123;
bedrock.start();
Run the main project and display the debug information with:
node project.js debug --debug-event request
Example output:
2015-03-05T21:59:23.727Z - info: starting bedrock...
2015-03-05T21:59:23.729Z - info: running bedrock master process pid=7705
2015-03-05T21:59:23.904Z - info: running bedrock worker process workerPid=7711
2015-03-05T21:59:23.906Z - info: startup time: 6ms workerPid=7711
listeners for event: request
0 'function (request, response) {\n response.writeHead(200, {\'Content-Type\': \'text/plain\'});\n response.end(\'Hello World\\n\');\n }'
everything is running now
For documentation on Bedrock's core configuration, see config.js.
Bedrock is a modular system built on node.js. Node.js modules can
communicate with each other using the ESM API (eg: export
and
import
, etc.), and Bedrock modules are no different. However,
Bedrock also provides some additional low-level subsystems to help modules
coordinate. These include: bedrock.config
, bedrock.events
,
bedrock.loggers
, and bedrock.util
.
To create a Bedrock project, all you need to do is create a JavaScript file,
for example project.js
, that imports bedrock
, any other Bedrock modules
you're interested in, and that then calls bedrock.start()
. To run your
project, run:
node project.js
If you're developing your project and you have installed all of the development packages for the Bedrock modules you're using, you can also easily test your project and any of the modules it has included by running:
node project.js test
This will execute Bedrock's built-in test framework, running all of the tests that each module has written. This approach ensures you're running tests for your entire project and its dependencies.
Bedrock has a simple, but highly-customizable configuration system. All
configuration variables are stored in a shared JavaScript object
bedrock.config
. The object is partitioned into separate configuration objects
that are identified by the object's keys. For example Bedrock introduces the
cli
, core
, constants
, and loggers
object keys. The best
practice for modules to claim their own area in the configuration object is to
insert their default configuration object using a key that either matches their
module name or that matches their module name minus any bedrock-
prefix. For
example, the bedrock-server module's specific configuration object can be
found under bedrock.config.server
. A mycompany-feature
module would be
found under bedrock.config['mycompany-feature']
. Modules may define whatever
configuration variables they want to using whatever format is appropriate for
their own use.
The bedrock.util
module has helpers to setup configurations, and in
particular, dynamically computed configurations. Computed values can help to
simplify dependency issues by allowing values to be computed at runtime from a
function or string template. (Note there is a small cost with computed config
values which could be important depending on the use case.)
bedrock.util.config.Config
creates a wrapper around a config object and
optional options. This wrapper exposes a new, helpful API that is detailed
below. A common setup could look like the following.
// an empty config object
let config = {};
// common options
let options = {
// the config
config: config
// local vars used during string template evaluation
locals: config
};
// wrap the config
let c = new bedrock.util.config.Config(config, options);
Bedrock provides a shared wrapper around the common bedrock.config
as
bedrock.util.config.main
.
To do simple sets of config data, use the set()
API.
let c = bedrock.util.config.main;
// set a config variable with a path
// path components are created as needed
c.set('server.port', 8443);
// config is now {"server": {"port": 8443}}
Normal code and the config API can be mixed. A useful helper is setDefault()
.
This call lets you simplify ensuring a full object path exists before setting
data. Objects in the path are created as needed.
let config = bedrock.config;
let c = bedrock.util.config.main;
// create container object if needed
c.setDefault('accounts.admin', {});
// the config is just a normal object
config.accounts.admin.name = 'Ima Admin';
c.set('accounts.admin.id', 1);
// the config object is returned from setDefault()
let account123 = c.setDefault('accounts.account123', {});
account123.id = 123;
account123.name = 'Account 123';
Computed config values using the setComputed()
API add on a much more
powerful feature where values will be calculated at runtime.
let config = bedrock.config;
// get the Config wrapper for the default bedrock.config
let c = bedrock.util.config.main;
// set static values
c.set('server.port', 8443);
c.set('server.domain', 'bedrock.dev');
// set a computed value that uses values from the main config
c.setComputed('server.host', () => {
return config.server.domain + ':' + config.server.port;
});
console.log(config.server.host); // "bedrock.dev:8443"
The logic for a computed value can be any normal code. If source config values are updated the computed values will reflect the change.
let config = bedrock.config;
let c = bedrock.util.config.main;
c.set('server.port', 8443);
c.set('server.domain', 'bedrock.dev');
c.setComputed('server.host', () => {
// only add the port if it's not the well known default
if(config.server.port !== 443) {
return config.server.domain + ':' + config.server.port;
}
return config.server.domain;
});
console.log(config.server.host); // "bedrock.dev:8443"
c.set('server.port', 443);
console.log(config.server.host); // "bedrock.dev"
setComputed()
can be verbose. a wrapper can be created using the standard
bind()
functionality. A helper called computer()
will do this for you.
let config = bedrock.config;
let cc = bedrock.util.config.main.computer();
cc('server.host', () => {
// only add the port if it's not the well known default
if(config.server.port !== 443) {
return config.server.domain + ':' + config.server.port;
}
return config.server.domain;
});
Computed values can also be created with lodash-style string templates.
let config = bedrock.config;
let cc = bedrock.util.config.main.computer();
cc('server.baseUri', 'https://${server.host}');
console.log(config.server.baseUri); // "https://bedrock.dev:8443"
// use locals option to simplify templates
cc('base.computed', '${base.a}:${base.b}:${base.c}');
cc('base.computed', '${a}:${b}:${c}', {locals: config.base});
Setting or computing multiple values with one call uses an object notation:
let c = bedrock.util.config.main;
let cc = c.computer();
c.set({
'server.port': 8443,
'server.domain': 'bedrock.dev',
'server.name': 'Bedrock Dev',
'users.admin.id': 1
});
cc({
'server.url': 'https://${server.domain}:${server.port}',
'users.admin.url': '${server.url}/users/${users.admin.id}'
});
Computed values can be added to an array using indexing or the pushComputed
feature. If indexing is used the array must already exist or the
{parentDefault: []}
option should be used. pushComputed
will create the
parent array if needed.
let config = bedrock.config;
let c = bedrock.util.config.main;
let cc = c.computer();
cc('server.baseUri', 'https://${server.host}');
c.setDefault('resources', []);
cc('resources[0]', '${server.baseUri}/r/0');
c.pushComputed('resources', '${server.baseUri}/r/1');
It's sometimes necessary to allow modules to coordinate with each other in an orderly fashion. To achieve this, Bedrock provides an event API. Bedrock's event API is very similar to node's built-in EventEmitter, but it provides a few additional features.
In particular, when emitting an event, Bedrock can wait for a listener to run asynchronous code before executing the next listener. This allows each listener to run synchronously or asynchronously, depending on their individual needs, without worrying that the next listener or the next event will be emitted before they have completed what they need to do.
Bedrock's event system also provides another feature, which is the ability to
cancel events. Event cancelation allows modules to build-in default behavior
that can be canceled by other modules. Whenever a synchronous listener returns
false
or an asynchronous listener resolves to false
, the event will not be
emitted to the remaining listeners, and the emit call will resolve to false
allowing the emitter to take a different action.
To a emit an event:
try {
const result = await bedrock.events.emit('example-module.foo', data);
if(result === false) {
console.log('the event was canceled, but not due to an error');
}
} catch(err) {
console.log('an error occurred in a listener and the event was canceled');
}
console.log('the event was not canceled');
To create a synchronous listener:
bedrock.events.on('example-module.foo', function(data) {
if(anErrorOccurred) {
throw new Error('foo');
}
if(shouldCancel) {
return false;
}
// do something synchronous
});
To create an asynchronous listener:
bedrock.events.on('example-module.promise', data => {
return new Promise((resolve, reject) => {
if(anErrorOccurred) {
reject(throw new Error('foo'));
return;
}
if(shouldCancel) {
resolve(false);
return;
}
// do something asynchronous, other listeners won't execute and event
// emission won't continue until you resolve the promise
process.nextTick(() => {
resolve();
});
});
});
bedrock.events.on('example-module.async-await', async data => {
if(anErrorOccurred) {
throw new Error('foo');
}
if(shouldCancel) {
return false;
}
// do something asynchronous, other listeners won't execute and event
// emission won't continue until you return
await myFunction();
});
Note that the asynchronous Promise analog for throwing an error is rejecting the Promise with an error and the analog for returning a value (typically only used for event cancelation) is to resolve the Promise with the value.
Bedrock core emits several events that modules may listen for. These events
fall into three possible namespaces: bedrock-cli
, bedrock-loggers
and
bedrock
. The bedrock-cli
events are emitted to allow coordination with
Bedrock's command line interface. The bedrock-loggers.init
event is emitted
after the bedrock-cli.init
event. The bedrock
events are emitted after
all the bedrock-cli
events, unless a listener cancels the bedrock-cli.ready
event or causes the application to exit early.
- bedrock-cli.init
- Emitted before command line parsing. Allows registration of new subcommands.
- bedrock-cli.parsed
- Emitted after command line parsing. Allows for configuration of loggers
based on command line flags. For instance, a logger may provide for the
specification of a
logGroupName
that may be computed at runtime based on some command line flag(s).
- Emitted after command line parsing. Allows for configuration of loggers
based on command line flags. For instance, a logger may provide for the
specification of a
- bedrock-loggers.init
- Emitted after command line parsing. Allows registration of new logging transports prior to initialization of the logging subsystem.
- bedrock-cli.ready
- Emitted after command line parsing and logging initialization. Allows
execution of subcommands or the prevention of
bedrock
events from being emitted, either by canceling this event or by exiting the application early.
- Emitted after command line parsing and logging initialization. Allows
execution of subcommands or the prevention of
- bedrock.configure
- Emitted after
bedrock-cli.ready
and beforebedrock.admin.init
. Allows additional custom configuration before Bedrock initializes but after command line parsing.
- Emitted after
- bedrock.admin.init
- Emitted after
bedrock.configure
and before elevated process privileges are dropped. Allows listeners to perform early initialization tasks that require special privileges. Note that, if Bedrock is started with elevated privileges (ie: as root), listeners will execute with those privileges. Any early initialization that needs to execute beforebedrock.start
but does not require elevated privileges should be deferred tobedrock.init
. Most modules should find binding tobedrock.init
to be sufficient for any initialization work.
- Emitted after
- bedrock.init
- Emitted after
bedrock.admin.init
and just after elevated process privileges are dropped. Allows listeners to perform early initialization tasks that do not require special privileges. This event should be used to ensure, for example, that a module's API has the required supporting data structures in memory prior to another module's use of it. For example, a validation module may need to load validation schemas from files on disk before they can be accessed via its API, but this loading must occur after the configuration events have passed and after special process privileges have been dropped. As a best practice, modules should not emit custom events duringbedrock.init
because it may cause scenarios where two unrelated modules can't be easily combined. For example, if a module emits a custom event duringbedrock.init
, then a listener of that event would be unable to use the API of an unrelated module that hasn't been initialized yet. Deferring custom event emitting tobedrock.start
solves this problem; it ensures all modules have had a chance to complete initialization before attempting to interact with one another through the event system.
- Emitted after
- bedrock.start
- Emitted after
bedrock.init
. This is the event modules should use to execute or schedule their main background behavior and to emit any custom events they would like to make available to their dependents.
- Emitted after
- bedrock.ready
- Emitted after
bedrock.start
. Allows listeners to execute custom behavior after all modules have handled thebedrock.start
event. This event is useful for turning on external access to web services or other modular systems that should now be fully ready for use. It can also be used to run analysis on modules that have started, for example, to build live documentation.
- Emitted after
- bedrock.started
- Emitted after
bedrock.ready
. External access to web services or other features provided by modules should now be available. Allows custom subcommands or behavior to run after Bedrock has fully started, eg: tests.
- Emitted after
- bedrock.tests.run
- Emitted during
bedrock.started
. Once Bedrock has fully started, this event is emitted to inform test frameworks to run their tests. Listeners are passed a test state object with apass
property that they can set tofalse
to indicate to the test subsystem that at least one test did not pass. Test frameworks may add their own information to the state object using a property matching their framework name.
- Emitted during
- bedrock.stop
- Emitted while exiting if process was previous in a started state. This is the event modules should use to stop services for a clean shutdown and to emit any custom events they would like to make available to their dependents.
- bedrock.stopped
- Emitted while exiting, and after
bedrock.stop
if process was previously in a started state. External access to web services or other features provided by modules should now be unavailable.
- Emitted while exiting, and after
- bedrock.exit
- Emitted immediately before exiting.
Bedrock has a built-in logging subsystem based on winston. Anything you
can do with winston, you can do with Bedrock. Bedrock provides a set of
default loggers that are suitable for most applications. The main application
logger can be retrieved via bedrock.loggers.get('app')
. A call to
bedrock.loggers.addTransport
can be made in event handlers of the
bedrock-loggers.init
event to add new winston transports. Logging
categories (such as app
) and the transports used by them can be configured
via bedrock.config
.
Bedrock supports multi-level child loggers with common metadata. These are
created with bedrock.loggers.get('app').child({...})
. Provided metadata will
be added to child log output. A special module
meta name can optionally be
used for pretty output. A shortcut for creating named module loggers is
bedrock.loggers.get('app').child('name')
.
Module prefix display can be controlled per-category:
// get a child logger with custom module name
let logger = bedrock.loggers.get('app').child('my-module');
// message module prefix controlled with a per-category config value
bedrock.config.loggers.app.bedrock.modulePrefix = false;
logger.info('an info message');
// module displayed as normal meta data:
// 2017-06-30T12:34:56.789Z - info: an info message workerPid=1234, module=my-module
// with module prefix enabled:
bedrock.config.loggers.app.bedrock.modulePrefix = true;
logger.info('an info message');
// displayed as an nice message prefix:
// 2017-06-30T12:34:56.789Z - info: [my-module] an info message workerPid=1234
Bedrock provides a number of helpful general purpose utilities. For example,
Bedrock defines a BedrockError
class that extends the default Error
class. A BedrockError
can keep track of a series of "causes" (other errors)
that allow developers to better understand why an error occurred.
BedrockError
s can also be marked as public
, which allows modules that
may, for example, serve error information over the Web to display more error
details. bedrock.util
also contains tools for formatting dates,
extending/merging/cloning objects, and generating UUIDs.
bedrock-server provides a core, cluster-based HTTPS server.
bedrock-express provides an Express server with reasonable defaults and extra features like the ability to layer static files and directories to support overrides.
bedrock-mongodb provides an API for connecting to a MongoDB database and creating and using collections.
bedrock-webpack provides webpack configuration and build tools for frontend bundling.
bedrock-views provides infrastructure for serving single page applications.
bedrock-vue layers on top of bedrock-views to provide client-rendered Vue.js views.
bedrock-quasar layers on top of bedrock-vue to provide client-rendered Quasar components.
bedrock-account provides user account management.
Other Bedrock modules provide REST APIs, user account management, strong cryptography support, DoS protection, digital signatures, Linked Data, and tons of other FEATURES. If you don't need all the fancy features, Bedrock is modular, so you can use only the modules you want.
You can follow the following tutorial to setup and use Bedrock on a Linux or Mac OS X development machine.
- Linux, Mac OS X, Windows
- node.js >= 18.x
- npm >= 9.x
Run the following to start up a development server from the source directory:
node index.js
To add more verbose debugging, use the --log-level
option:
node index.js --log-level debug
Run all tests:
npm test
Run only the mocha test framework:
node index.js test --framework mocha
Run a specific mocha test:
node index.js test --framework mocha --mocha-test tests/test.js
npm run coverage
Look at coverage.html
using a web browser
For an example list of features provided by Bedrock modules, see the FEATURES file.
See the FAQ file for answers to frequently asked questions.
See the CONTRIBUTING file for various details for coders about hacking on this project.
See the AUTHORS file for author contact information.
Apache License, Version 2.0 Copyright 2011-2024 Digital Bazaar, Inc.
Other Bedrock libraries are available under a non-commercial license for uses such as self-study, research, personal projects, or for evaluation purposes. See the Bedrock Non-Commercial License v1.0 for details.
Commercial licensing and support are available by contacting Digital Bazaar [email protected].