- Always handle errors (at the right place, sometimes it's better to let it propagate)
- Write unit tests for everything
- Use
winston
for logging - Use
joi
for schema validation (you can validate anything from environment variables to the body of an HTTP request) - Leverage
lodash
andlodash/fp
functions - Avoid callbacks, use
util.promisify
to convert them - Read the You don't know JS books
- Use the latest and greates ES features
- Follow the clean coding guidelines
- Enjoy! :)
For this, use nvm, the Node version manager.
$ nvm install 8
# optional: set it as default
$ nvm alias default 8
# install latest npm
$ npm install -g npm
Preferably with Homebrew.
$ brew install postgresql
# create a table
$ createdb risingstack_bootcamp
You should also install a visual tool for PostgreSQL, pick one:
Preferably with Homebrew.
$ brew install redis
You only need to install them once, necessary packages are included for all of the steps.
$ npm install
If you already have a favorite editor or IDE, you can skip this step.
- Download Visual Studio Code
- Install the following extensions:
- Read the Node.js tutorial
Tasks:
- Create a
GET
endpoint/hello
returningHello Node.js!
in the response body, use the middleware of thekoa-router
package - Use the
PORT
environment variable to set the port, make it required - Make the tests pass (
npm run test-web
) - Run the application (eg.
PORT=3000 npm start
and try if it breaks whenPORT
is not provided)
Readings:
- 12 factor - Config
- Node
process
- Koa web framework
- Koa router
- Mocha test framework
- Chai assertion library
In this step you will implement two functions, wrappers for the GitHub API. You will use them to get information from GitHub later.
Tasks:
-
searchRepositories(query)
: should search for repositories given certain programming languages and/or keywords- The
query
function parameter is anObject
of key-value pairs of the request query parameters (eg.{ q: 'language:javascript' }
, defaults to{}
) - It returns a
Promise
of the HTTP response without modification
- The
-
getContributors(repository, query)
: get contributors list with additions, deletions, and commit counts (statistics)repository
function parameter is a String of the repository full name, including the owner (eg.RisingStack/cache
)- The
query
function parameter is anObject
of key-value pairs of the request query parameters (defaults to{}
) - It returns a
Promise
of the HTTP response without modification
- Write unit tests for each function, use
nock
to intercept HTTP calls to the GitHub API endpoints
Readings:
- Github API v3
request
&request-promise-native
packagesnock
for mocking endpoints
Extra:
- Use the Github API v4 - GraphQL API instead
In this step you will create the database tables, where the data will be stored, using migrations.
Your model should look like this:
It consists of 3 tables: user
, repository
, contribution
. Rows in the repository
table have foreign keys to a record in the user
table, owner
. The contribution
table is managing many-to-many relationship between the user
and repository
tables with foreign keys.
Tasks:
- Edit the config and specify the
migrations
field in the knex initializationObject
, for example:{ client: 'pg', connection: '...', migrations: { directory: path.join(__dirname, './migrations') } }
- Create one migration file per table (eg.
1-create-user.js
,2-create-repository.js
,3-create-contribution.js
) with the following skeleton:up
method has the logic for the migration,down
is for reverting it- The migrations are executed in transactions
- The files are executed in alphabetical order
'use strict' const tableName = '...' function up(knex) { return knex.schema.createTable(tableName, (table) => { // your code goes here }) } function down(knex) { return knex.schema.dropTableIfExists(tableName) } module.exports = { up, down }
- Add a
migrate-db
script to the scripts inpackage.json
, editscripts/migrate-db.js
to add the migration call. Finally, run your migration script to create the tables:$ npm run migrate-db -- --local
Readings:
knex
SQL query builderknex
migrations API- npm scripts
In this step you will implement and test helper functions for inserting, changing and reading data from the database.
Tasks:
- Implement the user model:
User.insert({ id, login, avatar_url, html_url, type })
- validate the parameters
User.read({ id, login })
- validate the parameters
- one is required:
id
orlogin
- Implement the repository model:
Repository.insert({ id, owner, full_name, description, html_url, language, stargazers_count })
- Validate the parameters
description
andlanguage
can be emptyString
s
Repository.read({ id, full_name })
- Validate the parameters
- One is required:
id
orfull_name
- Return the owner as well as an object (join tables and reorganize fields)
- Implement the contribution model:
Contribution.insert({ repository, user, line_count })
- Validate the parameters
Contribution.insertOrReplace({ repository, user, line_count })
- Validate the parameters
- Use a raw query and the
ON CONFLICT
SQL expression
Contribution.read({ user: { id, login }, repository: { id, full_name } })
-
Validate the parameters
-
The function parameter should be an Object, it should contain either a user, either a repository field or both of them.
If only the user is provided, then all the contributions of that user will be resolved. If only the repository is provided, than all the users who contributed to that repository will be resolved. If both are provided, then it will match the contribution of a particular user to a particular repo.
-
The functions resolves to an Array of contributions (when both a user and a repository identifier is passed, it will only have 1 element)
-
Return the repository and user as well as an object (This requirement is just for the sake of making up a problem, when you actually need this function, you will most likely have the user or the repository Object in a whole)
{ line_count: 10, user: { id: 1, login: 'coconut', ... }, repository: { id: 1, full_name: 'risingstack/repo', ... } }
-
Use a single SQL query
-
When you join the tables, there will be conflicting column names (
id
,html_url
). Use theas
keyword when selecting columns (eg.repository.id as repository_id
) to avoid this
-
Notes:
user
is a reserved keyword in PG, use double quotes where you reference the table in a raw query- You can get the columns of a table by querying
information_schema.columns
, which can be useful to select fields dinamically when joining tables, eg.:SELECT column_name FROM information_schema.columns WHERE table_name='contribution';
In this step you will implement another process of the application, the worker. We will trigger a request to collect the contributions for repositories based on some query. The trigger will send messages to another channel, the handler for this channel is reponsible to fetch the repositories. The third channel is used to fetch and save the contributions.
Make a drawing of the message flow, it will help you a lot!
Tasks:
- Start Redis locally
- Implement the contributions handler:
- The responsibility of the contributions handler is to fetch the contributions of a repository from the GitHub API and to save the contributors and their line counts to the database
- Validate the
message
, it has two fields:date
andrepository
withid
andfull_name
fields - Get the contributions from the GitHub API (use your models created in step 2)
- Count all the lines currently in the repository per users (use
lodash
andArray
functions) - Save the users to the database, don't fail if the user already exists (use your models created in step 3)
- Save the contributions to the database, insert or replace (use your models created in step 3)
- Implement the repository handler:
- Validate the
message
, it has three fields:date
,query
andpage
- Get the repositories from the GitHub API (use your models created in step 2) with the
q
,page
andper_page
(set to 100) query parameters. - Modify the response to a format which is close to the database models (try to use
lodash/fp
) - Save the owner to the database, don't fail if the user already exists (use your models created in step 3)
- Save the repository to the database, don't fail if the repository already exists (use your models created in step 3)
- Publish a message to the
contributions
channel with the samedate
- Validate the
- Implement the trigger handler:
- The responsibility of the trigger handler is to send 10 messages to the
repository
collect channel implemented above. 10, because GitHub only gives access to the first 1000 (10 * page size of 100) search results - Validate the
message
, it has two fields:date
andquery
- The responsibility of the trigger handler is to send 10 messages to the
- We would like to make our first search and data collection from GitHub.
- For this, create a trigger.js file in the scripts folder. It should be a simple run once Node script which will publish a message to the
trigger
channel with the query passed in as an environment variable (TRIGGER_QUERY
), then exit. It should have the same--local
,-L
flag, but for setting theREDIS_URI
, as the migrate-db script. - Add a
trigger
field to the scripts inpackage.json
that calls yourtrigger.js
script.
- For this, create a trigger.js file in the scripts folder. It should be a simple run once Node script which will publish a message to the
Readings:
In this step you will add a few routes to the existing web application to trigger a data crawl and to expose the collected data.
Tasks:
- The database requirements changed in the meantime, create a new migration (call it
4-add-indexes.js
), add indexes touser.login
andrepository.full_name
(useknex.schema.alterTable
) - Implement the
POST /api/v1/trigger
route, the body contains an object with a stringquery
field, you will use this query to send a message to the corresponding Redis channel. Return201
when it was successful - Implement the
GET /api/v1/repository/:id
andGET /api/v1/repository/:owner/:name
endpoints - Implement the
GET /api/v1/repository/:id/contributions
andGET /api/v1/repository/:owner/:name/contributions
endpoints - Create a middleware (
requestLogger({ level = 'silly' })
) and add it to your server, that logs out:- The method and original url of the request
- Request headers (except
authorization
andcookie
) and body - The request duration in
ms
- Response headers (except
authorization
andcookie
) and body - Response status code (based on it: log level should be
error
when server error,warn
when client error)
- Document your API using Apiary's Blueprint format (edit the
API_DOCUMENTATION.apib
).
Notes:
- Make use of koa-compose and the validator middleware
compose([ middleware.validator({ params: paramsSchema, query: querySchema, body: bodySchema }), // additional middleware ])
Readings:
In this step you will add some features, which are required to have your application running in production environment.
Tasks:
- Listen on the
SIGTERM
signal inweb/index.js
.- Create a function called
gracefulShutdown
- Use koa's
.callback()
function to create ahttp
server (look forhttp.createServer
) and convertserver.close
withutil.promisify
- Close the server and destroy the database and redis connections (use the
destroy
function to the redis model, which callsdisconnect
on both redis clients and returns aPromise
) - Log out and exit the process with code
1
if something fails - Exit the process with code
0
if everything is closed succesfully
- Create a function called
- Implement the same for the worker process
- Add a health check endpoint for the web server
- Add a
healthCheck
function for the database model, use thePG_HEALTH_CHECK_TIMEOUT
environment variable to set the query timeout (set default to2000
ms) - Add a
healthCheck
function to the redis model - Implement the
GET /healthz
endpoint, return200
with JSON body{ "status": "ok" }
when everything is healthy,500
if any of the database or redis connections are not healthy and503
if the process gotSIGTERM
signal
- Add a
- Create a http server and add a similar health check endpoint for the worker process
Readings: