zfcampus/zf-apigility-skeleton

This package is abandoned and no longer maintained. The author suggests using the laminas-api-tools/api-tools-skeleton package instead.

Skeleton Application for Apigility

1.5.2 2019-01-09 14:19 UTC

README

Repository abandoned 2019-12-31

This repository has moved to laminas-api-tools/api-tools-skeleton.

Requirements

Please see the composer.json file.

Installation

Via release tarball

Grab the latest release via the Apigility website and/or the releases page; each release has distribution tarballs and zipballs available.

Untar it:

$ tar xzf zf-apigility-skeleton-{version}.tgz

(Where {version} is the version you downloaded.)

Or unzip, if you chose the zipball:

$ unzip zf-apigility-skeleton-{version}.zip

(Where {version} is the version you downloaded.)

Via Composer (create-project)

You can use the create-project command from Composer to create the project in one go (you need to install composer):

$ curl -s https://getcomposer.org/installer | php -- --filename=composer
$ composer create-project -sdev zfcampus/zf-apigility-skeleton path/to/install

Via Git (clone)

First, clone the repository:

# git clone https://github.com/zfcampus/zf-apigility-skeleton.git # optionally, specify the directory in which to clone
$ cd path/to/install

At this point, you need to use Composer to install dependencies. Assuming you already have Composer:

$ composer install

All methods

Once you have the basic installation, you need to put it in development mode:

$ cd path/to/install
$ composer development-enable

Now, fire it up! Do one of the following:

  • Create a vhost in your web server that points the DocumentRoot to the public/ directory of the project
  • Fire up the built-in web server in PHP(note: do not use this for production!)

In the latter case, do the following:

$ cd path/to/install
$ php -S 0.0.0.0:8080 -ddisplay_errors=0 -t public public/index.php
# OR use the composer alias:
$ composer serve

You can then visit the site at http://localhost:8080/ - which will bring up a welcome page and the ability to visit the dashboard in order to create and inspect your APIs.

NOTE ABOUT USING APACHE

Apache forbids the character sequences %2F and %5C in URI paths. However, the Apigility Admin API uses these characters for a number of service endpoints. As such, if you wish to use the Admin UI and/or Admin API with Apache, you will need to configure your Apache vhost/project to allow encoded slashes:

AllowEncodedSlashes On

This change will need to be made in your server's vhost file (it cannot be added to .htaccess).

NOTE ABOUT OPCACHE

Disable all opcode caches when running the admin!

The admin cannot and will not run correctly when an opcode cache, such as APC or OpCache, is enabled. Apigility does not use a database to store configuration; instead, it uses PHP configuration files. Opcode caches will cache these files on first load, leading to inconsistencies as you write to them, and will typically lead to a state where the admin API and code become unusable.

The admin is a development tool, and intended for use a development environment. As such, you should likely disable opcode caching, regardless.

When you are ready to deploy your API to production, however, you can disable development mode, thus disabling the admin interface, and safely run an opcode cache again. Doing so is recommended for production due to the tremendous performance benefits opcode caches provide.

NOTE ABOUT DISPLAY_ERRORS

The display_errors php.ini setting is useful in development to understand what warnings, notices, and error conditions are affecting your application. However, they cause problems for APIs: APIs are typically a specific serialization format, and error reporting is usually in either plain text, or, with extensions like XDebug, in HTML. This breaks the response payload, making it unusable by clients.

For this reason, we recommend disabling display_errors when using the Apigility admin interface. This can be done using the -ddisplay_errors=0 flag when using the built-in PHP web server, or you can set it in your virtual host or server definition. If you disable it, make sure you have reasonable error log settings in place. For the built-in PHP web server, errors will be reported in the console itself; otherwise, ensure you have an error log file specified in your configuration.

display_errors should never be enabled in production, regardless.

Vagrant

If you prefer to develop with Vagrant, there is a basic vagrant recipe included with this project.

This recipe assumes that you already have Vagrant installed. The virtual machine will try to use localhost:8080 by default, so if you already have a server on this port of your host machine, you need to shut down the conflicting server first, or if you know how, you can reconfigure the ports in Vagrantfile.

Assuming you have Vagrant installed and assuming you have no port conflicts, you can bring up the Vagrant machine with the standard up command:

$ vagrant up

When the machine comes up, you can ssh to it with the standard ssh forward agent:

$ vagrant ssh

The web root is inside the shared directory, which is at /var/www; this is also the home directory for the vagrant issue, which will be the initial directory you land in once you connect via SSH.

The image installs composer during provisioning, meaning you can use it to install and update dependencies:

# Install dependencies:
$ vagrant ssh -c 'composer install'
# Update dependencies:
$ vagrant ssh -c 'composer update'

You can also manipulate development mode:

$ vagrant ssh -c 'composer development-enable'
$ vagrant ssh -c 'composer development-disable'
$ vagrant ssh -c 'composer development-status'

Vagrant and VirtualBox

The vagrant image is based on bento/ubuntu-16.04. If you are using VirtualBox as a provider, you will need:

  • Vagrant 1.8.5 or later
  • VirtualBox 5.0.26 or later

For vagrant documentation, please refer to vagrantup.com

Docker

If you develop or deploy using Docker, we provide configuration for you.

Prepare your development environment using docker compose:

$ git clone https://github.com/zfcampus/zf-apigility-skeleton
$ cd zf-apigility-skeleton
$ docker-compose build
# Install dependencies via composer, if you haven't already:
$ docker-compose run apigility composer install
# Enable development mode:
$ docker-compose run apigility composer development-enable

Start the container:

$ docker-compose up

Access Apigility from http://localhost:8080/ or http://<boot2docker ip>:8080/ if on Windows or Mac.

You may also use the provided Dockerfile directly if desired.

Once installed, you can use the container to update dependencies:

$ docker-compose run apigility composer update

Or to manipulate development mode:

$ docker-compose run apigility composer development-enable
$ docker-compose run apigility composer development-disable
$ docker-compose run apigility composer development-status

QA Tools

The skeleton ships with minimal QA tooling by default, including zendframework/zend-test. We supply basic tests for the shipped Application\Controller\IndexController.

We also ship with configuration for phpcs. If you wish to add this QA tool, execute the following:

$ composer require --dev squizlabs/php_codesniffer

We provide aliases for each of these tools in the Composer configuration:

# Run CS checks:
$ composer cs-check
# Fix CS errors:
$ composer cs-fix
# Run PHPUnit tests:
$ composer test