A ruby environment with Bundler installed is a prerequisite for using the testing harness shipped with this cookbook. At the time of this writing, it works with Ruby 2.0 and Bundler 1.5.3. All programs involved, with the exception of Vagrant, can be installed by cd'ing into the parent directory of this cookbook and running "bundle install"
The Rakefile ships with a number of tasks, each of which can be ran individually, or in groups. Typing "rake" by itself will perform style checks with Rubocop and Foodcritic, ChefSpec with rspec, and integration with Test Kitchen using the Vagrant driver by default.Alternatively, integration tests can be ran with Test Kitchen cloud drivers.
$ rake -T
rake integration:cloud # Run Test Kitchen with cloud plugins
rake integration:vagrant # Run Test Kitchen with Vagrant
rake spec # Run ChefSpec examples
rake style # Run all style checks
rake style:chef # Lint Chef cookbooks
rake style:ruby # Run Ruby style checks
rake travis # Run all tests on Travis
Ruby style tests can be performed by Rubocop by issuing either
bundle exec rubocop
or
rake style:ruby
Chef style tests can be performed with Foodcritic by issuing either
bundle exec foodcritic
or
rake style:chef
Unit testing is done by running Rspec examples. Rspec will test any libraries, then test recipes using ChefSpec. This works by compiling a recipe (but not converging it), and allowing the user to make assertions about the resource_collection.
Integration testing is performed by Test Kitchen. Test Kitchen will use either the Vagrant driver or various cloud drivers to instantiate machines and apply cookbooks. After a successful converge, tests are uploaded and ran out of band of Chef. Tests should be designed to ensure that a recipe has accomplished its goal.
Integration tests can be performed on a local workstation using Virtualbox or VMWare. Detailed instructions for setting this up can be found at the Bento project web site.
Integration tests using Vagrant can be performed with either
bundle exec kitchen test
or
rake integration:vagrant
Integration tests can be performed on cloud providers using
Test Kitchen plugins. This cookbook ships a .kitchen.cloud.yml
that references environmental variables present in the shell that
kitchen test is ran from. These usually contain authentication
tokens for driving IaaS APIs, as well as the paths to ssh private keys
needed for Test Kitchen log into them after they've been created.
Examples of environment variables being set in ~/.bash_profile:
# digital_ocean
export DIGITAL_OCEAN_CLIENT_ID='your_bits_here'
export DIGITAL_OCEAN_API_KEY='your_bits_here'
export DIGITAL_OCEAN_SSH_KEY_IDS='your_bits_here'
# aws
export AWS_ACCESS_KEY_ID='your_bits_here'
export AWS_SECRET_ACCESS_KEY='your_bits_here'
export AWS_KEYPAIR_NAME='your_bits_here'
# joyent
export SDC_CLI_ACCOUNT='your_bits_here'
export SDC_CLI_IDENTITY='your_bits_here'
export SDC_CLI_KEY_ID='your_bits_here'
Integration tests using cloud drivers can be performed with either
export KITCHEN_YAML=.kitchen.cloud.yml
bundle exec kitchen test
or
rake integration:cloud
At the time of this writing, you cannot find the numerical values needed for your SSH_KEY_IDS from the GUI. Instead, you will need to access the API from the command line.
curl -L 'https://api.digitalocean.com/ssh_keys/?client_id=your_bits_here&api_key=your_bits_here'
In order for Travis to perform integration tests on public cloud
providers, two major things need to happen. First, the environment
variables referenced by .kitchen.cloud.yml need to be made
available. Second, the private half of the ssh keys needed to log into
machines need to be dropped off on the machine.
The first part is straight forward. The travis gem can encrypt environment variables against the public key on the Travis repository and add them to the .travis.yml.
gem install travis
travis encrypt AWS_ACCESS_KEY_ID='your_bits_here' --add
travis encrypt AWS_SECRET_ACCESS_'your_bits_here' --add
travis encrypt AWS_KEYPAIR_NAME='your_bits_here' --add
travis encrypt EC2_SSH_KEY_PATH='~/.ssh/id_ec2.pem' --add
travis encrypt DIGITAL_OCEAN_CLIENT_ID='your_bits_here' --add
travis encrypt DIGITAL_OCEAN_API_KEY='your_bits_here' --add
travis encrypt DIGITAL_OCEAN_SSH_KEY_IDS='your_bits_here' --add
travis encrypt DIGITAL_OCEAN_SSH_KEY_PATH='~/.ssh/id_do.pem' --add
The second part is a little more complicated. Travis ENV variables are
restricted to 90 bytes, and will not fit an entire SSH key. This can
be worked around by breaking them up into 90 byte chunks, stashing
them into ENV variables, then digging them out in the
before_install section of .travis.yml
Here is an AWK script to do the encoding.
base64 ~/.ssh/travisci_cook_digitalocean.pem | \
awk '{
j=0;
for( i=1; i<length; i=i+90 ) {
system("travis encrypt DO_KEY_CHUNK_" j "=" substr($0, i, 90) " --add");
j++;
}
}'
base64 ~/.ssh/travisci_cook_ec2.pem | \
awk '{
j=0;
for( i=1; i<length; i=i+90 ) {
system("travis encrypt EC2_KEY_CHUNK_" j "=" substr($0, i, 90)" --add");
j++;
}
}'
Then in .travis.yml:
before_install:
- echo -n $DO_KEY_CHUNK_{0..30} >> ~/.ssh/id_do.base64
- cat ~/.ssh/id_do.base64 | tr -d ' ' | base64 --decode > ~/.ssh/id_do.pem
- echo -n $EC2_KEY_CHUNK_{0..30} >> ~/.ssh/id_ec2.base64
- cat ~/.ssh/id_ec2.base64 | tr -d ' ' | base64 --decode > ~/.ssh/id_ec2.pem