StackMaster is a CLI tool to manage CloudFormation stacks, with the following features:
- Synchronous visibility into stack updates. See exactly what is changing and what will happen before agreeing to apply a change.
- Dynamic parameter resolvers.
- Template compiler support for YAML and SparkleFormation.
Stack updates can cause a lot of damage if applied blindly. StackMaster helps with this by providing the operator with as much information about the proposed change as possible before asking for confirmation to continue. That information includes:
- Template body and parameter diffs.
- Change sets are displayed for review.
- Once the diffs & change set have been reviewed, the change can be applied and stack events monitored.
- Stack events will be displayed until an end state is reached.
Stack parameters can be dynamically resolved at runtime using one of the built in parameter resolvers. Parameters can be sourced from GPG encrypted YAML files, other stacks outputs, by querying various AWS API's to get resource ARNs etc.
System-wide: gem install stack_master
With bundler:
- Add
gem 'stack_master'
to your Gemfile. - Run
bundle install
- Run
bundle exec stack_master init
to generate a directory structure and stack_master.yml file
Stacks are defined inside a stack_master.yml
YAML file. When running
stack_master
, it is assumed that this file will exist in the current working
directory, or that the file is passed in with --config /path/to/stack_master.yml
. Here's an example configuration file:
region_aliases:
production: us-east-1
staging: ap-southeast-2
stack_defaults:
tags:
application: my-awesome-app
role_arn: service_role_arn
region_defaults:
us-east-1:
secret_file: production.yml.gpg
tags:
environment: production
notification_arns:
- test_arn
ap-southeast-2:
secret_file: staging.yml.gpg
tags:
environment: staging
stacks:
production:
myapp-vpc:
template: myapp_vpc.rb
tags:
purpose: front-end
myapp-db:
template: myapp_db.rb
stack_policy_file: db_stack_policy.json
tags:
purpose: back-end
myapp-web:
template: myapp_web.rb
tags:
purpose: front-end
staging:
myapp-vpc:
template: myapp_vpc.rb
tags:
purpose: front-end
myapp-db:
template: myapp_db.rb
tags:
purpose: back-end
myapp-web:
template: myapp_web.rb
tags:
purpose: front-end
eu-central-1:
myapp-vpc:
template: myapp_vpc.rb
tags:
purpose: vpc
StackMaster can optionally use S3 to store the templates before creating a stack. This requires to configure an S3 bucket in stack_master.yml:
stack_defaults:
s3:
bucket: my_bucket_name
prefix: cfn_templates/my-awesome-app
region: us-west-2
Additional files can be configured to be uploaded to S3 alongside the templates:
stacks:
production:
myapp-vpc:
template: myapp_vpc.rb
files:
- userdata.sh
templates
- CloudFormation, SparkleFormation or CfnDsl templates.polices
- Stack policies.parameters
- Parameters as YAML files.secrets
- GPG encrypted secret files.policies
- Stack policy JSON files.
StackMaster supports CloudFormation templates in plain JSON or YAML. Any .yml
or .yaml
file will be processed as
YAML. While any .json
file will be processed as JSON.
By default, any template ending with .rb
will be processed as a SparkleFormation
template. However, if you want to use CfnDsl templates you can add
the following lines to your stack_master.yml
.
template_compilers:
rb: cfndsl
Parameters are loaded from multiple YAML files, merged from the following lookup paths:
- parameters/[stack_name].yml
- parameters/[region]/[underscored_stack_name].yml
- parameters/[region_alias]/[underscored_stack_name].yml
A simple parameter file could look like this:
key_name: myapp-us-east-1
Compile time parameters can be used for SparkleFormation templates. It conforms and allows you to use the Compile Time Parameters feature
A simple example looks like this
vpc_cidr: 10.0.0.0/16
compile_time_parameters:
subnet_cidrs:
- 10.0.0.0/28
- 10.0.2.0/28
Keys in parameter files are automatically converted to camel case.
Parameter values can be sourced dynamically using parameter resolvers.
One benefit of using parameter resolvers instead of hard coding values like VPC ID's and resource ARNs is that the same configuration works cross region/account, even though the resolved values will be different.
The stack output parameter resolver looks up outputs from other stacks in the
same or different region. The expected format is [(region|region-alias):]stack-name/(OutputName|output_name)
.
vpc_id:
# Output from a stack in the same region
stack_output: my-vpc-stack/VpcId
bucket_name:
# Output from a stack in a different region
stack_output: us-east-1:init-bucket/bucket_name
zone_name:
# Output from a stack in a different region using its alias
stack_output: global:hosted-zone/ZoneName
This is the most used parameter resolver because it enables stacks to be split up into their separated concerns (VPC, web, database etc) with outputs feeding into parameters of dependent stacks.
The secret parameters resolver expects a secret_file
to be defined in the
stack definition which is a GPG encrypted YAML file. Once decrypted and parsed,
the value provided to the secret resolver is used to lookup the associated key
in the secret file. A common use case for this is to store database passwords.
stack_master.yml:
stacks:
us-east-1:
my_app:
template: my_app.json
secret_file: production.yml.gpg
secrets/production.yml.gpg, when decrypted:
db_password: my-password
parameters/my_app.yml:
db_password:
secret: db_password
Looks up a security group by name and returns the ARN.
ssh_sg:
security_group: SSHSecurityGroup
An array of security group names can also be provided.
ssh_sg:
security_groups:
- SSHSecurityGroup
- WebAccessSecurityGroup
Looks up an SNS topic by name and returns the ARN.
notification_topic:
sns_topic_name: PagerDuty
Looks up the latest AMI ID by a given set of tags.
web_ami:
latest_ami_by_tags: role=web,application=myapp
Note that the corresponding array resolver is named latest_amis_by_tags
Looks up the latest AMI ID by a given set of attributes. By default it will only return AMIs from the account the stack is created in, but you can specify the account ID or certain keywords mentioned in the aws documentation
This selects the latest wily hvm AMI from Ubuntu (using the account id):
bastion_ami:
latest_ami:
owners: 099720109477
filters:
name: ubuntu/images/hvm/ubuntu-wily-15.10-amd64-server-*
A set of possible attributes is available in the AWS documentation
Any value can be an array of possible matches.
New parameter resolvers can be created in a separate gem.
To create a resolver named my_resolver:
- Create a new gem using your favorite tool
- The gem structure must contain the following path:
lib/stack_master/parameter_resolvers/my_resolver.rb
- That file need to contain a class named
StackMaster::ParameterResolvers::MyResolver
that implements aresolve
method and an initializer taking 2 parameters :
module StackMaster
module ParameterResolvers
class MyResolver < Resolver
array_resolver # Also create a MyResolvers resolver to handle arrays
def initialize(config, stack_definition)
@config = config
@stack_definition = stack_definition
end
def resolve(value)
value
end
end
end
end
- Note that the filename and classname are both derived from the resolver name passed in the parameter file. In our case, the parameters YAML would look like:
vpc_id:
my_resolver: dummy_value
Most resolvers support taking an array of values that will each be resolved. Unless stated otherwise in the documentation, the array version of the resolver will be named with the pluralized name of the original resolver.
When creating a new resolver, one can automatically create the array resolver by adding a array_resolver
statement
in the class definition, with an optional class name if different from the default one.
module StackMaster
module ParameterResolvers
class MyResolver < Resolver
array_resolver class_name: 'MyCustomArrayResolver'
...
end
end
end
In that example, using the array resolver would look like:
my_parameter:
my_custom_array_resolver:
- value1
- value2
Array parameter values can include nested parameter resolvers.
For example, given the following parameter definition:
my_parameter:
- stack_output: my-stack/output # value resolves to 'value1'
- value2
The parameter value will resolve to:
my_parameter: 'value1,value2'
An extension to SparkleFormation is the user_data_file!
method, which evaluates templates in templates/user_data/[file_name]
. Most of the usual SparkleFormation methods are available in user data templates. Example:
# templates/user_data/app.erb
REGION=<%= region! %>
ROLE=<%= role %>
And used like this in SparkleFormation templates:
# templates/app.rb
user_data user_data_file!('app.erb', role: :worker)
You can also use the joined_file!
method which evaluates templates in templates/config/[file_name]
. It is similar to user_data_file!
but doesn't do base64 encoding. Example:
# templates/config/someconfig.conf.erb
my_variable=<%= ref!(:foo) %>
my_other_variable=<%= account_id! %>
# templates/ecs_task.rb
container_definitions array!(
-> {
command array!(
"-e",
joined_file!('someconfig.conf.erb')
)
...
}
)
StackMaster allows you to separate your stack definitions and parameters from your templates by way of a template_dir
key in your stack_master.yml.
You can also pass compiler-specific options to the template compiler to further customize SparkleFormation or CfnDsl's behavior. Combining the 2 lets you move your SFN templates away from your stack definitions. For example, if your project is laid out as:
project-root
|-- envs
|-- env-1
|-- stack_master.yml
|-- env-2
|-- stack_master.yml
|-- sparkle
|-- templates
|-- my-stack.rb
Your env-1/stack_master.yml files can reference common templates by setting:
template_dir: ../../sparkle/templates
stack_defaults:
compiler_options:
sparkle_path: ../../sparkle
stacks:
us-east-1:
my-stack:
template: my-stack.rb
stack_master help # Display up to date docs on the commands available
stack_master init # Initialises a directory structure and stack_master.yml file
stack_master list # Lists stack definitions
stack_master apply [region-or-alias] [stack-name] # Create or update a stack
stack_master apply [region-or-alias] [stack-name] [region-or-alias] [stack-name] # Create or update multiple stacks
stack_master apply [region-or-alias] # Create or update stacks in the given region
stack_master apply # Create or update all stacks
stack_master --changed apply # Create or update all stacks that have changed
stack_master --yes apply [region-or-alias] [stack-name] # Create or update a stack non-interactively (forcing yes)
stack_master diff [region-or-alias] [stack-name] # Display a stack tempalte and parameter diff
stack_master delete [region-or-alias] [stack-name] # Delete a stack
stack_master events [region-or-alias] [stack-name] # Display events for a stack
stack_master outputs [region-or-alias] [stack-name] # Display outputs for a stack
stack_master resources [region-or-alias] [stack-name] # Display outputs for a stack
stack_master status # Displays the status of each stack
The apply command does the following:
- Compiles the proposed stack template and resolves parameters.
- Fetches the current state of the stack from CloudFormation.
- Displays a diff of the current stack and the proposed stack.
- Creates a change set and displays the actions that CloudFormation will take to perform the update (if the stack already exists).
- Asks if the update should continue.
- If yes, the API calls are made to update or create the stack.
- Stack events are displayed until CloudFormation has finished applying the changes.
Demo:
StackMaster uses the MIT license. See LICENSE.txt for details.
- Fork it ( http://github.com/envato/stack_master/fork )
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create new Pull Request