Awesome
Travis Configuration Parser
What is this?
This project is a library for loading Travis CI build configuration.
It can create a configuration both from a normal Ruby Hash or a YAML string. These config objects generally behave like normal primitives (hashes, arrays, etc).
require 'travis/yaml'
config = Travis::Yaml.parse('language: ruby')
config = Travis::Yaml.parse(language: 'ruby')
config[:language] # ruby
config.language # ruby
# using parse! instead of parse will print out warnings
Travis::Yaml.parse! deploy: []
# .travis.yml: missing key "language", defaulting to "ruby"
# .travis.yml: value for "deploy" section is empty, dropping
# have it generate the build matrix for you
Travis::Yaml.matrix('rvm: [jruby, 2.0.0]').each do |matrix_entry|
puts matrix_entry.ruby
end
Why use it?
- Prevents code execution. Instead of deserializing arbitrary Ruby objects, it only deserializes primitive objects. To go even further, in contrast to SafeYAML, it only deserializes primitive objects that are expected for a certain part of the configuration.
- Prevents memory leaks. Internally, only expected values are stored in the data structure, discarding any additional data. No user input is converted to symbols (which would allow a memory based DoS attack).
- Normalization is happening in one place. Travis CI currently does config normalization in many different parts of its infrastructure, making it tedious to determine supported input formats and the resulting internal structure.
- Explicit structure. Due to the explicit configuration structure, exceptions throughout the system can be greatly reduced, since the configuration will not contain unexpected objects.
- Forgiving about user input. The parser knows the expected structure and can therefore automatically map some malformed input onto that structure. For instance,
node: 1.10
does not get converted tonode: 1.1
internally, because travis-yaml knows to expect a string here rather than a float. - Built-in support for encrypted values, making it easier to support these in different parts of the system and never leak the decrypted form if configuration is being serialized.
- Extensive warning and error handling, making it possible to use this library for linting and also to display such warnings when running a build.
- Performance. Using travis-yaml to load a configuration from a YAML string is slightly faster than using psych directly and significantly faster than using safeyaml.
- Compatibility. This library is written in a way to not only be fully compatible with the current .travis.yml format, but also with the configuration data in the current Travis database and with the code interacting with the configuration data (for instance in travis-build).
- Extensibility. The configuration structure is easily extended.
- Pluggable parser. It is easy to write a new parser. This would be useful for instance for the Travis CI command line client, where one could imagine a parser for the small subset of the YAML format that is commonly in use. This would for instance allow to write a parser and serializer able to preserve comments and indentation when modifying the contents of the .travis.yml.
What is missing?
- Serialization
External API
Loading a config
config = Travis::Yaml.parse('language: ruby') # parse from a yaml string
config = Travis::Yaml.parse(language: "ruby") # parse from Ruby object
For Psych/YAML compatibility, parse
is also aliased to load
.
Convenience
Nodes generally behave like normal Ruby objects. Mappings accept both symbols and strings as keys. Known fields on mappings are exposed as methods.
puts config.language
puts config[:language]
puts config['language']
Warnings and errors
- errors are actual parse errors, parent elements should discard elements with errors.
- warnings are general warnings for an element, with the element still being usable. These do not include warnings for child elements (though an error in a child element becomes a warning for its immediate parent).
- nested warnings include warnings for the whole tree, they also come with key prefix (array of strings) to identify the position the error occured at.
Travis::Yaml.parse("foo: bar").nested_warnings.each do |key, warning|
puts "#{key.join('.')}: #{warning}"
end
# will print nested warnings to stderr, will raise on top level error
Travis::Yaml.parse! "foo: bar"
Secure Variables
Secure variables are stored as Travis::Yaml::SecureString
internally. A secure string has at least an encrypted_string
or a decrypted_string
, or both.
You can use decrypt
/encrypt
with a block to generate the missing string:
secret = Travis::Yaml::SecureString.new("foo")
secret.encrypted_string # => "foo"
secret.decrypted_string # => nil
secret.encrypted? # => true
secret.decrypted? # => false
secret.decrypt { |string| string.upcase }
secret.encrypted_string # => "foo"
secret.decrypted_string # => "FOO"
secret.encrypted? # => true
secret.decrypted? # => true
To avoid having to walk the whole structure manually or hardcoding the values to decrypt, these methods are also exposed on any node:
config = Travis::Yaml.load 'env: { secure: foo }'
config.decrypted? # => false
config.decrypt { |string| string.upcase }
config.decrypted? # => true
config.env.matrix.first.decrypted_string # => "FOO"
This can even be done right with the parse step:
content = File.read('.travis.yml')
Travis::Yaml.parse! content do |config|
config.decrypt { |string| string.upcase }
end
Serialization
A travis-yaml document can be serialized to a few other formats via the serialize
method:
pp config.serialize(:ruby)
puts config.serialize(:json, pretty: true)
Serializer | Descriptions | Options |
---|---|---|
ruby | Corresponding Ruby objects, secure values will be SecureString s | secure , symbol_keys |
legacy | Format compatible with Travis CI's old fetch_config service | secure , symbol_keys |
json | Serialize as JSON, parsable via Travis::Yaml.load | secure , pretty |
yaml | Serialize as YAML, parsable via Travis::Yaml.load | secure , symbol_keys , indentation , line_width , canonical , avoid_tags |
The secure
option can be set to :decrypted
or :encrypted
, enforcing the decrypted or encrypted form of secure strings to be serialized. In some serializations, this might lead to secure strings being mapped to normal strings if set to :decrypted
.
Defining Structure
Good starting points for getting into the code are the root node and the language node.
A parsed configuration is very similar to a syntax tree. To create a new node type, you should inherit from one of the abstract types. Internal vocabulary is taken from the YAML spec rather than the Ruby names (ie, sequence vs array, mapping vs hash).
Scalar Values
Most of the time, scalar values are just strings. In fact, if you create a new scalar node class and don't specify and other supported type, it will treat everything as string.
module Travis::Yaml::Nodes
class Example < Scalar
end
end
This will parse foo
to "foo"
and 1.10
to 1.10
. This will also generate a warning and discard values like !float 1.10
.
Value Types
You can also allow other types and change the default type unsupported implicit types are cast to.
module Travis::Yaml::Nodes
class Example < Scalar
cast :str, :binary, :int
default_type :int
end
end
Available types are str
, binary
, bool
, float
, int
, time
, regexp
, secure
and null
.
Default Value
It is also possible to give a scalar a default value.
module Travis::Yaml::Nodes
class Example < Scalar
default_value "example"
end
end
This is handy when using it for a required entry in a mapping (for instance, language
is required, but has a default).
Fixed Value Set
For entries that have a well defined set of values, you can inherit from FixedValue
:
module Travis::Yaml::Nodes
class Example < FixedValue
ignore_case
default_value :example
value :foo, :bar, baz: :bar
end
end
This will, for example, map FOO
to "foo"
, baz
to "bar"
, and blah
to "example"
(and generate a warning about blah
being not supported).
Shorthands
There are shorthands for creating Scalar
and FixedValue
subclasses:
module Travis::Yaml::Nodes
class Example < Map
map :foo, to: Scalar[:int]
map :bar, to: FixedValue[:foo, :bar]
end
end
Sequences
Sequences correspond to Ruby arrays. If you pass in a scalar or mapping instead of a sequence, it will be treated as if it was a sequence with a single entry of that value.
module Travis::Yaml::Nodes
class ExampleList < Sequence
type ExampleValue # node type, defaults to Scalar
end
end
Mappings
Mappings correspond to hashes in Ruby.
module Travis::Yaml::Nodes
class ExampleMapping < Mapping
# map the value for the "example" key to an Example node
# map the value for the "other" key to an Other node
map :example, :other
# map the values for "foo" and "bar" to a Scalar
map :foo, :bar, to: Scalar
# map "list" to a Sequence, keep it even if it's empty
map :list, to: Sequence, drop_empty: false
# require "setting" to be present
map :setting, required: true
# make "option" an alias for "setting"
map :option, to: :setting
# if a scalar is passed in instead of a mapping, treat it as
# the value of "setting" ("foo" becomes { setting: "foo" })
prefix_scalar :setting
end
end
Open Mappings
Sometimes it is not possible to define all available keys for a mapping. You can solve this by using an open mapping:
module Travis::Yaml::Nodes
class ExampleMapping < OpenMapping
# node type for entries not specified (defaults to Scalar)
default_type ExampleValue
# map "setting" to Setting node, make it a requirement
map :setting, required: true
end
end
You can also limit the possible keys by overriding accept_key?
.
module Travis::Yaml::Nodes
class ExampleMapping < OpenMapping
default_type ExampleValue
def accept_key?(key)
key.start_with? "example_"
end
end
end
Additional Verification
Besides the generated warnings, validations and normalizations inherent to the structure, you can define your own checks and normalizations by overriding the verify
method.
module Travis::Yaml::Nodes
class Example < Scalar
def verify
if value == "foo"
warning "foo is deprecated, using bar instead"
self.value = "bar"
end
super
end
end
end
The warning
method will generate track a warning, so it can be presented to the user later on. The error
method will lead to the node being removed from its parent node. It will also propagate the error message as a warning in the parent node.
Nested Warnings
When reflecting upon a node, warnings
and errors
will only contain the messages for that specific node. To get all the warnings for the entire tree, use nested_warnings
, which will also give you the path (as array of strings).
config.nested_warnings.each do |path, message|
p path # ["my", "example", "key"]
p message # "this is the warning"
end
Requirements
This project requires Ruby 1.9.3 or 2.0.0 and Psych ~> 2.0 (part of the stdlib).