Versioning

Versioning is an ability to assign a version number to some particular package (and, in turn, to a class) and then distinguish packages with different versions.

Package version

It is possible to specify a version for packages. You can import several versions of the same package simultaneously and even deploy them inside a single environment. To do this, you should use Glare as a storage for packages. But if you’re going to keep only the latest version API is still good enough and both FormatVersion and Version rules will still be there. For more information about using Glare, refer to Using Glare as a storage for packages.

To specify the version of your package, add a new section to the manifest file:

Version: 0.1.0

It should be standard SemVer format version string consisting of 3 parts: Major.Minor.Patch and optional SemVer suffixes [-dev-build.label[+metadata.label]]. All MuranoPL classes have the version of the package they are contained in. If no version is specified, the package version is 0.0.0.

Note

It is impossible to show multiple versions of the same application in murano dashboard: only the last one is shown if the multiple versions are present.

Package requirements

In some cases, packages may require other packages for their work. You need to list such packages in the Require section of the manifest file:

Require:
  package1_FQN: version_spec_1
  ...
  packageN_FQN: version_spec_N

version_spec here denotes the allowed version range. It can be either in semantic_version specification pip-like format or as a partial version string. If you do not want to specify the package version, leave this value empty:

Require:
  package1_FQN: '>=0.0.3'
  package2_FQN:

In this case, version specification is equal to 0.

Note

All packages depend on the io.murano package (Core Library). If you do not specify this requirement in the list (or the list is empty, or there is no Require key in the package manifest), then dependency io.murano: 0 will be automatically added.

Object version

You can specify the version of the objects in UI definition when your application requires a specific version of some class. To do this, add a new key classVersion to section ? describing the object:

?:
  type: io.test.apps.TestApp
  classVersion: version_spec

Side-by-side versioning of packages

In some cases it might happen that several different versions of the same class are simultaneously present in a single environment:

  • There are different versions of the same MuranoPL class inside a single object model (environment).

  • Several class versions encounter within class parents. For example, class A extends B and C and class C inherits B2, where B and B2 are two different versions of the same class.

The first case, when two different versions of the same class need to communicate with each other, is handled by the fact that in order to do that there is a class() contract for that value. class() contract validates object version against package requirements. If class A has a property with contract $.class(B), then an object passed in this property when upcasted to B must have a version compatible with requirement specification in A’s package (requesting B’s package).

For the second case, where a single class attempts to inherit from two different versions of the same class engine (DSL), it attempts to find a version of this class which satisfies all parties and use it instead. However, if it is impossible, all remained different versions of the same class are treated as if they are unrelated classes.

For example: classA inherits classB from packageX and classC from packageY. Both classB and classC inherit from classD from packageZ; however, packageX depends on the version 1.2.0 of packageZ, while packageY depends on the version 1.3.0. This leads to a situation when classA transitively inherits classD of both versions 1.2 and 1.3. Therefore, an exception is thrown. However, if packageY’s dependency would be just “1” (which means any of the 1.x.x family), the conflict would be resolved and the 1.2 would be used as it satisfies both inheritance chains.

Murano engine is free to use any package version that is valid for the spec. For example, one application requires packageX with version spec < 0.3 and another package with the spec > 0. If both packages are get used in the same environment and the engine already loaded version 0.3 it can still use it for the second requirement even if there is a package with version 0.4 in the catalog and the classes from both classes are never interfere. In other words, engine always tries to minimize the number of versions in use for the single package to avoid conflicts and unnecessary package downloads. However, it also means that packages not always get the latest requirements.

Manifest format versioning

The manifests of packages are versioned using Format attribute. Currently, available versions are: 1.0, 1.1, 1.2 and 1.3. The versioning of manifest format is directly connected with YAQL and version of murano itself.

The short description of versions:

Format version

Description

1.0

supported by all versions of murano. Use this version if you are planning to use yaql 0.2 in your application

1.1

supported since Liberty. yaql 0.2 is supported in legacy mode. Specify it, if you want to use features from yaql 0.2 and yaql 1.0.0 at the same time in your application.

1.2

supported since Liberty. Do not use yaql 0.2 in applications with this format.

1.3

supported since Mitaka. yaql 1.1 is available. It’s recommended specifying this format in new applications, where compatibility with older versions of murano is not required.

1.4

supported since Newton. Keyword Scope is introduced for class methods to declare method’s accessibility from outside through the API call.

UI forms versioning

UI forms are versioned using Format attribute inside YAML definition. For more information, refer to corresponding documentation.

Execution plan format versioning

Format of an execution plan can be specified using property FormatVersion. More information can be found here.