toscalib

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Published: Feb 14, 2020 License: Apache-2.0 Imports: 21 Imported by: 2

README

Abstract

This library is an implementation of the TOSCA definition as described in the document written in pure GO TOSCA Simple Profile in YAML Version 1.1

Status

GoDoc GoCard coverage Build Status

Plans

ToDo Tasks

Normative Types

The normative types definitions are included de facto. The files are embeded using go-bindata.

Howto

Create a ServiceTemplateDefinition and call Parse(r io.Reader) of ParseCsar(c string) to fill it with a YAML definition.

Example

var t toscalib.ServiceTemplateDefinition
err := t.Parse(os.Stdin)
if err != nil {
    log.Fatal(err)
}
var t toscalib.ServiceTemplateDefinition
err := t.ParseCsar("tests/tosca_elk.zip")
if err != nil {
    log.Fatal(err)
}

Origins

Original implementation provided by Olivier Wulveryck at github.com/owulveryck/toscalib.

Documentation

Overview

Package toscalib implements the TOSCA syntax in its YAML version as described in http://docs.oasis-open.org/tosca/TOSCA-Simple-Profile-YAML/v1.0/csd03/TOSCA-Simple-Profile-YAML-v1.0-csd03.html

Index

Constants

View Source
const (
	// Self is ref for a TOSCA orchestrator will interpret this keyword as the Node or Relationship Template
	// instance that contains the function at the time the function is evaluated
	Self = "SELF"

	// Source is a ref a TOSCA orchestrator will interpret this keyword as the Node Template instance
	// that is at the source end of the relationship that contains the referencing function.
	Source = "SOURCE"

	// Target is a ref a TOSCA orchestrator will interpret this keyword as the Node Template instance
	// that is at the source end of the relationship that contains the referencing function.
	Target = "TARGET"

	// Host is a ref a TOSCA orchestrator will interpret this keyword to refer to the all nodes
	// that “host” the node using this reference (i.e., as identified by its HostedOn relationship).
	Host = "HOST"

	// LocalFile will indicate the orchestrator is responsible for providing a path as the result of the
	// get_artifact call where the artifact file can be accessed. The orchestrator will also remove (by default)
	// the artifact from this location at the end of the operation.
	LocalFile = "LOCAL_FILE"
)
View Source
const (
	ConcatFunc         = "concat"
	TokenFunc          = "token"
	GetInputFunc       = "get_input"
	GetPropFunc        = "get_property"
	GetAttrFunc        = "get_attribute"
	GetOpOutputFunc    = "get_operation_output"
	GetNodesOfTypeFunc = "get_nodes_of_type"
	GetArtifactFunc    = "get_artifact"
)

Defines Tosca Function Names

View Source
const (
	StateInitial     = iota // Node is not yet created. Node only exists as a template definition
	StateCreating    = iota // Node is transitioning from initial state to created state.
	StateCreated     = iota // Node software has been installed.
	StateConfiguring = iota // Node is transitioning from created state to configured state.
	StateConfigured  = iota // Node has been configured prior to being started
	StateStarting    = iota // Node is transitioning from configured state to started state.
	StateStarted     = iota // Node is started.
	StateStopping    = iota // Node is transitioning from its current state to a configured state.
	StateDeleting    = iota // Node is transitioning from its current state to one where it is deleted and its state is =iota // longer tracked by the instance model.
	StateError       = iota // Node is in an error state
)

This implements the type defined in Appendix A 3 of the definition file

View Source
const (
	// NetworkPrivate is an alias used to reference the first private network within a property or attribute
	// of a Node or Capability which would be assigned to them by the underlying platform at runtime.
	NetworkPrivate = "PRIVATE"

	// NetworkPublic is an alias used to reference the first public network within a property or attribute
	// of a Node or Capability which would be assigned to them by the underlying platform at runtime.
	NetworkPublic = "PUBLIC"
)
View Source
const UNBOUNDED uint64 = 9223372036854775807

UNBOUNDED A.2.3 TOCSA range type

Variables

Functions is the list of Tosca Functions

View Source
var Operators = []string{
	"equal",
	"greater_than",
	"greater_or_equal",
	"less_than",
	"less_or_equal",
	"in_range",
	"valid_values",
	"length",
	"min_length",
	"max_length",
	"pattern",
}

Operators is a list of supported constraint operators

Functions

func Asset

func Asset(name string) ([]byte, error)

Asset loads and returns the asset for the given name. It returns an error if the asset could not be found or could not be loaded.

func AssetDir

func AssetDir(name string) ([]string, error)

AssetDir returns the file names below a certain directory embedded in the file by go-bindata. For example if you run go-bindata on data/... and data contains the following hierarchy:

data/
  foo.txt
  img/
    a.png
    b.png

then AssetDir("data") would return []string{"foo.txt", "img"} AssetDir("data/img") would return []string{"a.png", "b.png"} AssetDir("foo.txt") and AssetDir("notexist") would return an error AssetDir("") will return []string{"data"}.

func AssetInfo

func AssetInfo(name string) (os.FileInfo, error)

AssetInfo loads and returns the asset info for the given name. It returns an error if the asset could not be found or could not be loaded.

func AssetNames

func AssetNames() []string

AssetNames returns the names of the assets.

func MustAsset

func MustAsset(name string) []byte

MustAsset is like Asset but panics when Asset would return an error. It simplifies safe initialization of global variables.

func RestoreAsset

func RestoreAsset(dir, name string) error

RestoreAsset restores an asset under the given directory

func RestoreAssets

func RestoreAssets(dir, name string) error

RestoreAssets restores an asset under the given directory recursively

Types

type ActivityDefinition

type ActivityDefinition struct {
	SetState      string `yaml:"set_state,omitempty" json:"set_state,omitempty"`
	CallOperation string `yaml:"call_operation,omitempty" json:"call_operation,omitempty"`
	Inline        string `yaml:"inline,omitempty" json:"inline,omitempty"`
	Delegate      string `yaml:"delegate,omitempty" json:"delegate,omitempty"`
}

ActivityDefinition structure to handle workflow step activity

type ArtifactDefinition

type ArtifactDefinition struct {
	Type        string `yaml:"type" json:"type"`                                   // the required artifact type the artifact definition is based upon
	File        string `yaml:"file" json:"file"`                                   // equired URI string (relative or absolute) which can be used to locate the artifact’s file
	Repository  string `yaml:"repository" json:"repository"`                       // optional name of the repository definition to use to retrieve the associated artifact (file) from
	Description string `yaml:"description,omitempty" json:"description,omitempty"` // optional description for the artifact
	DeployPath  string `yaml:"deploy_path,omitempty" json:"deploy_path,omitempty"` // optional path the artifact_file_URI would be copied into within the target node’s container
}

ArtifactDefinition defines a named, typed file that can be associated with Node Type or Node Template and used by orchestration engine to facilitate deployment and implementation of interface operations.

func (*ArtifactDefinition) UnmarshalYAML

func (d *ArtifactDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML converts YAML text to a type

type ArtifactType

type ArtifactType struct {
	DerivedFrom string                        `yaml:"derived_from,omitempty" json:"derived_from"` // optional name of the Artifact Type this Artifact Type definition derives from
	Version     Version                       `yaml:"version,omitempty" json:"version"`
	Description string                        `yaml:"description,omitempty" json:"description"`
	Metadata    Metadata                      `yaml:"metadata,omitempty" json:"metadata"`
	MimeType    string                        `yaml:"mime_type,omitempty" json:"mime_type"`             // optional Multipurpose Internet Mail Extensions (MIME) standard string value that describes the file contents for this type of Artifact Type
	FileExt     []string                      `yaml:"file_ext,omitempty" json:"file_ext"`               // optional list of one or more recognized file extensions for this type of artifact type
	Properties  map[string]PropertyDefinition `yaml:"properties,omitempty" json:"properties,omitempty"` // optional list of property definitions for the artifact type
}

ArtifactType is a reusable entity that defines the type of one or more files that are used to define implementation or deployment artifacts that are referenced by nodes or relationships on their operations.

type Assignment

type Assignment struct {
	Value      interface{}
	Function   string
	Args       []interface{}
	Expression ConstraintClause
}

Assignment supports Value evaluation

func (*Assignment) Evaluate

func (p *Assignment) Evaluate(std *ServiceTemplateDefinition, ctx string) interface{}

Evaluate gets the value of an Assignment, including the evaluation of expression or function

func (*Assignment) UnmarshalYAML

func (p *Assignment) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML converts YAML text to a type

type AttributeAssignment

type AttributeAssignment struct {
	Assignment
}

AttributeAssignment supports Value evaluation

type AttributeDefinition

type AttributeDefinition struct {
	Type        string      `yaml:"type" json:"type"`                                   // The required data type for the attribute.
	Description string      `yaml:"description,omitempty" json:"description,omitempty"` // The optional description for the attribute.
	Default     interface{} `yaml:"default,omitempty" json:"default,omitempty"`         // An optional key that may provide a value to be used as a default if not provided by another means.
	Status      Status      `yaml:"status,omitempty" json:"status,omitempty"`           // The optional status of the attribute relative to the specification or implementation.
	EntrySchema interface{} `yaml:"entry_schema,omitempty" json:"-"`                    // The optional key that is used to declare the name of the Datatype definition for entries of set types such as the TOSCA list or map.
}

AttributeDefinition is a structure describing the property assignmenet in the node template This notion is described in appendix 5.9 of the document

type CapabilityAssignment

type CapabilityAssignment struct {
	Properties map[string]PropertyAssignment  `yaml:"properties,omitempty" json:"properties"`
	Attributes map[string]AttributeAssignment `yaml:"attributes,omitempty" json:"attributes,omitempty"`
}

CapabilityAssignment allows node template authors to assign values to properties and attributes for a named capability definition that is part of a Node Template’s type definition.

type CapabilityDefinition

type CapabilityDefinition struct {
	Type             string                         `yaml:"type" json:"type"`                                    //  The required name of the Capability Type the capability definition is based upon.
	Description      string                         `yaml:"description,omitempty" jsson:"description,omitempty"` // The optional description of the Capability definition.
	Properties       map[string]PropertyDefinition  `yaml:"properties,omitempty" json:"properties,omitempty"`    //  An optional list of property definitions for the Capability definition.
	Attributes       map[string]AttributeDefinition `yaml:"attributes" json:"attributes"`                        // An optional list of attribute definitions for the Capability definition.
	ValidSourceTypes []string                       `yaml:"valid_source_types" json:"valid_source_types"`        // A`n optional list of one or more valid names of Node Types that are supported as valid sources of any relationship established to the declared Capability Type.
	Occurrences      []string                       `yaml:"occurrences" json:"occurrences"`
}

CapabilityDefinition Appendix 6.1

func (*CapabilityDefinition) IsValidSourceType

func (c *CapabilityDefinition) IsValidSourceType(srcType string) bool

IsValidSourceType checks if a specific node type is valid for the specific Capability

func (*CapabilityDefinition) UnmarshalYAML

func (c *CapabilityDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type CapabilityType

type CapabilityType struct {
	DerivedFrom  string                         `yaml:"derived_from,omitempty" json:"derived_from"` // An optional parent Node Type name this new Node Type derives from
	Version      Version                        `yaml:"version,omitempty" json:"version"`
	Description  string                         `yaml:"description,omitempty" json:"description"` // An optional description for the Node Type
	Properties   map[string]PropertyDefinition  `yaml:"properties,omitempty" json:"properties"`
	Attributes   map[string]AttributeDefinition `yaml:"attributes,omitempty" json:"attributes,omitempty"` // An optional list of attribute definitions for the Node Type.
	ValidSources []string                       `yaml:"valid_source_types,omitempty" json:"valid_source_types"`
}

CapabilityType as described in appendix 6.6 A Capability Type is a reusable entity that describes a kind of capability that a Node Type can declare to expose. Requirements (implicit or explicit) that are declared as part of one node can be matched to (i.e., fulfilled by) the Capabilities declared by another node.

type ConstraintClause

type ConstraintClause struct {
	Operator string
	Values   interface{}
}

ConstraintClause definition as described in Appendix 5.2. This is a map where the index is a string that may have a value in {"equal","greater_than", ...} (see Appendix 5.2) a,s value is an interface for the definition. Example: ConstraintClause may be [ "greater_than": 3 ]

func (*ConstraintClause) Evaluate

func (constraint *ConstraintClause) Evaluate(interface{}) bool

Evaluate the constraint and return a boolean

func (*ConstraintClause) UnmarshalYAML

func (constraint *ConstraintClause) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML handles simple and complex format when converting from YAML to types

type Constraints

type Constraints []ConstraintClause

Constraints is an array of ConstraintClause

func (*Constraints) IsValid

func (c *Constraints) IsValid(v interface{}) (bool, error)

IsValid returns true if the value is valid against the Constraints

type CredentialDefinition

type CredentialDefinition interface{}

CredentialDefinition as described in appendix C 2.1 The Credential type is a complex TOSCA data Type used when describing authorization credentials used to access network accessible resources.

type DataType

type DataType struct {
	DerivedFrom string                        `yaml:"derived_from,omitempty" json:"derived_from,omitempty"` // The optional key used when a datatype is derived from an existing TOSCA Data Type.
	Description string                        `yaml:"description,omitempty" json:"description,omitempty"`   // The optional description for the Data Type.
	Constraints Constraints                   `yaml:"constraints" json:"constraints"`                       // The optional list of sequenced constraint clauses for the Data Type.
	Properties  map[string]PropertyDefinition `yaml:"properties" json:"properties"`                         // The optional list property definitions that comprise the schema for a complex Data Type in TOSCA.
}

DataType as described in Appendix 6.5 A Data Type definition defines the schema for new named datatypes in TOSCA.

type EventFilterDefinition

type EventFilterDefinition struct {
	Node        string `yaml:"node" json:"node"`
	Requirement string `yaml:"requirement" json:"requirement"`
	Capability  string `yaml:"capability" json:"capability"`
}

EventFilterDefinition provides structure for event_filter of a Trigger

type Filter

type Filter interface{}

Filter defines a generic interface to represent any condition

type Frequency

type Frequency int64

Frequency type as described in appendix A 2.6.6

type GroupDefinition

type GroupDefinition struct {
	Type        string                         `yaml:"type" json:"type"`
	Metadata    Metadata                       `yaml:"metadata,omitempty" json:"metadata"`
	Description string                         `yaml:"description,omitempty" json:"description"`
	Properties  map[string]PropertyAssignment  `yaml:"properties,omitempty" json:"properties"`
	Interfaces  map[string]InterfaceDefinition `yaml:"interfaces,omitempty" json:"interfaces"`
	Members     []string                       `yaml:"members,omitempty" json:"members,omitempty"`
}

GroupDefinition defines a logical grouping of node templates, typically for management purposes, but is separate from the application’s topology template.

type GroupType

type GroupType struct {
	DerivedFrom  string                             `yaml:"derived_from,omitempty" json:"derived_from"`
	Version      Version                            `yaml:"version,omitempty" json:"version"`
	Metadata     Metadata                           `yaml:"metadata,omitempty" json:"metadata"`
	Description  string                             `yaml:"description,omitempty" json:"description"`
	Attributes   map[string]AttributeDefinition     `yaml:"attributes,omitempty" json:"attributes"`
	Properties   map[string]PropertyDefinition      `yaml:"properties,omitempty" json:"properties"`
	Requirements []map[string]RequirementDefinition `yaml:"requirements,omitempty" json:"requirements,omitempty"` // An optional sequenced list of requirement definitions for the Node Type
	Capabilities map[string]CapabilityDefinition    `yaml:"capabilities,omitempty" json:"capabilities,omitempty"` // An optional list of capability definitions for the Node Type
	Interfaces   map[string]InterfaceDefinition     `yaml:"interfaces,omitempty" json:"interfaces"`
	Members      []string                           `yaml:"members,omitempty" json:"members,omitempty"`
}

GroupType defines logical grouping types for nodes, typically for different management purposes. Groups can effectively be viewed as logical nodes that are not part of the physical deployment topology of an application, yet can have capabilities and the ability to attach policies and interfaces that can be applied (depending on the group type) to its member nodes.

type ImportDefinition

type ImportDefinition struct {
	File            string `yaml:"file" json:"file"`
	Repository      string `yaml:"repository,omitempty" json:"repository,omitempty"`
	NamespaceURI    string `yaml:"namespace_uri,omitempty" json:"namespace_uri,omitempty"`
	NamespacePrefix string `yaml:"namespace_prefix,omitempty" json:"namespace_prefix,omitempty"`
}

ImportDefinition is used within a TOSCA Service Template to locate and uniquely name another TOSCA Service Template file which has type and template definitions to be imported (included) and referenced within another Service Template.

func (*ImportDefinition) UnmarshalYAML

func (i *ImportDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type InterfaceDefinition

type InterfaceDefinition struct {
	Type       string                         `yaml:"type" json:"type"`
	Inputs     map[string]PropertyAssignment  `yaml:"inputs,omitempty"`
	Operations map[string]OperationDefinition `yaml:"operations,inline"`
}

InterfaceDefinition is related to a node type

type InterfaceType

type InterfaceType struct {
	DerivedFrom string                         `yaml:"derived_from,omitempty" json:"derived_from"`
	Version     Version                        `yaml:"version,omitempty"`
	Metadata    Metadata                       `yaml:"metadata,omitempty" json:"metadata"`
	Description string                         `yaml:"description,omitempty"`
	Inputs      map[string]PropertyDefinition  `yaml:"inputs,omitempty" json:"inputs"` // The optional list of input parameter definitions.
	Operations  map[string]OperationDefinition `yaml:"operations,inline"`
}

InterfaceType as described in Appendix A 6.4 An Interface Type is a reusable entity that describes a set of operations that can be used to interact with or manage a node or relationship in a TOSCA topology.

type Metadata

type Metadata map[string]string

Metadata is provides support for attaching provider specific attributes to different structures.

type NodeFilter

type NodeFilter interface{}

NodeFilter Appendix 5.4 TODO: Implement NodeFilter struct A node filter definition defines criteria for selection of a TOSCA Node Template based upon the template’s property values, capabilities and capability properties.

type NodeTemplate

type NodeTemplate struct {
	Name         string
	Type         string                             `yaml:"type" json:"type"`                                   // The required name of the Node Type the Node Template is based upon.
	Description  string                             `yaml:"description,omitempty" json:"description,omitempty"` // An optional description for the Node Template.
	Metadata     Metadata                           `yaml:"metadata,omitempty" json:"metadata"`
	Directives   []string                           `yaml:"directives,omitempty" json:"-" json:"directives,omitempty"`     // An optional list of directive values to provide processing instructions to orchestrators and tooling.
	Properties   map[string]PropertyAssignment      `yaml:"properties,omitempty" json:"-" json:"properties,omitempty"`     // An optional list of property value assignments for the Node Template.
	Attributes   map[string]AttributeAssignment     `yaml:"attributes,omitempty" json:"-" json:"attributes,omitempty"`     // An optional list of attribute value assignments for the Node Template.
	Requirements []map[string]RequirementAssignment `yaml:"requirements,omitempty" json:"-" json:"requirements,omitempty"` // An optional sequenced list of requirement assignments for the Node Template.
	Capabilities map[string]CapabilityAssignment    `yaml:"capabilities,omitempty" json:"-" json:"capabilities,omitempty"` // An optional list of capability assignments for the Node Template.
	Interfaces   map[string]InterfaceDefinition     `yaml:"interfaces,omitempty" json:"-" json:"interfaces,omitempty"`     // An optional list of named interface definitions for the Node Template.
	Artifacts    map[string]ArtifactDefinition      `yaml:"artifacts,omitempty" json:"-" json:"artifacts,omitempty"`       // An optional list of named artifact definitions for the Node Template.
	NodeFilter   map[string]NodeFilter              `yaml:"node_filter,omitempty" json:"-" json:"node_filter,omitempty"`   // The optional filter definition that TOSCA orchestrators would use to select the correct target node.  This keyname is only valid if the directive has the value of “selectable” set.
	Copy         string                             `yaml:"copy,omitempty" json:"copy,omitempty"`                          // The optional (symbolic) name of another node template to copy into (all keynames and values) and use as a basis for this node template.
	Refs         struct {
		Type NodeType `yaml:"-" json:"-"`
	} `yaml:"-" json:"-"`
}

NodeTemplate as described in Appendix 7.3 A Node Template specifies the occurrence of a manageable software component as part of an application’s topology model which is defined in a TOSCA Service Template. A Node template is an instance of a specified Node Type and can provide customized properties, constraints or operations which override the defaults provided by its Node Type and its implementations.

func (*NodeTemplate) GetRelationshipSource

func (n *NodeTemplate) GetRelationshipSource(relationshipName string) string

GetRelationshipSource retrieves the source Node Template name if the node has a requirement that is linked to a specific relationship template.

func (*NodeTemplate) GetRelationshipTarget

func (n *NodeTemplate) GetRelationshipTarget(relationshipName string) string

GetRelationshipTarget retrieves the target Node Template name if the node has a requirement that is linked to a specific relationship template.

func (*NodeTemplate) GetRequirement

func (n *NodeTemplate) GetRequirement(name string) *RequirementAssignment

GetRequirement returns the Requirement with the specified name.

type NodeType

type NodeType struct {
	DerivedFrom  string                             `yaml:"derived_from,omitempty" json:"derived_from"` // An optional parent Node Type name this new Node Type derives from
	Version      Version                            `yaml:"version,omitempty" json:"version"`
	Description  string                             `yaml:"description,omitempty" json:"description"` // An optional description for the Node Type
	Metadata     Metadata                           `yaml:"metadata,omitempty" json:"metadata"`
	Properties   map[string]PropertyDefinition      `yaml:"properties,omitempty" json:"properties,omitempty"`     // An optional list of property definitions for the Node Type.
	Attributes   map[string]AttributeDefinition     `yaml:"attributes,omitempty" json:"attributes,omitempty"`     // An optional list of attribute definitions for the Node Type.
	Requirements []map[string]RequirementDefinition `yaml:"requirements,omitempty" json:"requirements,omitempty"` // An optional sequenced list of requirement definitions for the Node Type
	Capabilities map[string]CapabilityDefinition    `yaml:"capabilities,omitempty" json:"capabilities,omitempty"` // An optional list of capability definitions for the Node Type
	Interfaces   map[string]InterfaceDefinition     `yaml:"interfaces,omitempty" json:"interfaces,omitempty"`     // An optional list of interface definitions supported by the Node Type
	Artifacts    map[string]ArtifactDefinition      `yaml:"artifacts,omitempty" json:"artifacts,omitempty"`       // An optional list of named artifact definitions for the Node Type
}

NodeType as described is Appendix 6.8. A Node Type is a reusable entity that defines the type of one or more Node Templates. As such, a Node Type defines the structure of observable properties via a Properties Definition, the Requirements and Capabilities of the node as well as its supported interfaces.

type OperationDefinition

type OperationDefinition struct {
	Inputs         map[string]PropertyAssignment `yaml:"inputs,omitempty"`
	Description    string                        `yaml:"description,omitempty"`
	Implementation string                        `yaml:"implementation,omitempty"`
}

OperationDefinition defines a named function or procedure that can be bound to an implementation artifact (e.g., a script).

func (*OperationDefinition) UnmarshalYAML

func (i *OperationDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML converts YAML text to a type

type ParserHooks

type ParserHooks struct {
	ParsedSTD func(source string, std *ServiceTemplateDefinition) error
}

ParserHooks provide callback functions for handling custom logic at key points within the overall parsing logic.

type PolicyDefinition

type PolicyDefinition struct {
	Type        string                        `yaml:"type" json:"type"`
	Metadata    Metadata                      `yaml:"metadata,omitempty" json:"metadata"`
	Description string                        `yaml:"description,omitempty" json:"description"`
	Properties  map[string]PropertyAssignment `yaml:"properties,omitempty" json:"properties"`
	Targets     []string                      `yaml:"targets" json:"targets"`
	Triggers    map[string]TriggerDefinition  `yaml:"triggers" json:"triggers"`
}

PolicyDefinition provides the structure for an instance of a Policy based on a PolicyType

func (*PolicyDefinition) IsValidTarget

func (pd *PolicyDefinition) IsValidTarget(name string) bool

IsValidTarget checks if a specified target is valid for the Policy

type PolicyType

type PolicyType struct {
	DerivedFrom string                        `yaml:"derived_from,omitempty" json:"derived_from"`
	Version     Version                       `yaml:"version,omitempty" json:"version"`
	Metadata    Metadata                      `yaml:"metadata,omitempty" json:"metadata"`
	Description string                        `yaml:"description,omitempty" json:"description"`
	Properties  map[string]PropertyDefinition `yaml:"properties,omitempty" json:"properties"`
	Targets     []string                      `yaml:"targets" json:"targets"`
	Triggers    map[string]TriggerDefinition  `yaml:"triggers" json:"triggers"`
}

PolicyType provides the base structure for defining what a Policy is

type PreconditionDefinition

type PreconditionDefinition struct {
	Target    string `yaml:"target,omitempty" json:"target,omitempty"`
	Condition Filter `yaml:"condition,omitempty" json:"condition,omitempty"`
}

PreconditionDefinition structure to handle a condition that is checked before a step

type PropertyAssignment

type PropertyAssignment struct {
	Assignment
}

PropertyAssignment supports Value evaluation

type PropertyDefinition

type PropertyDefinition struct {
	// Value is not part of PropertyDefinition but an extension to represent both
	// PropertyDefinition and ParameterDefinition within a single type.
	Value       PropertyAssignment `yaml:"value,omitempty"`
	Type        string             `yaml:"type" json:"type"`                                   // The required data type for the property
	Description string             `yaml:"description,omitempty" json:"description,omitempty"` // The optional description for the property.
	Required    bool               `yaml:"required,omitempty" json:"required,omitempty"`       // An optional key that declares a property as required ( true) or not ( false) Default: true
	Default     string             `yaml:"default,omitempty" json:"default,omitempty"`
	Status      Status             `yaml:"status,omitempty" json:"status,omitempty"`
	Constraints Constraints        `yaml:"constraints,omitempty,flow" json:"constraints,omitempty"`
	EntrySchema interface{}        `yaml:"entry_schema,omitempty" json:"entry_schema,omitempty"`
}

PropertyDefinition as described in Appendix 5.7: A property definition defines a named, typed value and related data that can be associated with an entity defined in this specification (e.g., Node Types, Relation ship Types, Capability Types, etc.). Properties are used by template authors to provide input values to TOSCA entities which indicate their “desired state” when they are instantiated. The value of a property can be retrieved using the get_property function within TOSCA Service Templates

func (*PropertyDefinition) UnmarshalYAML

func (p *PropertyDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML converts YAML text to a type

type Regex

type Regex interface{}

Regex type used in the constraint definition (Appendix A 5.2.1)

type RelationshipTemplate

type RelationshipTemplate struct {
	Type        string                         `yaml:"type" json:"type"`
	Metadata    Metadata                       `yaml:"metadata,omitempty" json:"metadata"`
	Description string                         `yaml:"description,omitempty" json:"description"`
	Attributes  map[string]AttributeAssignment `yaml:"attributes,omitempty" json:"-" json:"attributes,omitempty"` // An optional list of attribute value assignments for the Node Template.
	Properties  map[string]PropertyAssignment  `yaml:"properties,omitempty" json:"properties"`
	Interfaces  map[string]InterfaceDefinition `yaml:"interfaces,omitempty" json:"interfaces"`
	Copy        string                         `yaml:"copy,omitempty" json:"copy,omitempty"`
}

RelationshipTemplate specifies the occurrence of a manageable relationship between node templates as part of an application’s topology model that is defined in a TOSCA Service Template. A Relationship template is an instance of a specified Relationship Type and can provide customized properties, constraints or operations which override the defaults provided by its Relationship Type and its implementations.

type RelationshipType

type RelationshipType struct {
	DerivedFrom string                         `yaml:"derived_from,omitempty" json:"derived_from"`
	Version     Version                        `yaml:"version,omitempty" json:"version"`
	Metadata    Metadata                       `yaml:"metadata,omitempty" json:"metadata"`
	Description string                         `yaml:"description,omitempty" json:"description"`
	Attributes  map[string]AttributeDefinition `yaml:"attributes,omitempty" json:"attributes"`
	Properties  map[string]PropertyDefinition  `yaml:"properties,omitempty" json:"properties"`
	Interfaces  map[string]InterfaceDefinition `yaml:"interfaces,omitempty" json:"interfaces"`
	ValidTarget []string                       `yaml:"valid_target_types,omitempty" json:"valid_target_types"`
}

RelationshipType as described in appendix 6.9 A Relationship Type is a reusable entity that defines the type of one or more relationships between Node Types or Node Templates.

func (*RelationshipType) IsValidTarget

func (r *RelationshipType) IsValidTarget(typeName string) bool

IsValidTarget checks to see if a specified type is in the list of valid targets and returns true/false. If there are no defined valid targets then it will always be true.

type RepositoryDefinition

type RepositoryDefinition struct {
	Description string               `yaml:"description,omitempty" json:"description,omitempty"` // The optional description for the repository.
	URL         string               `yaml:"url" json:"url"`                                     // The required URL or network address used to access the repository.
	Credential  CredentialDefinition `yaml:"credential" json:"credential"`                       // The optional Credential used to authorize access to the repository.
}

RepositoryDefinition as desribed in Appendix 5.6 A repository definition defines a named external repository which contains deployment and implementation artifacts that are referenced within the TOSCA Service Template.

func (*RepositoryDefinition) UnmarshalYAML

func (r *RepositoryDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type RequirementAssignment

type RequirementAssignment struct {
	Capability string `yaml:"capability,omitempty" json:"capability,omitempty"` /* The optional reserved keyname used to provide the name of either a:
	   - Capability definition within a target node template that can fulfill the requirement.
	   - Capability Type that the provider will use to select a type-compatible target node template to fulfill the requirement at runtime.  */
	Node string `yaml:"node,omitempty" json:"node,omitempty"` /* The optional reserved keyname used to identify the target node of a relationship.  specifically, it is used to provide either a:
	   -  Node Template name that can fulfil the target node requirement.
	   - Node Type name that the provider will use to select a type-compatible node template to fulfil the requirement at runtime.  */
	Nodefilter NodeFilter `yaml:"node_filter,omitempty" json:"node_filter,omitempty"` // The optional filter definition that TOSCA orchestrators or providers would use to select a type-compatible target node that can fulfill the associated abstract requirement at runtime.o
	/* The following is the list of recognized keynames for a TOSCA requirement assignment’s relationship keyname which is used when Property assignments need to be provided to inputs of declared interfaces or their operations:*/
	Relationship RequirementRelationship `yaml:"relationship,omitempty" json:"relationship,omitempty"`
}

RequirementAssignment as described in Appendix 7.2

func (*RequirementAssignment) UnmarshalYAML

func (r *RequirementAssignment) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type RequirementDefinition

type RequirementDefinition struct {
	Capability   string                      `yaml:"capability" json:"capability"`         // The required reserved keyname used that can be used to provide the name of a valid Capability Type that can fulfil the requirement
	Node         string                      `yaml:"node,omitempty" json:"node,omitempty"` // The optional reserved keyname used to provide the name of a valid Node Type that contains the capability definition that can be used to fulfil the requirement
	Relationship RequirementRelationshipType `yaml:"relationship" json:"relationship,omitempty"`
	Occurrences  ToscaRange                  `yaml:"occurrences,omitempty" json:"occurrences,omitempty"` // The optional minimum and maximum occurrences for the requirement.  Note: the keyword UNBOUNDED is also supported to represent any positive integer
}

RequirementDefinition as described in Appendix 6.2

func (*RequirementDefinition) UnmarshalYAML

func (r *RequirementDefinition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type RequirementRelationship

type RequirementRelationship struct {
	Type       string                         `yaml:"type" json:"type"`                                 // The optional reserved keyname used to provide the name of the Relationship Type for the requirement assignment’s relationship keyname.
	Interfaces map[string]InterfaceDefinition `yaml:"interfaces,omitempty" json:"interfaces,omitempty"` // The optional reserved keyname used to reference declared (named) interface definitions of the corresponding Relationship Type in order to provide Property assignments for these interfaces or operations of these interfaces.
	Properties map[string]PropertyAssignment  `yaml:"properties" json:"properties"`                     // The optional list property definitions that comprise the schema for a complex Data Type in TOSCA.
}

RequirementRelationship is the list of recognized keynames for a TOSCA requirement assignment’s relationship keyname which is used when Property assignments need to be provided to inputs of declared interfaces or their operations:

func (*RequirementRelationship) UnmarshalYAML

func (r *RequirementRelationship) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type RequirementRelationshipType

type RequirementRelationshipType struct {
	Type       string                         `yaml:"type" json:"type"`
	Interfaces map[string]InterfaceDefinition `yaml:"interfaces,omitempty" json:"interfaces"`
}

RequirementRelationshipType defines the Relationship type of a Requirement Definition

func (*RequirementRelationshipType) UnmarshalYAML

func (r *RequirementRelationshipType) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to match both Simple Notation Example and Full Notation Example

type Resolver

type Resolver func(string) ([]byte, error)

Resolver defines a function spec that the Parser will use to resolve remote Imports.

type Scalar

type Scalar struct {
	Value float64
	Unit  string
}

Scalar type as defined in Appendis 2.6. The scalar unit type can be used to define scalar values along with a unit from the list of recognized units Scalar type may be time.Duration, Size or Frequency

func (*Scalar) UnmarshalYAML

func (s *Scalar) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML implements the yaml.Unmarshaler interface Unmarshals a string of the form "scalar unit" into a Scalar, validating that scalar and unit are valid

type ServiceTemplateDefinition

type ServiceTemplateDefinition struct {
	DefinitionsVersion string                          `yaml:"tosca_definitions_version" json:"tosca_definitions_version"` // A.9.3.1 tosca_definitions_version
	Metadata           Metadata                        `yaml:"metadata,omitempty" json:"metadata"`
	Description        string                          `yaml:"description,omitempty" json:"description,omitempty"`
	DslDefinitions     interface{}                     `yaml:"dsl_definitions,omitempty" json:"dsl_definitions,omitempty"`       // Declares optional DSL-specific definitions and conventions.  For example, in YAML, this allows defining reusable YAML macros (i.e., YAML alias anchors) for use throughout the TOSCA Service Template.
	Repositories       map[string]RepositoryDefinition `yaml:"repositories,omitempty" json:"repositories,omitempty"`             // Declares the list of external repositories which contain artifacts that are referenced in the service template along with their addresses and necessary credential information used to connect to them in order to retrieve the artifacts.
	Imports            []ImportDefinition              `yaml:"imports,omitempty" json:"imports,omitempty"`                       // Declares import statements external TOSCA Definitions documents. For example, these may be file location or URIs relative to the service template file within the same TOSCA CSAR file.
	ArtifactTypes      map[string]ArtifactType         `yaml:"artifact_types,omitempty" json:"artifact_types,omitempty"`         // This section contains an optional list of artifact type definitions for use in service templates
	DataTypes          map[string]DataType             `yaml:"data_types,omitempty" json:"data_types,omitempty"`                 // Declares a list of optional TOSCA Data Type definitions.
	CapabilityTypes    map[string]CapabilityType       `yaml:"capability_types,omitempty" json:"capability_types,omitempty"`     // This section contains an optional list of capability type definitions for use in service templates.
	InterfaceTypes     map[string]InterfaceType        `yaml:"interface_types,omitempty" json:"interface_types,omitempty"`       // This section contains an optional list of interface type definitions for use in service templates.
	RelationshipTypes  map[string]RelationshipType     `yaml:"relationship_types,omitempty" json:"relationship_types,omitempty"` // This section contains a set of relationship type definitions for use in service templates.
	NodeTypes          map[string]NodeType             `yaml:"node_types,omitempty" json:"node_types,omitempty"`                 // This section contains a set of node type definitions for use in service templates.
	GroupTypes         map[string]GroupType            `yaml:"group_types,omitempty" json:"group_types,omitempty"`
	PolicyTypes        map[string]PolicyType           `yaml:"policy_types" json:"policy_types"`
	TopologyTemplate   TopologyTemplateType            `yaml:"topology_template" json:"topology_template"` // Defines the topology template of an application or service, consisting of node templates that represent the application’s or service’s components, as well as relationship templates representing relations between the components.
}

ServiceTemplateDefinition is the meta structure containing an entire tosca document as described in http://docs.oasis-open.org/tosca/TOSCA-Simple-Profile-YAML/v1.0/csd03/TOSCA-Simple-Profile-YAML-v1.0-csd03.html

func (*ServiceTemplateDefinition) Clone

Clone creates a deep copy of a Service Template Definition

func (*ServiceTemplateDefinition) GetAttribute

func (s *ServiceTemplateDefinition) GetAttribute(node, attr string) *AttributeAssignment

GetAttribute returns the attribute of a Node

func (*ServiceTemplateDefinition) GetInputValue

func (s *ServiceTemplateDefinition) GetInputValue(prop string, raw bool) interface{}

GetInputValue retrieves an input value from Service Template Definition in the raw form (function evaluation not performed), or actual value after all function evaluation has completed.

func (*ServiceTemplateDefinition) GetNodeTemplate

func (s *ServiceTemplateDefinition) GetNodeTemplate(nodeName string) *NodeTemplate

GetNodeTemplate returns a pointer to a node template given its name its returns nil if not found

func (*ServiceTemplateDefinition) GetProperty

func (s *ServiceTemplateDefinition) GetProperty(node, prop string) *PropertyAssignment

GetProperty returns the property "prop"'s value for node named node

func (*ServiceTemplateDefinition) GetRelationshipSource

func (s *ServiceTemplateDefinition) GetRelationshipSource(relationshipName string) *NodeTemplate

GetRelationshipSource verifies the RelationshipTemplate exists and then searches the NodeTemplates to determine which one has a requirement for a specific RelationshipTemplate.

func (*ServiceTemplateDefinition) GetRelationshipTarget

func (s *ServiceTemplateDefinition) GetRelationshipTarget(relationshipName string) *NodeTemplate

GetRelationshipTarget verifies the RelationshipTemplate exists and then searches the NodeTemplates to determine which one has a requirement for a specific RelationshipTemplate with target node specified.

func (*ServiceTemplateDefinition) Merge

Merge applies the data from one ServiceTemplate to the current ServiceTemplate

func (*ServiceTemplateDefinition) Parse

Parse a TOSCA document and fill in the structure

func (*ServiceTemplateDefinition) ParseCsar

func (t *ServiceTemplateDefinition) ParseCsar(zipfile string) error

ParseCsar handles open and parse the CSAR file

func (*ServiceTemplateDefinition) ParseReader

func (t *ServiceTemplateDefinition) ParseReader(r io.Reader, resolver Resolver, hooks ParserHooks) error

ParseReader retrieves and parses a TOSCA document and loads into the structure using specified Resolver function to retrieve remote imports.

func (*ServiceTemplateDefinition) ParseSource

func (t *ServiceTemplateDefinition) ParseSource(source string, resolver Resolver, hooks ParserHooks) error

ParseSource retrieves and parses a TOSCA document and loads into the structure using specified Resolver function to retrieve remote source or imports.

func (*ServiceTemplateDefinition) SetAttribute

func (s *ServiceTemplateDefinition) SetAttribute(node, attr string, value interface{})

SetAttribute provides the ability to set a value to a named attribute

func (*ServiceTemplateDefinition) SetInputValue

func (s *ServiceTemplateDefinition) SetInputValue(prop string, value interface{})

SetInputValue sets an input value on a Service Template Definition

type Size

type Size int64

Size type as described in appendix A 2.6.4

type Status

type Status string

Status is used in the PropertyDefinition

const (
	Supported    Status = "supported"
	Unsupported  Status = "unsupported"
	Experimental Status = "experimental"
	Deprecated   Status = "deprecated"
)

Valid values for Status as described in Appendix 5.7.3

type StepDefinition

type StepDefinition struct {
	Target     string               `yaml:"target,omitempty" json:"target,omitempty"`
	OnSuccess  []string             `yaml:"on_success,omitempty" json:"on_success,omitempty"`
	Activities []ActivityDefinition `yaml:"activities,omitempty" json:"activities,omitempty"`
	Filter     Filter               `yaml:"filter,omitempty" json:"filter,omitempty"`
}

StepDefinition structure to handle workflow steps

type TimeInterval

type TimeInterval struct {
	StartTime string `yaml:"start_time" json:"start_time"`
	EndTime   string `yaml:"end_time" json:"end_time"`
}

TimeInterval Datatype defined in Spec v1.2 section 5.3.3 The TimeInterval type is a complex TOSCA data Type used when describing a period of time using the YAML ISO 8601 format to declare the start and end times.

type TopologyTemplateType

type TopologyTemplateType struct {
	Description           string                          `yaml:"description,omitempty" json:"description,omitempty"`
	Inputs                map[string]PropertyDefinition   `yaml:"inputs,omitempty" json:"inputs,omitempty"`
	NodeTemplates         map[string]NodeTemplate         `yaml:"node_templates" json:"node_templates"`
	RelationshipTemplates map[string]RelationshipTemplate `yaml:"relationship_templates,omitempty" json:"relationship_templates,omitempty"`
	Groups                map[string]GroupDefinition      `yaml:"groups" json:"groups"`
	Policies              []map[string]PolicyDefinition   `yaml:"policies" json:"policies"`
	Workflows             map[string]WorkflowDefinition   `yaml:"workflows,omitempty" json:"workflows,omitempty"`
	Outputs               map[string]PropertyDefinition   `yaml:"outputs,omitempty" json:"outputs,omitempty"`
}

TopologyTemplateType as described in appendix A 8 This section defines the topology template of a cloud application. The main ingredients of the topology template are node templates representing components of the application and relationship templates representing links between the components. These elements are defined in the nested node_templates section and the nested relationship_templates sections, respectively. Furthermore, a topology template allows for defining input parameters, output parameters as well as grouping of node templates.

type ToscaInterfacesNodeLifecycleStandarder

type ToscaInterfacesNodeLifecycleStandarder interface {
	Create() error    // description: Standard lifecycle create operation.
	Configure() error // description: Standard lifecycle configure operation.
	Start() error     // description: Standard lifecycle start operation.
	Stop() error      // description: Standard lifecycle stop operation.
	Delete() error    //description: Standard lifecycle delete operation.
}

ToscaInterfacesNodeLifecycleStandarder is a go interface for the standard normative lifecycle

type ToscaList

type ToscaList []interface{}

ToscaList is defined is Appendix 2.4. The list type allows for specifying multiple values for a parameter of property. For example, if an application allows for being configured to listen on multiple ports, a list of ports could be configured using the list data type. Note that entries in a list for one property or parameter must be of the same type. The type (for simple entries) or schema (for complex entries) is defined by the entry_schema attribute of the respective property definition, attribute definitions, or input or output parameter definitions.

type ToscaMap

type ToscaMap map[interface{}]interface{}

ToscaMap type as described in appendix A.2.5 The map type allows for specifying multiple values for a param eter of property as a map. In contrast to the list type, where each entry can only be addressed by its index in the list, entries in a map are named elements that can be addressed by their keys.i Note that entries in a map for one property or parameter must be of the same type. The type (for simple entries) or schema (for complex entries) is defined by the entry_schema attribute of the respective property definition, attribute definition, or input or output parameter definition

type ToscaRange

type ToscaRange interface{}

ToscaRange is defined in Appendix 2.3 The range type can be used to define numeric ranges with a lower and upper boundary. For example, this allows for specifying a range of ports to be opened in a firewall

type TriggerCondition

type TriggerCondition struct {
	Constraint  ConstraintClause `yaml:"constraint,omitempty" json:"constraint"`
	Period      Scalar           `yaml:"period,omitempty" json:"period"`
	Evaluations int              `yaml:"evaluations,omitempty" json:"evaluations"`
	Method      string           `yaml:"method,omitempty" json:"method"`
}

TriggerCondition provides structure for condition of a Trigger

func (*TriggerCondition) UnmarshalYAML

func (t *TriggerCondition) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML handles simple and complex format when converting from YAML to types

type TriggerDefinition

type TriggerDefinition struct {
	Description  string                         `yaml:"description,omitempty" json:"description"`
	EventType    string                         `yaml:"event_type" json:"event_type"`
	Schedule     TimeInterval                   `yaml:"schedule,omitempty" json:"schedule"`
	TargetFilter EventFilterDefinition          `yaml:"target_filter,omitempty" json:"target_filter"`
	Condition    TriggerCondition               `yaml:"condition,omitempty" json:"condition"`
	Action       map[string]OperationDefinition `yaml:"action" json:"action"`
}

TriggerDefinition provides the base structure for defining a Trigger for a Policy

type Version

type Version struct {
	semver.Version
}

Version - The version have the following grammar: MajorVersion.MinorVersion[.FixVersion[.Qualifier[-BuildVersion]]]

MajorVersion is a required integer value greater than or equ al to 0 (zero)
MinorVersion is a required integer value greater than or equal to 0 (zero).
FixVersion is a optional integer value greater than or equal to 0 (zero)
Qualifier is an optional string that indicates a named, pre-release version
	of the associated code that has been derived from the version of the code
	identified by the combination major_version, minor_version and fix_version numbers
BuildVersion is an optional integer value greater than or equal to 0 (zero)
	that can be used to further qualify different build versions of the code
	that has the same qualifer_string

func (*Version) GetBuildVersion

func (v *Version) GetBuildVersion() int

GetBuildVersion returns an integer value greater than or equal to 0 (zero) that can be used to further qualify different build versions of the code that has the same qualifer_string

func (*Version) GetFixVersion

func (v *Version) GetFixVersion() int

GetFixVersion returns the fix_version integer value

func (*Version) GetMajor

func (v *Version) GetMajor() int

GetMajor returns the major_version number

func (*Version) GetMinor

func (v *Version) GetMinor() int

GetMinor returns the minor_version number

func (*Version) GetQualifier

func (v *Version) GetQualifier() string

GetQualifier returns the named, pre-release version of the associated code that has been derived from the version of the code identified by the combination major_version, minor_version and fix_version numbers

func (*Version) UnmarshalYAML

func (v *Version) UnmarshalYAML(unmarshal func(interface{}) error) error

UnmarshalYAML is used to convert string to Version

type WorkflowDefinition

type WorkflowDefinition struct {
	Description   string                        `yaml:"description,omitempty" json:"description,omitempty"`
	Inputs        map[string]PropertyDefinition `yaml:"inputs,omitempty" json:"inputs,omitempty"`
	Preconditions []PreconditionDefinition      `yaml:"preconditions,omitempty" json:"preconditions,omitempty"`
	Steps         map[string]StepDefinition     `yaml:"steps,omitempty" json:"steps,omitempty"`
}

WorkflowDefinition structure to handle workflows as per tosca spec 1.2

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