// The config package is responsible for loading and validating the // configuration. package config import ( "fmt" "strings" "github.com/hashicorp/terraform/depgraph" ) // Config is the configuration that comes from loading a collection // of Terraform templates. type Config struct { ProviderConfigs map[string]*ProviderConfig Resources []*Resource Variables map[string]Variable } // ProviderConfig is the configuration for a resource provider. // // For example, Terraform needs to set the AWS access keys for the AWS // resource provider. type ProviderConfig struct { Config map[string]interface{} Variables map[string]InterpolatedVariable } // A resource represents a single Terraform resource in the configuration. // A Terraform resource is something that represents some component that // can be created and managed, and has some properties associated with it. type Resource struct { Name string Type string Config map[string]interface{} Variables map[string]InterpolatedVariable } type Variable struct { Default string Description string } // An InterpolatedVariable is a variable that is embedded within a string // in the configuration, such as "hello ${world}" (world in this case is // an interpolated variable). // // These variables can come from a variety of sources, represented by // implementations of this interface. type InterpolatedVariable interface { FullKey() string } // A ResourceVariable is a variable that is referencing the field // of a resource, such as "${aws_instance.foo.ami}" type ResourceVariable struct { Type string Name string Field string key string } // A UserVariable is a variable that is referencing a user variable // that is inputted from outside the configuration. This looks like // "${var.foo}" type UserVariable struct { Name string key string } // A unique identifier for this resource. func (r *Resource) Id() string { return fmt.Sprintf("%s.%s", r.Type, r.Name) } // ResourceGraph returns a dependency graph of the resources from this // Terraform configuration. func (c *Config) ResourceGraph() *depgraph.Graph { nouns := make(map[string]*depgraph.Noun) for _, r := range c.Resources { noun := &depgraph.Noun{ Name: r.Id(), Meta: r, } nouns[noun.Name] = noun } for _, noun := range nouns { r := noun.Meta.(*Resource) for _, v := range r.Variables { // Only resource variables impose dependencies rv, ok := v.(*ResourceVariable) if !ok { continue } // Build the dependency dep := &depgraph.Dependency{ Name: rv.ResourceId(), Source: noun, Target: nouns[rv.ResourceId()], } noun.Deps = append(noun.Deps, dep) } } // Create the list of nouns that the depgraph.Graph struct expects nounsList := make([]*depgraph.Noun, 0, len(nouns)) for _, n := range nouns { nounsList = append(nounsList, n) } // Create a root that just depends on everything else finishing. root := &depgraph.Noun{Name: "root"} for _, n := range nounsList { root.Deps = append(root.Deps, &depgraph.Dependency{ Name: n.Name, Source: root, Target: n, }) } nounsList = append(nounsList, root) return &depgraph.Graph{ Name: "resources", Nouns: nounsList, } } func NewResourceVariable(key string) (*ResourceVariable, error) { parts := strings.SplitN(key, ".", 3) return &ResourceVariable{ Type: parts[0], Name: parts[1], Field: parts[2], key: key, }, nil } func (v *ResourceVariable) ResourceId() string { return fmt.Sprintf("%s.%s", v.Type, v.Name) } func (v *ResourceVariable) FullKey() string { return v.key } func NewUserVariable(key string) (*UserVariable, error) { name := key[len("var."):] return &UserVariable{ key: key, Name: name, }, nil } func (v *UserVariable) FullKey() string { return v.key }