package terraform import ( "fmt" "github.com/hashicorp/hcl/v2/hclsyntax" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/tfdiags" "github.com/zclconf/go-cty/cty" "github.com/hashicorp/hcl/v2" "github.com/hashicorp/terraform/configs" ) // ModuleVariableTransformer is a GraphTransformer that adds all the variables // in the configuration to the graph. // // Any "variable" block present in any non-root module is included here, even // if a particular variable is not referenced from anywhere. // // The transform will produce errors if a call to a module does not conform // to the expected set of arguments, but this transformer is not in a good // position to return errors and so the validate walk should include specific // steps for validating module blocks, separate from this transform. type ModuleVariableTransformer struct { Config *configs.Config } func (t *ModuleVariableTransformer) Transform(g *Graph) error { return t.transform(g, nil, t.Config) } func (t *ModuleVariableTransformer) transform(g *Graph, parent, c *configs.Config) error { // We can have no variables if we have no configuration. if c == nil { return nil } // Transform all the children first. for _, cc := range c.Children { if err := t.transform(g, c, cc); err != nil { return err } } // If we're processing anything other than the root module then we'll // add graph nodes for variables defined inside. (Variables for the root // module are dealt with in RootVariableTransformer). // If we have a parent, we can determine if a module variable is being // used, so we transform this. if parent != nil { if err := t.transformSingle(g, parent, c); err != nil { return err } } return nil } func (t *ModuleVariableTransformer) transformSingle(g *Graph, parent, c *configs.Config) error { _, call := c.Path.Call() // Find the call in the parent module configuration, so we can get the // expressions given for each input variable at the call site. callConfig, exists := parent.Module.ModuleCalls[call.Name] if !exists { // This should never happen, since it indicates an improperly-constructed // configuration tree. panic(fmt.Errorf("no module call block found for %s", c.Path)) } // We need to construct a schema for the expected call arguments based on // the configured variables in our config, which we can then use to // decode the content of the call block. schema := &hcl.BodySchema{} for _, v := range c.Module.Variables { schema.Attributes = append(schema.Attributes, hcl.AttributeSchema{ Name: v.Name, Required: v.Default == cty.NilVal, }) } content, contentDiags := callConfig.Config.Content(schema) if contentDiags.HasErrors() { // Validation code elsewhere should deal with any errors before we // get in here, but we'll report them out here just in case, to // avoid crashes. var diags tfdiags.Diagnostics diags = diags.Append(contentDiags) return diags.Err() } for _, v := range c.Module.Variables { var expr hcl.Expression if attr := content.Attributes[v.Name]; attr != nil { expr = attr.Expr } else { // No expression provided for this variable, so we'll make a // synthetic one using the variable's default value. expr = &hclsyntax.LiteralValueExpr{ Val: v.Default, SrcRange: v.DeclRange, // This is not exact, but close enough } } // Add a plannable node, as the variable may expand // during module expansion node := &nodeExpandModuleVariable{ Addr: addrs.InputVariable{ Name: v.Name, }, Module: c.Path, Config: v, Expr: expr, } g.Add(node) } return nil }