package terraform import ( "log" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/configs" "github.com/hashicorp/terraform/dag" "github.com/hashicorp/terraform/lang" "github.com/hashicorp/terraform/tfdiags" ) type ConcreteModuleNodeFunc func(n *nodeExpandModule) dag.Vertex // nodeExpandModule represents a module call in the configuration that // might expand into multiple module instances depending on how it is // configured. type nodeExpandModule struct { Addr addrs.Module Config *configs.Module ModuleCall *configs.ModuleCall } var ( _ GraphNodeExecutable = (*nodeExpandModule)(nil) _ GraphNodeReferencer = (*nodeExpandModule)(nil) _ GraphNodeReferenceOutside = (*nodeExpandModule)(nil) _ graphNodeExpandsInstances = (*nodeExpandModule)(nil) ) func (n *nodeExpandModule) expandsInstances() {} func (n *nodeExpandModule) Name() string { return n.Addr.String() + " (expand)" } // GraphNodeModulePath implementation func (n *nodeExpandModule) ModulePath() addrs.Module { return n.Addr } // GraphNodeReferencer implementation func (n *nodeExpandModule) References() []*addrs.Reference { var refs []*addrs.Reference if n.ModuleCall == nil { return nil } refs = append(refs, n.DependsOn()...) // Expansion only uses the count and for_each expressions, so this // particular graph node only refers to those. // Individual variable values in the module call definition might also // refer to other objects, but that's handled by // NodeApplyableModuleVariable. // // Because our Path method returns the module instance that contains // our call, these references will be correctly interpreted as being // in the calling module's namespace, not the namespaces of any of the // child module instances we might expand to during our evaluation. if n.ModuleCall.Count != nil { countRefs, _ := lang.ReferencesInExpr(n.ModuleCall.Count) refs = append(refs, countRefs...) } if n.ModuleCall.ForEach != nil { forEachRefs, _ := lang.ReferencesInExpr(n.ModuleCall.ForEach) refs = append(refs, forEachRefs...) } return refs } func (n *nodeExpandModule) DependsOn() []*addrs.Reference { if n.ModuleCall == nil { return nil } var refs []*addrs.Reference for _, traversal := range n.ModuleCall.DependsOn { ref, diags := addrs.ParseRef(traversal) if diags.HasErrors() { // We ignore this here, because this isn't a suitable place to return // errors. This situation should be caught and rejected during // validation. log.Printf("[ERROR] Can't parse %#v from depends_on as reference: %s", traversal, diags.Err()) continue } refs = append(refs, ref) } return refs } // GraphNodeReferenceOutside func (n *nodeExpandModule) ReferenceOutside() (selfPath, referencePath addrs.Module) { return n.Addr, n.Addr.Parent() } // GraphNodeExecutable func (n *nodeExpandModule) Execute(ctx EvalContext, op walkOperation) (diags tfdiags.Diagnostics) { expander := ctx.InstanceExpander() _, call := n.Addr.Call() // nodeExpandModule itself does not have visibility into how its ancestors // were expanded, so we use the expander here to provide all possible paths // to our module, and register module instances with each of them. for _, module := range expander.ExpandModule(n.Addr.Parent()) { ctx = ctx.WithPath(module) switch { case n.ModuleCall.Count != nil: count, ctDiags := evaluateCountExpression(n.ModuleCall.Count, ctx) diags = diags.Append(ctDiags) if diags.HasErrors() { return diags } expander.SetModuleCount(module, call, count) case n.ModuleCall.ForEach != nil: forEach, feDiags := evaluateForEachExpression(n.ModuleCall.ForEach, ctx) diags = diags.Append(feDiags) if diags.HasErrors() { return diags } expander.SetModuleForEach(module, call, forEach) default: expander.SetModuleSingle(module, call) } } return diags } // nodeCloseModule represents an expanded module during apply, and is visited // after all other module instance nodes. This node will depend on all module // instance resource and outputs, and anything depending on the module should // wait on this node. // Besides providing a root node for dependency ordering, nodeCloseModule also // cleans up state after all the module nodes have been evaluated, removing // empty resources and modules from the state. type nodeCloseModule struct { Addr addrs.Module } var ( _ GraphNodeReferenceable = (*nodeCloseModule)(nil) _ GraphNodeReferenceOutside = (*nodeCloseModule)(nil) _ GraphNodeExecutable = (*nodeCloseModule)(nil) ) func (n *nodeCloseModule) ModulePath() addrs.Module { return n.Addr } func (n *nodeCloseModule) ReferenceOutside() (selfPath, referencePath addrs.Module) { return n.Addr.Parent(), n.Addr } func (n *nodeCloseModule) ReferenceableAddrs() []addrs.Referenceable { _, call := n.Addr.Call() return []addrs.Referenceable{ call, } } func (n *nodeCloseModule) Name() string { if len(n.Addr) == 0 { return "root" } return n.Addr.String() + " (close)" } func (n *nodeCloseModule) Execute(ctx EvalContext, op walkOperation) (diags tfdiags.Diagnostics) { switch op { case walkApply, walkDestroy: state := ctx.State().Lock() defer ctx.State().Unlock() for modKey, mod := range state.Modules { if !n.Addr.Equal(mod.Addr.Module()) { continue } // clean out any empty resources for resKey, res := range mod.Resources { if len(res.Instances) == 0 { delete(mod.Resources, resKey) } } // empty child modules are always removed if len(mod.Resources) == 0 && !mod.Addr.IsRoot() { delete(state.Modules, modKey) } } return nil default: return nil } } // nodeValidateModule wraps a nodeExpand module for validation, ensuring that // no expansion is attempted during evaluation, when count and for_each // expressions may not be known. type nodeValidateModule struct { nodeExpandModule } var _ GraphNodeExecutable = (*nodeValidateModule)(nil) // GraphNodeEvalable func (n *nodeValidateModule) Execute(ctx EvalContext, op walkOperation) (diags tfdiags.Diagnostics) { _, call := n.Addr.Call() expander := ctx.InstanceExpander() // Modules all evaluate to single instances during validation, only to // create a proper context within which to evaluate. All parent modules // will be a single instance, but still get our address in the expected // manner anyway to ensure they've been registered correctly. for _, module := range expander.ExpandModule(n.Addr.Parent()) { ctx = ctx.WithPath(module) // Validate our for_each and count expressions at a basic level // We skip validation on known, because there will be unknown values before // a full expansion, presuming these errors will be caught in later steps switch { case n.ModuleCall.Count != nil: _, countDiags := evaluateCountExpressionValue(n.ModuleCall.Count, ctx) diags = diags.Append(countDiags) case n.ModuleCall.ForEach != nil: _, forEachDiags := evaluateForEachExpressionValue(n.ModuleCall.ForEach, ctx, true) diags = diags.Append(forEachDiags) } diags = diags.Append(validateDependsOn(ctx, n.ModuleCall.DependsOn)) // now set our own mode to single expander.SetModuleSingle(module, call) } return diags }