mirror of
https://github.com/opentofu/opentofu.git
synced 2024-12-27 09:21:14 -06:00
541 lines
17 KiB
Go
541 lines
17 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"sort"
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"github.com/hashicorp/hcl/v2"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/configs/configschema"
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"github.com/hashicorp/terraform/dag"
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"github.com/hashicorp/terraform/lang"
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)
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// GraphNodeReferenceable must be implemented by any node that represents
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// a Terraform thing that can be referenced (resource, module, etc.).
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//
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// Even if the thing has no name, this should return an empty list. By
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// implementing this and returning a non-nil result, you say that this CAN
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// be referenced and other methods of referencing may still be possible (such
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// as by path!)
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type GraphNodeReferenceable interface {
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GraphNodeModulePath
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// ReferenceableAddrs returns a list of addresses through which this can be
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// referenced.
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ReferenceableAddrs() []addrs.Referenceable
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}
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// GraphNodeReferencer must be implemented by nodes that reference other
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// Terraform items and therefore depend on them.
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type GraphNodeReferencer interface {
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GraphNodeModulePath
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// References returns a list of references made by this node, which
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// include both a referenced address and source location information for
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// the reference.
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References() []*addrs.Reference
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}
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type GraphNodeAttachDependencies interface {
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GraphNodeConfigResource
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AttachDependencies([]addrs.ConfigResource)
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}
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// graphNodeDependsOn is implemented by resources that need to expose any
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// references set via DependsOn in their configuration.
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type graphNodeDependsOn interface {
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GraphNodeReferencer
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DependsOn() []*addrs.Reference
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}
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// graphNodeAttachResourceDependencies records all resources that are transitively
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// referenced through depends_on in the configuration. This is used by data
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// resources to determine if they can be read during the plan, or if they need
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// to be further delayed until apply.
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// We can only use an addrs.ConfigResource address here, because modules are
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// not yet expended in the graph. While this will cause some extra data
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// resources to show in the plan when their depends_on references may be in
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// unrelated module instances, the fact that it only happens when there are any
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// resource updates pending means we can still avoid the problem of the
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// "perpetual diff"
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type graphNodeAttachResourceDependencies interface {
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GraphNodeConfigResource
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graphNodeDependsOn
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// AttachResourceDependencies stored the discovered dependencies in the
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// resource node for evaluation later.
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//
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// The force parameter indicates that even if there are no dependencies,
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// force the data source to act as though there are for refresh purposes.
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// This is needed because yet-to-be-created resources won't be in the
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// initial refresh graph, but may still be referenced through depends_on.
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AttachResourceDependencies(deps []addrs.ConfigResource, force bool)
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}
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// GraphNodeReferenceOutside is an interface that can optionally be implemented.
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// A node that implements it can specify that its own referenceable addresses
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// and/or the addresses it references are in a different module than the
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// node itself.
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//
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// Any referenceable addresses returned by ReferenceableAddrs are interpreted
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// relative to the returned selfPath.
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//
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// Any references returned by References are interpreted relative to the
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// returned referencePath.
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//
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// It is valid but not required for either of these paths to match what is
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// returned by method Path, though if both match the main Path then there
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// is no reason to implement this method.
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//
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// The primary use-case for this is the nodes representing module input
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// variables, since their expressions are resolved in terms of their calling
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// module, but they are still referenced from their own module.
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type GraphNodeReferenceOutside interface {
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// ReferenceOutside returns a path in which any references from this node
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// are resolved.
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ReferenceOutside() (selfPath, referencePath addrs.Module)
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}
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// ReferenceTransformer is a GraphTransformer that connects all the
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// nodes that reference each other in order to form the proper ordering.
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type ReferenceTransformer struct{}
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func (t *ReferenceTransformer) Transform(g *Graph) error {
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// Build a reference map so we can efficiently look up the references
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vs := g.Vertices()
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m := NewReferenceMap(vs)
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// Find the things that reference things and connect them
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for _, v := range vs {
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if _, ok := v.(GraphNodeDestroyer); ok {
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// destroy nodes references are not connected, since they can only
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// use their own state.
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continue
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}
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parents := m.References(v)
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parentsDbg := make([]string, len(parents))
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for i, v := range parents {
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parentsDbg[i] = dag.VertexName(v)
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}
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log.Printf(
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"[DEBUG] ReferenceTransformer: %q references: %v",
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dag.VertexName(v), parentsDbg)
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for _, parent := range parents {
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if !graphNodesAreResourceInstancesInDifferentInstancesOfSameModule(v, parent) {
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g.Connect(dag.BasicEdge(v, parent))
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} else {
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log.Printf("[TRACE] ReferenceTransformer: skipping %s => %s inter-module-instance dependency", v, parent)
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}
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}
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if len(parents) > 0 {
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continue
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}
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}
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return nil
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}
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type depMap map[string]addrs.ConfigResource
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// add stores the vertex if it represents a resource in the
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// graph.
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func (m depMap) add(v dag.Vertex) {
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// we're only concerned with resources which may have changes that
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// need to be applied.
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switch v := v.(type) {
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case GraphNodeResourceInstance:
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instAddr := v.ResourceInstanceAddr()
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addr := instAddr.ContainingResource().Config()
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m[addr.String()] = addr
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case GraphNodeConfigResource:
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addr := v.ResourceAddr()
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m[addr.String()] = addr
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}
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}
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// attachDataResourceDependenciesTransformer records all resources transitively referenced
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// through a configuration depends_on.
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type attachDataResourceDependenciesTransformer struct {
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}
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func (t attachDataResourceDependenciesTransformer) Transform(g *Graph) error {
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// First we need to make a map of referenceable addresses to their vertices.
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// This is very similar to what's done in ReferenceTransformer, but we keep
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// implementation separate as they may need to change independently.
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vertices := g.Vertices()
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refMap := NewReferenceMap(vertices)
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for _, v := range vertices {
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depender, ok := v.(graphNodeAttachResourceDependencies)
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if !ok {
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continue
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}
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// Only data need to attach depends_on, so they can determine if they
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// are eligible to be read during plan.
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if depender.ResourceAddr().Resource.Mode != addrs.DataResourceMode {
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continue
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}
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// depMap will only add resource references then dedupe
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deps := make(depMap)
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dependsOnDeps, fromModule := refMap.dependsOn(g, depender)
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for _, dep := range dependsOnDeps {
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// any the dependency
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deps.add(dep)
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}
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res := make([]addrs.ConfigResource, 0, len(deps))
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for _, d := range deps {
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res = append(res, d)
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}
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log.Printf("[TRACE] attachDataDependenciesTransformer: %s depends on %s", depender.ResourceAddr(), res)
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depender.AttachResourceDependencies(res, fromModule)
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}
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return nil
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}
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// AttachDependenciesTransformer records all resource dependencies for each
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// instance, and attaches the addresses to the node itself. Managed resource
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// will record these in the state for proper ordering of destroy operations.
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type AttachDependenciesTransformer struct {
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}
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func (t AttachDependenciesTransformer) Transform(g *Graph) error {
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for _, v := range g.Vertices() {
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attacher, ok := v.(GraphNodeAttachDependencies)
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if !ok {
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continue
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}
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selfAddr := attacher.ResourceAddr()
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ans, err := g.Ancestors(v)
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if err != nil {
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return err
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}
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// dedupe addrs when there's multiple instances involved, or
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// multiple paths in the un-reduced graph
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depMap := map[string]addrs.ConfigResource{}
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for _, d := range ans {
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var addr addrs.ConfigResource
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switch d := d.(type) {
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case GraphNodeResourceInstance:
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instAddr := d.ResourceInstanceAddr()
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addr = instAddr.ContainingResource().Config()
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case GraphNodeConfigResource:
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addr = d.ResourceAddr()
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default:
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continue
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}
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if addr.Equal(selfAddr) {
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continue
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}
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depMap[addr.String()] = addr
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}
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deps := make([]addrs.ConfigResource, 0, len(depMap))
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for _, d := range depMap {
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deps = append(deps, d)
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}
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sort.Slice(deps, func(i, j int) bool {
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return deps[i].String() < deps[j].String()
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})
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log.Printf("[TRACE] AttachDependenciesTransformer: %s depends on %s", attacher.ResourceAddr(), deps)
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attacher.AttachDependencies(deps)
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}
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return nil
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}
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func isDependableResource(v dag.Vertex) bool {
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switch v.(type) {
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case GraphNodeResourceInstance:
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return true
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case GraphNodeConfigResource:
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return true
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}
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return false
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}
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// ReferenceMap is a structure that can be used to efficiently check
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// for references on a graph, mapping internal reference keys (as produced by
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// the mapKey method) to one or more vertices that are identified by each key.
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type ReferenceMap map[string][]dag.Vertex
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// References returns the set of vertices that the given vertex refers to,
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// and any referenced addresses that do not have corresponding vertices.
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func (m ReferenceMap) References(v dag.Vertex) []dag.Vertex {
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rn, ok := v.(GraphNodeReferencer)
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if !ok {
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return nil
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}
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var matches []dag.Vertex
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for _, ref := range rn.References() {
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subject := ref.Subject
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key := m.referenceMapKey(v, subject)
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if _, exists := m[key]; !exists {
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// If what we were looking for was a ResourceInstance then we
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// might be in a resource-oriented graph rather than an
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// instance-oriented graph, and so we'll see if we have the
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// resource itself instead.
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switch ri := subject.(type) {
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case addrs.ResourceInstance:
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subject = ri.ContainingResource()
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case addrs.ResourceInstancePhase:
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subject = ri.ContainingResource()
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case addrs.AbsModuleCallOutput:
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subject = ri.ModuleCallOutput()
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case addrs.ModuleCallInstance:
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subject = ri.Call
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default:
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log.Printf("[INFO] ReferenceTransformer: reference not found: %q", subject)
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continue
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}
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key = m.referenceMapKey(v, subject)
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}
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vertices := m[key]
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for _, rv := range vertices {
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// don't include self-references
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if rv == v {
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continue
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}
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matches = append(matches, rv)
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}
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}
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return matches
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}
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// dependsOn returns the set of vertices that the given vertex refers to from
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// the configured depends_on. The bool return value indicates if depends_on was
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// found in a parent module configuration.
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func (m ReferenceMap) dependsOn(g *Graph, depender graphNodeDependsOn) ([]dag.Vertex, bool) {
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var res []dag.Vertex
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fromModule := false
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refs := depender.DependsOn()
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// get any implied dependencies for data sources
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refs = append(refs, m.dataDependsOn(depender)...)
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// This is where we record that a module has depends_on configured.
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if _, ok := depender.(*nodeExpandModule); ok && len(refs) > 0 {
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fromModule = true
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}
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for _, ref := range refs {
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subject := ref.Subject
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key := m.referenceMapKey(depender, subject)
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vertices, ok := m[key]
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if !ok {
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// the ReferenceMap generates all possible keys, so any warning
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// here is probably not useful for this implementation.
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continue
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}
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for _, rv := range vertices {
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// don't include self-references
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if rv == depender {
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continue
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}
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res = append(res, rv)
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// and check any ancestors for transitive dependencies
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ans, _ := g.Ancestors(rv)
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for _, v := range ans {
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if isDependableResource(v) {
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res = append(res, v)
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}
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}
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}
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}
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parentDeps, fromParentModule := m.parentModuleDependsOn(g, depender)
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res = append(res, parentDeps...)
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return res, fromModule || fromParentModule
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}
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// Return extra depends_on references if this is a data source.
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// For data sources we implicitly treat references to managed resources as
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// depends_on entries. If a data source references a managed resource, even if
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// that reference is resolvable, it stands to reason that the user intends for
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// the data source to require that resource in some way.
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func (m ReferenceMap) dataDependsOn(depender graphNodeDependsOn) []*addrs.Reference {
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var refs []*addrs.Reference
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if n, ok := depender.(GraphNodeConfigResource); ok &&
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n.ResourceAddr().Resource.Mode == addrs.DataResourceMode {
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for _, r := range depender.References() {
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var resAddr addrs.Resource
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switch s := r.Subject.(type) {
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case addrs.Resource:
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resAddr = s
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case addrs.ResourceInstance:
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resAddr = s.Resource
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r.Subject = resAddr
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}
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if resAddr.Mode != addrs.ManagedResourceMode {
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// We only want to wait on directly referenced managed resources.
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// Data sources have no external side effects, so normal
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// references to them in the config will suffice for proper
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// ordering.
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continue
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}
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refs = append(refs, r)
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}
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}
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return refs
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}
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// parentModuleDependsOn returns the set of vertices that a data sources parent
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// module references through the module call's depends_on. The bool return
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// value indicates if depends_on was found in a parent module configuration.
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func (m ReferenceMap) parentModuleDependsOn(g *Graph, depender graphNodeDependsOn) ([]dag.Vertex, bool) {
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var res []dag.Vertex
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fromModule := false
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// Look for containing modules with DependsOn.
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// This should be connected directly to the module node, so we only need to
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// look one step away.
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for _, v := range g.DownEdges(depender) {
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// we're only concerned with module expansion nodes here.
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mod, ok := v.(*nodeExpandModule)
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if !ok {
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continue
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}
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deps, fromParentModule := m.dependsOn(g, mod)
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for _, dep := range deps {
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// add the dependency
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res = append(res, dep)
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// and check any transitive resource dependencies for more resources
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ans, _ := g.Ancestors(dep)
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for _, v := range ans {
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if isDependableResource(v) {
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res = append(res, v)
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}
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}
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}
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fromModule = fromModule || fromParentModule
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}
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return res, fromModule
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}
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func (m *ReferenceMap) mapKey(path addrs.Module, addr addrs.Referenceable) string {
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return fmt.Sprintf("%s|%s", path.String(), addr.String())
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}
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|
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// vertexReferenceablePath returns the path in which the given vertex can be
|
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// referenced. This is the path that its results from ReferenceableAddrs
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// are considered to be relative to.
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//
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// Only GraphNodeModulePath implementations can be referenced, so this method will
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// panic if the given vertex does not implement that interface.
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func vertexReferenceablePath(v dag.Vertex) addrs.Module {
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sp, ok := v.(GraphNodeModulePath)
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if !ok {
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// Only nodes with paths can participate in a reference map.
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panic(fmt.Errorf("vertexMapKey on vertex type %T which doesn't implement GraphNodeModulePath", sp))
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}
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if outside, ok := v.(GraphNodeReferenceOutside); ok {
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// Vertex is referenced from a different module than where it was
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// declared.
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path, _ := outside.ReferenceOutside()
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return path
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}
|
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|
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// Vertex is referenced from the same module as where it was declared.
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return sp.ModulePath()
|
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}
|
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|
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// vertexReferencePath returns the path in which references _from_ the given
|
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// vertex must be interpreted.
|
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//
|
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// Only GraphNodeModulePath implementations can have references, so this method
|
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// will panic if the given vertex does not implement that interface.
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func vertexReferencePath(v dag.Vertex) addrs.Module {
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sp, ok := v.(GraphNodeModulePath)
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if !ok {
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// Only nodes with paths can participate in a reference map.
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panic(fmt.Errorf("vertexReferencePath on vertex type %T which doesn't implement GraphNodeModulePath", v))
|
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}
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|
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if outside, ok := v.(GraphNodeReferenceOutside); ok {
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// Vertex makes references to objects in a different module than where
|
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// it was declared.
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_, path := outside.ReferenceOutside()
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return path
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}
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|
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// Vertex makes references to objects in the same module as where it
|
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// was declared.
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return sp.ModulePath()
|
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}
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|
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// referenceMapKey produces keys for the "edges" map. "referrer" is the vertex
|
|
// that the reference is from, and "addr" is the address of the object being
|
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// referenced.
|
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//
|
|
// The result is an opaque string that includes both the address of the given
|
|
// object and the address of the module instance that object belongs to.
|
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//
|
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// Only GraphNodeModulePath implementations can be referrers, so this method will
|
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// panic if the given vertex does not implement that interface.
|
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func (m *ReferenceMap) referenceMapKey(referrer dag.Vertex, addr addrs.Referenceable) string {
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path := vertexReferencePath(referrer)
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return m.mapKey(path, addr)
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}
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|
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// NewReferenceMap is used to create a new reference map for the
|
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// given set of vertices.
|
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func NewReferenceMap(vs []dag.Vertex) ReferenceMap {
|
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// Build the lookup table
|
|
m := make(ReferenceMap)
|
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for _, v := range vs {
|
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// We're only looking for referenceable nodes
|
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rn, ok := v.(GraphNodeReferenceable)
|
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if !ok {
|
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continue
|
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}
|
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|
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path := vertexReferenceablePath(v)
|
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|
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// Go through and cache them
|
|
for _, addr := range rn.ReferenceableAddrs() {
|
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key := m.mapKey(path, addr)
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m[key] = append(m[key], v)
|
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}
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}
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|
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return m
|
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}
|
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|
|
// ReferencesFromConfig returns the references that a configuration has
|
|
// based on the interpolated variables in a configuration.
|
|
func ReferencesFromConfig(body hcl.Body, schema *configschema.Block) []*addrs.Reference {
|
|
if body == nil {
|
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return nil
|
|
}
|
|
refs, _ := lang.ReferencesInBlock(body, schema)
|
|
return refs
|
|
}
|