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https://github.com/opentofu/opentofu.git
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538302f143
For example: A => B => C (modules). If A depends on module B, then it also must depend on everything in module C.
303 lines
7.9 KiB
Go
303 lines
7.9 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"strings"
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"github.com/hashicorp/terraform/config"
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"github.com/hashicorp/terraform/dag"
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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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// ReferenceableName is the name by which this can be referenced.
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// This can be either just the type, or include the field. Example:
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// "aws_instance.bar" or "aws_instance.bar.id".
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ReferenceableName() []string
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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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// References are the list of things that this node references. This
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// can include fields or just the type, just like GraphNodeReferenceable
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// above.
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References() []string
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}
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// GraphNodeReferenceGlobal is an interface that can optionally be
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// implemented. If ReferenceGlobal returns true, then the References()
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// and ReferenceableName() must be _fully qualified_ with "module.foo.bar"
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// etc.
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//
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// This allows a node to reference and be referenced by a specific name
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// that may cross module boundaries. This can be very dangerous so use
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// this wisely.
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//
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// The primary use case for this is module boundaries (variables coming in).
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type GraphNodeReferenceGlobal interface {
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// Set to true to signal that references and name are fully
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// qualified. See the above docs for more information.
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ReferenceGlobal() bool
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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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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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g.Connect(dag.BasicEdge(v, parent))
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}
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}
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return nil
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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.
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type ReferenceMap struct {
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// m is the mapping of referenceable name to list of verticies that
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// implement that name. This is built on initialization.
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references map[string][]dag.Vertex
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referencedBy map[string][]dag.Vertex
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}
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// References returns the list of vertices that this vertex
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// references along with any missing references.
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func (m *ReferenceMap) References(v dag.Vertex) ([]dag.Vertex, []string) {
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rn, ok := v.(GraphNodeReferencer)
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if !ok {
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return nil, nil
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}
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var matches []dag.Vertex
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var missing []string
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prefix := m.prefix(v)
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for _, ns := range rn.References() {
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found := false
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for _, n := range strings.Split(ns, "/") {
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n = prefix + n
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parents, ok := m.references[n]
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if !ok {
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continue
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}
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// Mark that we found a match
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found = true
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// Make sure this isn't a self reference, which isn't included
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selfRef := false
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for _, p := range parents {
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if p == v {
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selfRef = true
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break
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}
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}
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if selfRef {
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continue
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}
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matches = append(matches, parents...)
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break
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}
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if !found {
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missing = append(missing, ns)
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}
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}
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return matches, missing
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}
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// ReferencedBy returns the list of vertices that reference the
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// vertex passed in.
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func (m *ReferenceMap) ReferencedBy(v dag.Vertex) []dag.Vertex {
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rn, ok := v.(GraphNodeReferenceable)
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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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prefix := m.prefix(v)
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for _, n := range rn.ReferenceableName() {
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n = prefix + n
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children, ok := m.referencedBy[n]
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if !ok {
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continue
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}
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// Make sure this isn't a self reference, which isn't included
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selfRef := false
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for _, p := range children {
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if p == v {
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selfRef = true
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break
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}
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}
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if selfRef {
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continue
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}
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matches = append(matches, children...)
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}
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return matches
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}
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func (m *ReferenceMap) prefix(v dag.Vertex) string {
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// If the node is stating it is already fully qualified then
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// we don't have to create the prefix!
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if gn, ok := v.(GraphNodeReferenceGlobal); ok && gn.ReferenceGlobal() {
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return ""
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}
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// Create the prefix based on the path
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var prefix string
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if pn, ok := v.(GraphNodeSubPath); ok {
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if path := normalizeModulePath(pn.Path()); len(path) > 1 {
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prefix = modulePrefixStr(path) + "."
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}
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}
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return prefix
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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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var m ReferenceMap
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// Build the lookup table
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refMap := make(map[string][]dag.Vertex)
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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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// Go through and cache them
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prefix := m.prefix(v)
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for _, n := range rn.ReferenceableName() {
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n = prefix + n
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refMap[n] = append(refMap[n], v)
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}
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// If there is a path, it is always referenceable by that. For
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// example, if this is a referenceable thing at path []string{"foo"},
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// then it can be referenced at "module.foo"
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if pn, ok := v.(GraphNodeSubPath); ok {
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for _, p := range ReferenceModulePath(pn.Path()) {
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refMap[p] = append(refMap[p], v)
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}
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}
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}
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// Build the lookup table for referenced by
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refByMap := make(map[string][]dag.Vertex)
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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.(GraphNodeReferencer)
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if !ok {
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continue
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}
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// Go through and cache them
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prefix := m.prefix(v)
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for _, n := range rn.References() {
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n = prefix + n
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refByMap[n] = append(refByMap[n], v)
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}
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}
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m.references = refMap
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m.referencedBy = refByMap
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return &m
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}
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// Returns the reference name for a module path. The path "foo" would return
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// "module.foo". If this is a deeply nested module, it will be every parent
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// as well. For example: ["foo", "bar"] would return both "module.foo" and
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// "module.foo.module.bar"
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func ReferenceModulePath(p []string) []string {
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p = normalizeModulePath(p)
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if len(p) == 1 {
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// Root, no name
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return nil
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}
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result := make([]string, 0, len(p)-1)
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for i := len(p); i > 1; i-- {
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result = append(result, modulePrefixStr(p[:i]))
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}
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return result
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}
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// ReferencesFromConfig returns the references that a configuration has
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// based on the interpolated variables in a configuration.
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func ReferencesFromConfig(c *config.RawConfig) []string {
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var result []string
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for _, v := range c.Variables {
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if r := ReferenceFromInterpolatedVar(v); len(r) > 0 {
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result = append(result, r...)
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}
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}
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return result
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}
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// ReferenceFromInterpolatedVar returns the reference from this variable,
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// or an empty string if there is no reference.
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func ReferenceFromInterpolatedVar(v config.InterpolatedVariable) []string {
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switch v := v.(type) {
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case *config.ModuleVariable:
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return []string{fmt.Sprintf("module.%s.output.%s", v.Name, v.Field)}
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case *config.ResourceVariable:
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id := v.ResourceId()
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// If we have a multi-reference (splat), then we depend on ALL
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// resources with this type/name.
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if v.Multi && v.Index == -1 {
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return []string{fmt.Sprintf("%s.*", id)}
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}
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// Otherwise, we depend on a specific index.
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idx := v.Index
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if !v.Multi || v.Index == -1 {
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idx = 0
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}
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// Depend on the index, as well as "N" which represents the
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// un-expanded set of resources.
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return []string{fmt.Sprintf("%s.%d/%s.N", id, idx, id)}
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case *config.UserVariable:
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return []string{fmt.Sprintf("var.%s", v.Name)}
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default:
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return nil
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}
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}
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