374 lines
10 KiB
Go
374 lines
10 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/go-multierror"
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"github.com/hashicorp/terraform/dag"
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)
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// GraphNodeProvider is an interface that nodes that can be a provider
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// must implement. The ProviderName returned is the name of the provider
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// they satisfy.
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type GraphNodeProvider interface {
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ProviderName() string
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}
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// GraphNodeCloseProvider is an interface that nodes that can be a close
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// provider must implement. The CloseProviderName returned is the name of
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// the provider they satisfy.
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type GraphNodeCloseProvider interface {
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CloseProviderName() string
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}
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// GraphNodeProviderConsumer is an interface that nodes that require
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// a provider must implement. ProvidedBy must return the name of the provider
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// to use.
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type GraphNodeProviderConsumer interface {
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ProvidedBy() []string
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}
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// ProviderTransformer is a GraphTransformer that maps resources to
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// providers within the graph. This will error if there are any resources
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// that don't map to proper resources.
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type ProviderTransformer struct{}
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func (t *ProviderTransformer) Transform(g *Graph) error {
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// Go through the other nodes and match them to providers they need
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var err error
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m := providerVertexMap(g)
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeProviderConsumer); ok {
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for _, p := range pv.ProvidedBy() {
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target := m[providerMapKey(p, pv)]
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if target == nil {
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println(fmt.Sprintf("%#v\n\n%#v", m, providerMapKey(p, pv)))
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err = multierror.Append(err, fmt.Errorf(
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"%s: provider %s couldn't be found",
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dag.VertexName(v), p))
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continue
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}
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g.Connect(dag.BasicEdge(v, target))
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}
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}
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}
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return err
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}
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// CloseProviderTransformer is a GraphTransformer that adds nodes to the
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// graph that will close open provider connections that aren't needed anymore.
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// A provider connection is not needed anymore once all depended resources
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// in the graph are evaluated.
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type CloseProviderTransformer struct{}
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func (t *CloseProviderTransformer) Transform(g *Graph) error {
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pm := providerVertexMap(g)
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cpm := closeProviderVertexMap(g)
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var err error
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeProviderConsumer); ok {
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for _, p := range pv.ProvidedBy() {
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key := p
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source := cpm[key]
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if source == nil {
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// Create a new graphNodeCloseProvider and add it to the graph
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source = &graphNodeCloseProvider{ProviderNameValue: p}
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g.Add(source)
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// Close node needs to depend on provider
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provider, ok := pm[key]
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if !ok {
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err = multierror.Append(err, fmt.Errorf(
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"%s: provider %s couldn't be found for closing",
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dag.VertexName(v), p))
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continue
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}
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g.Connect(dag.BasicEdge(source, provider))
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// Make sure we also add the new graphNodeCloseProvider to the map
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// so we don't create and add any duplicate graphNodeCloseProviders.
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cpm[key] = source
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}
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// Close node depends on all nodes provided by the provider
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g.Connect(dag.BasicEdge(source, v))
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}
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}
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}
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return err
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}
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// MissingProviderTransformer is a GraphTransformer that adds nodes
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// for missing providers into the graph. Specifically, it creates provider
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// configuration nodes for all the providers that we support. These are
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// pruned later during an optimization pass.
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type MissingProviderTransformer struct {
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// Providers is the list of providers we support.
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Providers []string
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// AllowAny will not check that a provider is supported before adding
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// it to the graph.
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AllowAny bool
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// Concrete, if set, overrides how the providers are made.
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Concrete ConcreteProviderNodeFunc
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}
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func (t *MissingProviderTransformer) Transform(g *Graph) error {
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// Initialize factory
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if t.Concrete == nil {
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t.Concrete = func(a *NodeAbstractProvider) dag.Vertex {
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return a
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}
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}
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// Create a set of our supported providers
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supported := make(map[string]struct{}, len(t.Providers))
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for _, v := range t.Providers {
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supported[v] = struct{}{}
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}
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// Get the map of providers we already have in our graph
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m := providerVertexMap(g)
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// Go through all the provider consumers and make sure we add
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// that provider if it is missing. We use a for loop here instead
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// of "range" since we'll modify check as we go to add more to check.
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check := g.Vertices()
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for i := 0; i < len(check); i++ {
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v := check[i]
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pv, ok := v.(GraphNodeProviderConsumer)
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if !ok {
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continue
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}
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// If this node has a subpath, then we use that as a prefix
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// into our map to check for an existing provider.
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var path []string
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if sp, ok := pv.(GraphNodeSubPath); ok {
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raw := normalizeModulePath(sp.Path())
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if len(raw) > len(rootModulePath) {
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path = raw
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}
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}
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for _, p := range pv.ProvidedBy() {
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key := providerMapKey(p, pv)
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if _, ok := m[key]; ok {
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// This provider already exists as a configure node
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continue
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}
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// If the provider has an alias in it, we just want the type
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ptype := p
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if idx := strings.IndexRune(p, '.'); idx != -1 {
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ptype = p[:idx]
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}
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if !t.AllowAny {
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if _, ok := supported[ptype]; !ok {
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// If we don't support the provider type, skip it.
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// Validation later will catch this as an error.
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continue
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}
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}
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// Add the missing provider node to the graph
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v := t.Concrete(&NodeAbstractProvider{
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NameValue: p,
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PathValue: path,
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}).(dag.Vertex)
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if len(path) > 0 {
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// We'll need the parent provider as well, so let's
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// add a dummy node to check to make sure that we add
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// that parent provider.
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check = append(check, &graphNodeProviderConsumerDummy{
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ProviderValue: p,
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PathValue: path[:len(path)-1],
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})
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}
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m[key] = g.Add(v)
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}
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}
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return nil
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}
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// ParentProviderTransformer connects provider nodes to their parents.
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//
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// This works by finding nodes that are both GraphNodeProviders and
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// GraphNodeSubPath. It then connects the providers to their parent
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// path.
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type ParentProviderTransformer struct{}
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func (t *ParentProviderTransformer) Transform(g *Graph) error {
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// Make a mapping of path to dag.Vertex, where path is: "path.name"
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m := make(map[string]dag.Vertex)
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// Also create a map that maps a provider to its parent
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parentMap := make(map[dag.Vertex]string)
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for _, raw := range g.Vertices() {
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// If it is the flat version, then make it the non-flat version.
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// We eventually want to get rid of the flat version entirely so
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// this is a stop-gap while it still exists.
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var v dag.Vertex = raw
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// Only care about providers
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pn, ok := v.(GraphNodeProvider)
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if !ok || pn.ProviderName() == "" {
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continue
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}
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// Also require a subpath, if there is no subpath then we
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// just totally ignore it. The expectation of this transform is
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// that it is used with a graph builder that is already flattened.
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var path []string
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if pn, ok := raw.(GraphNodeSubPath); ok {
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path = pn.Path()
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}
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path = normalizeModulePath(path)
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// Build the key with path.name i.e. "child.subchild.aws"
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key := fmt.Sprintf("%s.%s", strings.Join(path, "."), pn.ProviderName())
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m[key] = raw
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// Determine the parent if we're non-root. This is length 1 since
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// the 0 index should be "root" since we normalize above.
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if len(path) > 1 {
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path = path[:len(path)-1]
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key := fmt.Sprintf("%s.%s", strings.Join(path, "."), pn.ProviderName())
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parentMap[raw] = key
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}
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}
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// Connect!
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for v, key := range parentMap {
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if parent, ok := m[key]; ok {
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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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// PruneProviderTransformer is a GraphTransformer that prunes all the
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// providers that aren't needed from the graph. A provider is unneeded if
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// no resource or module is using that provider.
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type PruneProviderTransformer struct{}
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func (t *PruneProviderTransformer) Transform(g *Graph) error {
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for _, v := range g.Vertices() {
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// We only care about the providers
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if pn, ok := v.(GraphNodeProvider); !ok || pn.ProviderName() == "" {
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continue
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}
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// Does anything depend on this? If not, then prune it.
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if s := g.UpEdges(v); s.Len() == 0 {
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if nv, ok := v.(dag.NamedVertex); ok {
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log.Printf("[DEBUG] Pruning provider with no dependencies: %s", nv.Name())
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}
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g.Remove(v)
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}
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}
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return nil
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}
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// providerMapKey is a helper that gives us the key to use for the
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// maps returned by things such as providerVertexMap.
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func providerMapKey(k string, v dag.Vertex) string {
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pathPrefix := ""
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if sp, ok := v.(GraphNodeSubPath); ok {
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raw := normalizeModulePath(sp.Path())
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if len(raw) > len(rootModulePath) {
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pathPrefix = modulePrefixStr(raw) + "."
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}
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}
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return pathPrefix + k
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}
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func providerVertexMap(g *Graph) map[string]dag.Vertex {
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m := make(map[string]dag.Vertex)
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeProvider); ok {
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key := providerMapKey(pv.ProviderName(), v)
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m[key] = v
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}
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}
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return m
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}
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func closeProviderVertexMap(g *Graph) map[string]dag.Vertex {
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m := make(map[string]dag.Vertex)
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for _, v := range g.Vertices() {
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if pv, ok := v.(GraphNodeCloseProvider); ok {
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m[pv.CloseProviderName()] = v
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}
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}
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return m
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}
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type graphNodeCloseProvider struct {
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ProviderNameValue string
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}
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func (n *graphNodeCloseProvider) Name() string {
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return fmt.Sprintf("provider.%s (close)", n.ProviderNameValue)
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}
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// GraphNodeEvalable impl.
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func (n *graphNodeCloseProvider) EvalTree() EvalNode {
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return CloseProviderEvalTree(n.ProviderNameValue)
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}
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// GraphNodeDependable impl.
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func (n *graphNodeCloseProvider) DependableName() []string {
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return []string{n.Name()}
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}
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func (n *graphNodeCloseProvider) CloseProviderName() string {
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return n.ProviderNameValue
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}
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// GraphNodeDotter impl.
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func (n *graphNodeCloseProvider) DotNode(name string, opts *dag.DotOpts) *dag.DotNode {
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if !opts.Verbose {
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return nil
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}
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return &dag.DotNode{
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Name: name,
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Attrs: map[string]string{
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"label": n.Name(),
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"shape": "diamond",
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},
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}
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}
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// graphNodeProviderConsumerDummy is a struct that never enters the real
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// graph (though it could to no ill effect). It implements
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// GraphNodeProviderConsumer and GraphNodeSubpath as a way to force
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// certain transformations.
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type graphNodeProviderConsumerDummy struct {
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ProviderValue string
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PathValue []string
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}
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func (n *graphNodeProviderConsumerDummy) Path() []string {
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return n.PathValue
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}
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func (n *graphNodeProviderConsumerDummy) ProvidedBy() []string {
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return []string{n.ProviderValue}
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}
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