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https://github.com/opentofu/opentofu.git
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a3403f2766
Due to how often the state and plan types are referenced throughout Terraform, there isn't a great way to switch them out gradually. As a consequence, this huge commit gets us from the old world to a _compilable_ new world, but still has a large number of known test failures due to key functionality being stubbed out. The stubs here are for anything that interacts with providers, since we now need to do the follow-up work to similarly replace the old terraform.ResourceProvider interface with its replacement in the new "providers" package. That work, along with work to fix the remaining failing tests, will follow in subsequent commits. The aim here was to replace all references to terraform.State and its downstream types with states.State, terraform.Plan with plans.Plan, state.State with statemgr.State, and switch to the new implementations of the state and plan file formats. However, due to the number of times those types are used, this also ended up affecting numerous other parts of core such as terraform.Hook, the backend.Backend interface, and most of the CLI commands. Just as with 5861dbf3fc49b19587a31816eb06f511ab861bb4 before, I apologize in advance to the person who inevitably just found this huge commit while spelunking through the commit history.
282 lines
8.8 KiB
Go
282 lines
8.8 KiB
Go
package terraform
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import (
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"log"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/states"
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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/dag"
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)
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// GraphNodeDestroyer must be implemented by nodes that destroy resources.
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type GraphNodeDestroyer interface {
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dag.Vertex
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// DestroyAddr is the address of the resource that is being
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// destroyed by this node. If this returns nil, then this node
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// is not destroying anything.
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DestroyAddr() *addrs.AbsResourceInstance
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}
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// GraphNodeCreator must be implemented by nodes that create OR update resources.
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type GraphNodeCreator interface {
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// CreateAddr is the address of the resource being created or updated
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CreateAddr() *addrs.AbsResourceInstance
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}
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// DestroyEdgeTransformer is a GraphTransformer that creates the proper
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// references for destroy resources. Destroy resources are more complex
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// in that they must be depend on the destruction of resources that
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// in turn depend on the CREATION of the node being destroy.
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//
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// That is complicated. Visually:
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//
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// B_d -> A_d -> A -> B
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//
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// Notice that A destroy depends on B destroy, while B create depends on
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// A create. They're inverted. This must be done for example because often
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// dependent resources will block parent resources from deleting. Concrete
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// example: VPC with subnets, the VPC can't be deleted while there are
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// still subnets.
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type DestroyEdgeTransformer struct {
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// These are needed to properly build the graph of dependencies
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// to determine what a destroy node depends on. Any of these can be nil.
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Config *configs.Config
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State *states.State
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// If configuration is present then Schemas is required in order to
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// obtain schema information from providers and provisioners in order
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// to properly resolve implicit dependencies.
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Schemas *Schemas
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}
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func (t *DestroyEdgeTransformer) Transform(g *Graph) error {
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// Build a map of what is being destroyed (by address string) to
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// the list of destroyers. Usually there will be at most one destroyer
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// per node, but we allow multiple if present for completeness.
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destroyers := make(map[string][]GraphNodeDestroyer)
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destroyerAddrs := make(map[string]addrs.AbsResourceInstance)
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for _, v := range g.Vertices() {
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dn, ok := v.(GraphNodeDestroyer)
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if !ok {
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continue
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}
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addrP := dn.DestroyAddr()
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if addrP == nil {
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continue
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}
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addr := *addrP
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key := addr.String()
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log.Printf("[TRACE] DestroyEdgeTransformer: %q (%T) destroys %s", dag.VertexName(dn), v, key)
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destroyers[key] = append(destroyers[key], dn)
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destroyerAddrs[key] = addr
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}
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// If we aren't destroying anything, there will be no edges to make
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// so just exit early and avoid future work.
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if len(destroyers) == 0 {
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return nil
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}
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// Go through and connect creators to destroyers. Going along with
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// our example, this makes: A_d => A
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for _, v := range g.Vertices() {
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cn, ok := v.(GraphNodeCreator)
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if !ok {
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continue
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}
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addr := cn.CreateAddr()
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if addr == nil {
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continue
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}
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key := addr.String()
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ds := destroyers[key]
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if len(ds) == 0 {
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continue
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}
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for _, d := range ds {
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// For illustrating our example
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a_d := d.(dag.Vertex)
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a := v
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log.Printf(
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"[TRACE] DestroyEdgeTransformer: connecting creator %q with destroyer %q",
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dag.VertexName(a), dag.VertexName(a_d))
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g.Connect(&DestroyEdge{S: a, T: a_d})
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// Attach the destroy node to the creator
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// There really shouldn't be more than one destroyer, but even if
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// there are, any of them will represent the correct
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// CreateBeforeDestroy status.
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if n, ok := cn.(GraphNodeAttachDestroyer); ok {
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if d, ok := d.(GraphNodeDestroyerCBD); ok {
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n.AttachDestroyNode(d)
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}
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}
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}
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}
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// This is strange but is the easiest way to get the dependencies
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// of a node that is being destroyed. We use another graph to make sure
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// the resource is in the graph and ask for references. We have to do this
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// because the node that is being destroyed may NOT be in the graph.
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//
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// Example: resource A is force new, then destroy A AND create A are
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// in the graph. BUT if resource A is just pure destroy, then only
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// destroy A is in the graph, and create A is not.
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providerFn := func(a *NodeAbstractProvider) dag.Vertex {
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return &NodeApplyableProvider{NodeAbstractProvider: a}
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}
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steps := []GraphTransformer{
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// Add the local values
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&LocalTransformer{Config: t.Config},
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// Add outputs and metadata
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&OutputTransformer{Config: t.Config},
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&AttachResourceConfigTransformer{Config: t.Config},
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&AttachStateTransformer{State: t.State},
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// Add all the variables. We can depend on resources through
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// variables due to module parameters, and we need to properly
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// determine that.
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&RootVariableTransformer{Config: t.Config},
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&ModuleVariableTransformer{Config: t.Config},
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TransformProviders(nil, providerFn, t.Config),
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// Must attach schemas before ReferenceTransformer so that we can
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// analyze the configuration to find references.
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&AttachSchemaTransformer{Schemas: t.Schemas},
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&ReferenceTransformer{},
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}
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// Go through all the nodes being destroyed and create a graph.
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// The resulting graph is only of things being CREATED. For example,
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// following our example, the resulting graph would be:
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//
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// A, B (with no edges)
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//
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var tempG Graph
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var tempDestroyed []dag.Vertex
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for d := range destroyers {
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// d is the string key for the resource being destroyed. We actually
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// want the address value, which we stashed earlier.
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addr := destroyerAddrs[d]
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// This part is a little bit weird but is the best way to
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// find the dependencies we need to: build a graph and use the
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// attach config and state transformers then ask for references.
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abstract := NewNodeAbstractResourceInstance(addr)
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tempG.Add(abstract)
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tempDestroyed = append(tempDestroyed, abstract)
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// We also add the destroy version here since the destroy can
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// depend on things that the creation doesn't (destroy provisioners).
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destroy := &NodeDestroyResourceInstance{NodeAbstractResourceInstance: abstract}
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tempG.Add(destroy)
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tempDestroyed = append(tempDestroyed, destroy)
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}
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// Run the graph transforms so we have the information we need to
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// build references.
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log.Printf("[TRACE] DestroyEdgeTransformer: constructing temporary graph for analysis of references, starting from:\n%s", tempG.StringWithNodeTypes())
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for _, s := range steps {
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log.Printf("[TRACE] DestroyEdgeTransformer: running %T on temporary graph", s)
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if err := s.Transform(&tempG); err != nil {
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log.Printf("[TRACE] DestroyEdgeTransformer: %T failed: %s", s, err)
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return err
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}
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}
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log.Printf("[TRACE] DestroyEdgeTransformer: temporary reference graph:\n%s", tempG.String())
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// Go through all the nodes in the graph and determine what they
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// depend on.
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for _, v := range tempDestroyed {
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// Find all ancestors of this to determine the edges we'll depend on
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vs, err := tempG.Ancestors(v)
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if err != nil {
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return err
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}
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refs := make([]dag.Vertex, 0, vs.Len())
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for _, raw := range vs.List() {
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refs = append(refs, raw.(dag.Vertex))
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}
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refNames := make([]string, len(refs))
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for i, ref := range refs {
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refNames[i] = dag.VertexName(ref)
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}
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log.Printf(
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"[TRACE] DestroyEdgeTransformer: creation node %q references %s",
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dag.VertexName(v), refNames)
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// If we have no references, then we won't need to do anything
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if len(refs) == 0 {
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continue
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}
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// Get the destroy node for this. In the example of our struct,
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// we are currently at B and we're looking for B_d.
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rn, ok := v.(GraphNodeResourceInstance)
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if !ok {
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log.Printf("[TRACE] DestroyEdgeTransformer: skipping %s, since it's not a resource", dag.VertexName(v))
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continue
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}
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addr := rn.ResourceInstanceAddr()
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dns := destroyers[addr.String()]
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// We have dependencies, check if any are being destroyed
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// to build the list of things that we must depend on!
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//
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// In the example of the struct, if we have:
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//
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// B_d => A_d => A => B
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//
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// Then at this point in the algorithm we started with B_d,
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// we built B (to get dependencies), and we found A. We're now looking
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// to see if A_d exists.
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var depDestroyers []dag.Vertex
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for _, v := range refs {
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rn, ok := v.(GraphNodeResourceInstance)
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if !ok {
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continue
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}
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addr := rn.ResourceInstanceAddr()
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key := addr.String()
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if ds, ok := destroyers[key]; ok {
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for _, d := range ds {
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depDestroyers = append(depDestroyers, d.(dag.Vertex))
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log.Printf(
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"[TRACE] DestroyEdgeTransformer: destruction of %q depends on %s",
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key, dag.VertexName(d))
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}
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}
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}
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// Go through and make the connections. Use the variable
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// names "a_d" and "b_d" to reference our example.
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for _, a_d := range dns {
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for _, b_d := range depDestroyers {
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if b_d != a_d {
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log.Printf("[TRACE] DestroyEdgeTransformer: %q depends on %q", dag.VertexName(b_d), dag.VertexName(a_d))
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g.Connect(dag.BasicEdge(b_d, a_d))
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}
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}
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}
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}
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return nil
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}
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