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847c8d6244
Comment out an out of date CBD test. The test no longer works due to the CBD status being checked during plan, but the test case may still have some value which we can review later. update the text in the CBD transformer to reflect the s/ancestor/descendent/ change.
309 lines
10 KiB
Go
309 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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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/dag"
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"github.com/hashicorp/terraform/states"
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)
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// GraphNodeDestroyerCBD must be implemented by nodes that might be
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// create-before-destroy destroyers, or might plan a create-before-destroy
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// action.
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type GraphNodeDestroyerCBD interface {
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// CreateBeforeDestroy returns true if this node represents a node
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// that is doing a CBD.
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CreateBeforeDestroy() bool
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// ModifyCreateBeforeDestroy is called when the CBD state of a node
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// is changed dynamically. This can return an error if this isn't
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// allowed.
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ModifyCreateBeforeDestroy(bool) error
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}
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// GraphNodeAttachDestroyer is implemented by applyable nodes that have a
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// companion destroy node. This allows the creation node to look up the status
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// of the destroy node and determine if it needs to depose the existing state,
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// or replace it.
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// If a node is not marked as create-before-destroy in the configuration, but a
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// dependency forces that status, only the destroy node will be aware of that
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// status.
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type GraphNodeAttachDestroyer interface {
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// AttachDestroyNode takes a destroy node and saves a reference to that
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// node in the receiver, so it can later check the status of
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// CreateBeforeDestroy().
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AttachDestroyNode(n GraphNodeDestroyerCBD)
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}
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// ForcedCBDTransformer detects when a particular CBD-able graph node has
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// dependencies with another that has create_before_destroy set that require
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// it to be forced on, and forces it on.
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//
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// This must be used in the plan graph builder to ensure that
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// create_before_destroy settings are properly propagated before constructing
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// the planned changes. This requires that the plannable resource nodes
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// implement GraphNodeDestroyerCBD.
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type ForcedCBDTransformer struct {
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}
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func (t *ForcedCBDTransformer) Transform(g *Graph) error {
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for _, v := range g.Vertices() {
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dn, ok := v.(GraphNodeDestroyerCBD)
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if !ok {
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continue
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}
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if !dn.CreateBeforeDestroy() {
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// If there are no CBD decendent (dependent nodes), then we
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// do nothing here.
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if !t.hasCBDDescendent(g, v) {
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log.Printf("[TRACE] ForcedCBDTransformer: %q (%T) has no CBD descendent, so skipping", dag.VertexName(v), v)
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continue
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}
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// If this isn't naturally a CBD node, this means that an descendent is
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// and we need to auto-upgrade this node to CBD. We do this because
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// a CBD node depending on non-CBD will result in cycles. To avoid this,
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// we always attempt to upgrade it.
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log.Printf("[TRACE] ForcedCBDTransformer: forcing create_before_destroy on for %q (%T)", dag.VertexName(v), v)
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if err := dn.ModifyCreateBeforeDestroy(true); err != nil {
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return fmt.Errorf(
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"%s: must have create before destroy enabled because "+
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"a dependent resource has CBD enabled. However, when "+
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"attempting to automatically do this, an error occurred: %s",
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dag.VertexName(v), err)
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}
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} else {
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log.Printf("[TRACE] ForcedCBDTransformer: %q (%T) already has create_before_destroy set", dag.VertexName(v), v)
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}
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}
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return nil
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}
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// hasCBDDescendent returns true if any descendent (node that depends on this)
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// has CBD set.
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func (t *ForcedCBDTransformer) hasCBDDescendent(g *Graph, v dag.Vertex) bool {
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s, _ := g.Descendents(v)
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if s == nil {
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return true
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}
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for _, ov := range s.List() {
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dn, ok := ov.(GraphNodeDestroyerCBD)
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if !ok {
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continue
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}
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if dn.CreateBeforeDestroy() {
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// some descendent is CreateBeforeDestroy, so we need to follow suit
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log.Printf("[TRACE] ForcedCBDTransformer: %q has CBD descendent %q", dag.VertexName(v), dag.VertexName(ov))
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return true
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}
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}
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return false
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}
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// CBDEdgeTransformer modifies the edges of CBD nodes that went through
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// the DestroyEdgeTransformer to have the right dependencies. There are
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// two real tasks here:
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//
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// 1. With CBD, the destroy edge is inverted: the destroy depends on
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// the creation.
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//
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// 2. A_d must depend on resources that depend on A. This is to enable
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// the destroy to only happen once nodes that depend on A successfully
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// update to A. Example: adding a web server updates the load balancer
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// before deleting the old web server.
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//
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// This transformer requires that a previous transformer has already forced
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// create_before_destroy on for nodes that are depended on by explicit CBD
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// nodes. This is the logic in ForcedCBDTransformer, though in practice we
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// will get here by recording the CBD-ness of each change in the plan during
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// the plan walk and then forcing the nodes into the appropriate setting during
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// DiffTransformer when building the apply graph.
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type CBDEdgeTransformer struct {
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// Module and State are only needed to look up dependencies in
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// any way possible. Either can be nil if not availabile.
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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 so we can
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// properly resolve implicit dependencies.
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Schemas *Schemas
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}
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func (t *CBDEdgeTransformer) Transform(g *Graph) error {
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// Go through and reverse any destroy edges
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destroyMap := make(map[string][]dag.Vertex)
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for _, v := range g.Vertices() {
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dn, ok := v.(GraphNodeDestroyerCBD)
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if !ok {
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continue
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}
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dern, ok := v.(GraphNodeDestroyer)
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if !ok {
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continue
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}
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if !dn.CreateBeforeDestroy() {
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continue
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}
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// Find the destroy edge. There should only be one.
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for _, e := range g.EdgesTo(v) {
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// Not a destroy edge, ignore it
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de, ok := e.(*DestroyEdge)
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if !ok {
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continue
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}
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log.Printf("[TRACE] CBDEdgeTransformer: inverting edge: %s => %s",
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dag.VertexName(de.Source()), dag.VertexName(de.Target()))
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// Found it! Invert.
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g.RemoveEdge(de)
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applyNode := de.Source()
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destroyNode := de.Target()
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g.Connect(&DestroyEdge{S: destroyNode, T: applyNode})
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}
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// If the address has an index, we strip that. Our depMap creation
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// graph doesn't expand counts so we don't currently get _exact_
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// dependencies. One day when we limit dependencies more exactly
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// this will have to change. We have a test case covering this
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// (depNonCBDCountBoth) so it'll be caught.
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addr := dern.DestroyAddr()
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key := addr.ContainingResource().String()
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// Add this to the list of nodes that we need to fix up
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// the edges for (step 2 above in the docs).
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destroyMap[key] = append(destroyMap[key], v)
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}
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// If we have no CBD nodes, then our work here is done
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if len(destroyMap) == 0 {
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return nil
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}
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// We have CBD nodes. We now have to move on to the much more difficult
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// task of connecting dependencies of the creation side of the destroy
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// to the destruction node. The easiest way to explain this is an example:
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//
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// Given a pre-destroy dependence of: A => B
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// And A has CBD set.
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//
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// The resulting graph should be: A => B => A_d
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//
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// They key here is that B happens before A is destroyed. This is to
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// facilitate the primary purpose for CBD: making sure that downstreams
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// are properly updated to avoid downtime before the resource is destroyed.
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//
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// We can't trust that the resource being destroyed or anything that
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// depends on it is actually in our current graph so we make a new
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// graph in order to determine those dependencies and add them in.
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log.Printf("[TRACE] CBDEdgeTransformer: building graph to find dependencies...")
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depMap, err := t.depMap(destroyMap)
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if err != nil {
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return err
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}
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// We now have the mapping of resource addresses to the destroy
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// nodes they need to depend on. We now go through our own vertices to
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// find any matching these addresses and make the connection.
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for _, v := range g.Vertices() {
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// We're looking for creators
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rn, ok := v.(GraphNodeCreator)
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if !ok {
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continue
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}
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// Get the address
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addr := rn.CreateAddr()
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// If the address has an index, we strip that. Our depMap creation
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// graph doesn't expand counts so we don't currently get _exact_
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// dependencies. One day when we limit dependencies more exactly
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// this will have to change. We have a test case covering this
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// (depNonCBDCount) so it'll be caught.
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key := addr.ContainingResource().String()
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// If there is nothing this resource should depend on, ignore it
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dns, ok := depMap[key]
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if !ok {
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continue
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}
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// We have nodes! Make the connection
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for _, dn := range dns {
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log.Printf("[TRACE] CBDEdgeTransformer: destroy depends on dependence: %s => %s",
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dag.VertexName(dn), dag.VertexName(v))
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g.Connect(dag.BasicEdge(dn, v))
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}
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}
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return nil
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}
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func (t *CBDEdgeTransformer) depMap(destroyMap map[string][]dag.Vertex) (map[string][]dag.Vertex, error) {
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// Build the graph of our config, this ensures that all resources
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// are present in the graph.
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g, diags := (&BasicGraphBuilder{
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Steps: []GraphTransformer{
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&FlatConfigTransformer{Config: t.Config},
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&AttachResourceConfigTransformer{Config: t.Config},
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&AttachStateTransformer{State: t.State},
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&AttachSchemaTransformer{Schemas: t.Schemas},
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&ReferenceTransformer{},
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},
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Name: "CBDEdgeTransformer",
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}).Build(nil)
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if diags.HasErrors() {
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return nil, diags.Err()
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}
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// Using this graph, build the list of destroy nodes that each resource
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// address should depend on. For example, when we find B, we map the
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// address of B to A_d in the "depMap" variable below.
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depMap := make(map[string][]dag.Vertex)
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for _, v := range g.Vertices() {
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// We're looking for resources.
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rn, ok := v.(GraphNodeResource)
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if !ok {
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continue
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}
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// Get the address
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addr := rn.ResourceAddr()
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key := addr.String()
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// Get the destroy nodes that are destroying this resource.
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// If there aren't any, then we don't need to worry about
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// any connections.
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dns, ok := destroyMap[key]
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if !ok {
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continue
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}
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// Get the nodes that depend on this on. In the example above:
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// finding B in A => B.
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for _, v := range g.UpEdges(v).List() {
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// We're looking for resources.
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rn, ok := v.(GraphNodeResource)
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if !ok {
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continue
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}
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// Keep track of the destroy nodes that this address
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// needs to depend on.
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key := rn.ResourceAddr().String()
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depMap[key] = append(depMap[key], dns...)
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}
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}
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return depMap, nil
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}
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