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2fd016738a
The Provider field is required and will cause a panic if not populated.
314 lines
11 KiB
Go
314 lines
11 KiB
Go
package terraform
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import (
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"fmt"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/dag"
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"github.com/hashicorp/terraform/plans"
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"github.com/hashicorp/terraform/providers"
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"github.com/hashicorp/terraform/states"
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)
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// ConcreteResourceInstanceDeposedNodeFunc is a callback type used to convert
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// an abstract resource instance to a concrete one of some type that has
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// an associated deposed object key.
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type ConcreteResourceInstanceDeposedNodeFunc func(*NodeAbstractResourceInstance, states.DeposedKey) dag.Vertex
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type GraphNodeDeposedResourceInstanceObject interface {
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DeposedInstanceObjectKey() states.DeposedKey
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}
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// NodePlanDeposedResourceInstanceObject represents deposed resource
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// instance objects during plan. These are distinct from the primary object
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// for each resource instance since the only valid operation to do with them
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// is to destroy them.
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//
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// This node type is also used during the refresh walk to ensure that the
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// record of a deposed object is up-to-date before we plan to destroy it.
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type NodePlanDeposedResourceInstanceObject struct {
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*NodeAbstractResourceInstance
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DeposedKey states.DeposedKey
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}
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var (
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_ GraphNodeDeposedResourceInstanceObject = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeResource = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeResourceInstance = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeReferenceable = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeReferencer = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeEvalable = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeProviderConsumer = (*NodePlanDeposedResourceInstanceObject)(nil)
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_ GraphNodeProvisionerConsumer = (*NodePlanDeposedResourceInstanceObject)(nil)
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)
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func (n *NodePlanDeposedResourceInstanceObject) Name() string {
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return fmt.Sprintf("%s (deposed %s)", n.ResourceInstanceAddr().String(), n.DeposedKey)
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}
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func (n *NodePlanDeposedResourceInstanceObject) DeposedInstanceObjectKey() states.DeposedKey {
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return n.DeposedKey
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}
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// GraphNodeReferenceable implementation, overriding the one from NodeAbstractResourceInstance
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func (n *NodePlanDeposedResourceInstanceObject) ReferenceableAddrs() []addrs.Referenceable {
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// Deposed objects don't participate in references.
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return nil
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}
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// GraphNodeReferencer implementation, overriding the one from NodeAbstractResourceInstance
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func (n *NodePlanDeposedResourceInstanceObject) References() []*addrs.Reference {
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// We don't evaluate configuration for deposed objects, so they effectively
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// make no references.
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return nil
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}
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// GraphNodeEvalable impl.
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func (n *NodePlanDeposedResourceInstanceObject) EvalTree() EvalNode {
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addr := n.ResourceInstanceAddr()
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var provider providers.Interface
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var providerSchema *ProviderSchema
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var state *states.ResourceInstanceObject
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seq := &EvalSequence{Nodes: make([]EvalNode, 0, 5)}
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// During the refresh walk we will ensure that our record of the deposed
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// object is up-to-date. If it was already deleted outside of Terraform
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// then this will remove it from state and thus avoid us planning a
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// destroy for it during the subsequent plan walk.
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seq.Nodes = append(seq.Nodes, &EvalOpFilter{
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Ops: []walkOperation{walkRefresh},
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Node: &EvalSequence{
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Nodes: []EvalNode{
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&EvalGetProvider{
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Addr: n.ResolvedProvider,
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Output: &provider,
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Schema: &providerSchema,
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},
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&EvalReadStateDeposed{
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Addr: addr.Resource,
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Provider: &provider,
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ProviderSchema: &providerSchema,
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Key: n.DeposedKey,
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Output: &state,
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},
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&EvalRefresh{
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Addr: addr.Resource,
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ProviderAddr: n.ResolvedProvider,
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Provider: &provider,
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ProviderSchema: &providerSchema,
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State: &state,
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Output: &state,
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},
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&EvalWriteStateDeposed{
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Addr: addr.Resource,
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Key: n.DeposedKey,
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ProviderAddr: n.ResolvedProvider,
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ProviderSchema: &providerSchema,
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State: &state,
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},
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},
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},
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})
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// During the plan walk we always produce a planned destroy change, because
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// destroying is the only supported action for deposed objects.
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var change *plans.ResourceInstanceChange
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seq.Nodes = append(seq.Nodes, &EvalOpFilter{
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Ops: []walkOperation{walkPlan, walkPlanDestroy},
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Node: &EvalSequence{
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Nodes: []EvalNode{
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&EvalGetProvider{
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Addr: n.ResolvedProvider,
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Output: &provider,
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Schema: &providerSchema,
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},
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&EvalReadStateDeposed{
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Addr: addr.Resource,
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Output: &state,
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Key: n.DeposedKey,
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Provider: &provider,
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ProviderSchema: &providerSchema,
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},
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&EvalDiffDestroy{
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Addr: addr.Resource,
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ProviderAddr: n.ResolvedProvider,
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DeposedKey: n.DeposedKey,
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State: &state,
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Output: &change,
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},
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&EvalWriteDiff{
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Addr: addr.Resource,
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DeposedKey: n.DeposedKey,
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ProviderSchema: &providerSchema,
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Change: &change,
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},
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// Since deposed objects cannot be referenced by expressions
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// elsewhere, we don't need to also record the planned new
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// state in this case.
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},
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},
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})
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return seq
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}
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// NodeDestroyDeposedResourceInstanceObject represents deposed resource
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// instance objects during apply. Nodes of this type are inserted by
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// DiffTransformer when the planned changeset contains "delete" changes for
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// deposed instance objects, and its only supported operation is to destroy
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// and then forget the associated object.
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type NodeDestroyDeposedResourceInstanceObject struct {
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*NodeAbstractResourceInstance
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DeposedKey states.DeposedKey
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}
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var (
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_ GraphNodeDeposedResourceInstanceObject = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeResource = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeResourceInstance = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeDestroyer = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeDestroyerCBD = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeReferenceable = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeReferencer = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeEvalable = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeProviderConsumer = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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_ GraphNodeProvisionerConsumer = (*NodeDestroyDeposedResourceInstanceObject)(nil)
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)
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func (n *NodeDestroyDeposedResourceInstanceObject) Name() string {
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return fmt.Sprintf("%s (destroy deposed %s)", n.Addr.String(), n.DeposedKey)
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}
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func (n *NodeDestroyDeposedResourceInstanceObject) DeposedInstanceObjectKey() states.DeposedKey {
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return n.DeposedKey
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}
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// GraphNodeReferenceable implementation, overriding the one from NodeAbstractResourceInstance
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func (n *NodeDestroyDeposedResourceInstanceObject) ReferenceableAddrs() []addrs.Referenceable {
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// Deposed objects don't participate in references.
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return nil
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}
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// GraphNodeReferencer implementation, overriding the one from NodeAbstractResourceInstance
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func (n *NodeDestroyDeposedResourceInstanceObject) References() []*addrs.Reference {
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// We don't evaluate configuration for deposed objects, so they effectively
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// make no references.
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return nil
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}
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// GraphNodeDestroyer
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func (n *NodeDestroyDeposedResourceInstanceObject) DestroyAddr() *addrs.AbsResourceInstance {
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addr := n.ResourceInstanceAddr()
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return &addr
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}
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// GraphNodeDestroyerCBD
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func (n *NodeDestroyDeposedResourceInstanceObject) CreateBeforeDestroy() bool {
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// A deposed instance is always CreateBeforeDestroy by definition, since
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// we use deposed only to handle create-before-destroy.
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return true
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}
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// GraphNodeDestroyerCBD
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func (n *NodeDestroyDeposedResourceInstanceObject) ModifyCreateBeforeDestroy(v bool) error {
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if !v {
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// Should never happen: deposed instances are _always_ create_before_destroy.
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return fmt.Errorf("can't deactivate create_before_destroy for a deposed instance")
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}
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return nil
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}
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// GraphNodeEvalable impl.
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func (n *NodeDestroyDeposedResourceInstanceObject) EvalTree() EvalNode {
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addr := n.ResourceInstanceAddr()
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var provider providers.Interface
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var providerSchema *ProviderSchema
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var state *states.ResourceInstanceObject
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var change *plans.ResourceInstanceChange
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var err error
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return &EvalSequence{
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Nodes: []EvalNode{
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&EvalGetProvider{
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Addr: n.ResolvedProvider,
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Output: &provider,
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Schema: &providerSchema,
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},
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&EvalReadStateDeposed{
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Addr: addr.Resource,
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Output: &state,
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Key: n.DeposedKey,
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Provider: &provider,
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ProviderSchema: &providerSchema,
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},
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&EvalDiffDestroy{
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Addr: addr.Resource,
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ProviderAddr: n.ResolvedProvider,
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State: &state,
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Output: &change,
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},
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// Call pre-apply hook
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&EvalApplyPre{
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Addr: addr.Resource,
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State: &state,
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Change: &change,
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},
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&EvalApply{
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Addr: addr.Resource,
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Config: nil, // No configuration because we are destroying
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State: &state,
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Change: &change,
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Provider: &provider,
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ProviderAddr: n.ResolvedProvider,
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ProviderSchema: &providerSchema,
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Output: &state,
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Error: &err,
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},
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// Always write the resource back to the state deposed... if it
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// was successfully destroyed it will be pruned. If it was not, it will
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// be caught on the next run.
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&EvalWriteStateDeposed{
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Addr: addr.Resource,
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Key: n.DeposedKey,
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ProviderAddr: n.ResolvedProvider,
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ProviderSchema: &providerSchema,
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State: &state,
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},
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&EvalApplyPost{
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Addr: addr.Resource,
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State: &state,
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Error: &err,
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},
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&EvalReturnError{
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Error: &err,
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},
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&EvalUpdateStateHook{},
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},
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}
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}
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// GraphNodeDeposer is an optional interface implemented by graph nodes that
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// might create a single new deposed object for a specific associated resource
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// instance, allowing a caller to optionally pre-allocate a DeposedKey for
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// it.
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type GraphNodeDeposer interface {
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// SetPreallocatedDeposedKey will be called during graph construction
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// if a particular node must use a pre-allocated deposed key if/when it
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// "deposes" the current object of its associated resource instance.
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SetPreallocatedDeposedKey(key states.DeposedKey)
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}
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// graphNodeDeposer is an embeddable implementation of GraphNodeDeposer.
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// Embed it in a node type to get automatic support for it, and then access
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// the field PreallocatedDeposedKey to access any pre-allocated key.
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type graphNodeDeposer struct {
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PreallocatedDeposedKey states.DeposedKey
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}
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func (n *graphNodeDeposer) SetPreallocatedDeposedKey(key states.DeposedKey) {
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n.PreallocatedDeposedKey = key
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}
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