package terraform import ( "fmt" "github.com/hashicorp/terraform/config" ) // NodeDestroyResource represents a resource that is to be destroyed. type NodeDestroyResource struct { *NodeAbstractResource } func (n *NodeDestroyResource) Name() string { return n.NodeAbstractResource.Name() + " (destroy)" } // GraphNodeDestroyer func (n *NodeDestroyResource) DestroyAddr() *ResourceAddress { return n.Addr } // GraphNodeDestroyerCBD func (n *NodeDestroyResource) CreateBeforeDestroy() bool { // If we have no config, we just assume no if n.Config == nil { return false } return n.Config.Lifecycle.CreateBeforeDestroy } // GraphNodeDestroyerCBD func (n *NodeDestroyResource) ModifyCreateBeforeDestroy(v bool) error { // If we have no config, do nothing since it won't affect the // create step anyways. if n.Config == nil { return nil } // Set CBD to true n.Config.Lifecycle.CreateBeforeDestroy = true return nil } // GraphNodeReferenceable, overriding NodeAbstractResource func (n *NodeDestroyResource) ReferenceableName() []string { // We modify our referenceable name to have the suffix of ".destroy" // since depending on the creation side doesn't necessarilly mean // depending on destruction. suffix := ".destroy" // If we're CBD, we also append "-cbd". This is because CBD will setup // its own edges (in CBDEdgeTransformer). Depending on the "destroy" // side generally doesn't mean depending on CBD as well. See GH-11349 if n.CreateBeforeDestroy() { suffix += "-cbd" } result := n.NodeAbstractResource.ReferenceableName() for i, v := range result { result[i] = v + suffix } return result } // GraphNodeReferencer, overriding NodeAbstractResource func (n *NodeDestroyResource) References() []string { // If we have a config, then we need to include destroy-time dependencies if c := n.Config; c != nil { var result []string for _, p := range c.Provisioners { // We include conn info and config for destroy time provisioners // as dependencies that we have. if p.When == config.ProvisionerWhenDestroy { result = append(result, ReferencesFromConfig(p.ConnInfo)...) result = append(result, ReferencesFromConfig(p.RawConfig)...) } } return result } return nil } // GraphNodeDynamicExpandable func (n *NodeDestroyResource) DynamicExpand(ctx EvalContext) (*Graph, error) { // If we have no config we do nothing if n.Addr == nil { return nil, nil } state, lock := ctx.State() lock.RLock() defer lock.RUnlock() // Start creating the steps steps := make([]GraphTransformer, 0, 5) // We want deposed resources in the state to be destroyed steps = append(steps, &DeposedTransformer{ State: state, View: n.Addr.stateId(), }) // Target steps = append(steps, &TargetsTransformer{ ParsedTargets: n.Targets, }) // Always end with the root being added steps = append(steps, &RootTransformer{}) // Build the graph b := &BasicGraphBuilder{ Steps: steps, Name: "NodeResourceDestroy", } return b.Build(ctx.Path()) } // GraphNodeEvalable func (n *NodeDestroyResource) EvalTree() EvalNode { // stateId is the ID to put into the state stateId := n.Addr.stateId() // Build the instance info. More of this will be populated during eval info := &InstanceInfo{ Id: stateId, Type: n.Addr.Type, uniqueExtra: "destroy", } // Build the resource for eval addr := n.Addr resource := &Resource{ Name: addr.Name, Type: addr.Type, CountIndex: addr.Index, } if resource.CountIndex < 0 { resource.CountIndex = 0 } // Get our state rs := n.ResourceState if rs == nil { rs = &ResourceState{} } var diffApply *InstanceDiff var provider ResourceProvider var state *InstanceState var err error return &EvalOpFilter{ Ops: []walkOperation{walkApply, walkDestroy}, Node: &EvalSequence{ Nodes: []EvalNode{ // Get the saved diff for apply &EvalReadDiff{ Name: stateId, Diff: &diffApply, }, // Filter the diff so we only get the destroy &EvalFilterDiff{ Diff: &diffApply, Output: &diffApply, Destroy: true, }, // If we're not destroying, then compare diffs &EvalIf{ If: func(ctx EvalContext) (bool, error) { if diffApply != nil && diffApply.GetDestroy() { return true, nil } return true, EvalEarlyExitError{} }, Then: EvalNoop{}, }, // Load the instance info so we have the module path set &EvalInstanceInfo{Info: info}, &EvalGetProvider{ Name: n.ProvidedBy()[0], Output: &provider, }, &EvalReadState{ Name: stateId, Output: &state, }, &EvalRequireState{ State: &state, }, // Call pre-apply hook &EvalApplyPre{ Info: info, State: &state, Diff: &diffApply, }, // Run destroy provisioners if not tainted &EvalIf{ If: func(ctx EvalContext) (bool, error) { if state != nil && state.Tainted { return false, nil } return true, nil }, Then: &EvalApplyProvisioners{ Info: info, State: &state, Resource: n.Config, InterpResource: resource, Error: &err, When: config.ProvisionerWhenDestroy, }, }, // If we have a provisioning error, then we just call // the post-apply hook now. &EvalIf{ If: func(ctx EvalContext) (bool, error) { return err != nil, nil }, Then: &EvalApplyPost{ Info: info, State: &state, Error: &err, }, }, // Make sure we handle data sources properly. &EvalIf{ If: func(ctx EvalContext) (bool, error) { if n.Addr == nil { return false, fmt.Errorf("nil address") } if n.Addr.Mode == config.DataResourceMode { return true, nil } return false, nil }, Then: &EvalReadDataApply{ Info: info, Diff: &diffApply, Provider: &provider, Output: &state, }, Else: &EvalApply{ Info: info, State: &state, Diff: &diffApply, Provider: &provider, Output: &state, Error: &err, }, }, &EvalWriteState{ Name: stateId, ResourceType: n.Addr.Type, Provider: rs.Provider, Dependencies: rs.Dependencies, State: &state, }, &EvalApplyPost{ Info: info, State: &state, Error: &err, }, &EvalUpdateStateHook{}, }, }, } }