terraform/terraform/node_resource_apply.go

358 lines
8.4 KiB
Go

package terraform
import (
"fmt"
"github.com/hashicorp/terraform/config"
)
// NodeApplyableResource represents a resource that is "applyable":
// it is ready to be applied and is represented by a diff.
type NodeApplyableResource struct {
*NodeAbstractResource
}
// GraphNodeCreator
func (n *NodeApplyableResource) CreateAddr() *ResourceAddress {
return n.NodeAbstractResource.Addr
}
// GraphNodeReferencer, overriding NodeAbstractResource
func (n *NodeApplyableResource) References() []string {
result := n.NodeAbstractResource.References()
// The "apply" side of a resource generally also depends on the
// destruction of its dependencies as well. For example, if a LB
// references a set of VMs with ${vm.foo.*.id}, then we must wait for
// the destruction so we get the newly updated list of VMs.
//
// The exception here is CBD. When CBD is set, we don't do this since
// it would create a cycle. By not creating a cycle, we require two
// applies since the first apply the creation step will use the OLD
// values (pre-destroy) and the second step will update.
//
// This is how Terraform behaved with "legacy" graphs (TF <= 0.7.x).
// We mimic that behavior here now and can improve upon it in the future.
//
// This behavior is tested in graph_build_apply_test.go to test ordering.
cbd := n.Config != nil && n.Config.Lifecycle.CreateBeforeDestroy
if !cbd {
// The "apply" side of a resource always depends on the destruction
// of all its dependencies in addition to the creation.
for _, v := range result {
result = append(result, v+".destroy")
}
}
return result
}
// GraphNodeEvalable
func (n *NodeApplyableResource) EvalTree() EvalNode {
addr := n.NodeAbstractResource.Addr
// stateId is the ID to put into the state
stateId := addr.stateId()
// Build the instance info. More of this will be populated during eval
info := &InstanceInfo{
Id: stateId,
Type: addr.Type,
}
// Build the resource for eval
resource := &Resource{
Name: addr.Name,
Type: addr.Type,
CountIndex: addr.Index,
}
if resource.CountIndex < 0 {
resource.CountIndex = 0
}
// Determine the dependencies for the state.
stateDeps := n.StateReferences()
// Eval info is different depending on what kind of resource this is
switch n.Config.Mode {
case config.ManagedResourceMode:
return n.evalTreeManagedResource(
stateId, info, resource, stateDeps,
)
case config.DataResourceMode:
return n.evalTreeDataResource(
stateId, info, resource, stateDeps)
default:
panic(fmt.Errorf("unsupported resource mode %s", n.Config.Mode))
}
}
func (n *NodeApplyableResource) evalTreeDataResource(
stateId string, info *InstanceInfo,
resource *Resource, stateDeps []string) EvalNode {
var provider ResourceProvider
var config *ResourceConfig
var diff *InstanceDiff
var state *InstanceState
return &EvalSequence{
Nodes: []EvalNode{
// Build the instance info
&EvalInstanceInfo{
Info: info,
},
// Get the saved diff for apply
&EvalReadDiff{
Name: stateId,
Diff: &diff,
},
// Stop here if we don't actually have a diff
&EvalIf{
If: func(ctx EvalContext) (bool, error) {
if diff == nil {
return true, EvalEarlyExitError{}
}
if diff.GetAttributesLen() == 0 {
return true, EvalEarlyExitError{}
}
return true, nil
},
Then: EvalNoop{},
},
// We need to re-interpolate the config here, rather than
// just using the diff's values directly, because we've
// potentially learned more variable values during the
// apply pass that weren't known when the diff was produced.
&EvalInterpolate{
Config: n.Config.RawConfig.Copy(),
Resource: resource,
Output: &config,
},
&EvalGetProvider{
Name: n.ResolvedProvider,
Output: &provider,
},
// Make a new diff with our newly-interpolated config.
&EvalReadDataDiff{
Info: info,
Config: &config,
Previous: &diff,
Provider: &provider,
Output: &diff,
},
&EvalReadDataApply{
Info: info,
Diff: &diff,
Provider: &provider,
Output: &state,
},
&EvalWriteState{
Name: stateId,
ResourceType: n.Config.Type,
Provider: n.ResolvedProvider,
Dependencies: stateDeps,
State: &state,
},
// Clear the diff now that we've applied it, so
// later nodes won't see a diff that's now a no-op.
&EvalWriteDiff{
Name: stateId,
Diff: nil,
},
&EvalUpdateStateHook{},
},
}
}
func (n *NodeApplyableResource) evalTreeManagedResource(
stateId string, info *InstanceInfo,
resource *Resource, stateDeps []string) EvalNode {
// Declare a bunch of variables that are used for state during
// evaluation. Most of this are written to by-address below.
var provider ResourceProvider
var diff, diffApply *InstanceDiff
var state *InstanceState
var resourceConfig *ResourceConfig
var err error
var createNew bool
var createBeforeDestroyEnabled bool
return &EvalSequence{
Nodes: []EvalNode{
// Build the instance info
&EvalInstanceInfo{
Info: info,
},
// Get the saved diff for apply
&EvalReadDiff{
Name: stateId,
Diff: &diffApply,
},
// We don't want to do any destroys
&EvalIf{
If: func(ctx EvalContext) (bool, error) {
if diffApply == nil {
return true, EvalEarlyExitError{}
}
if diffApply.GetDestroy() && diffApply.GetAttributesLen() == 0 {
return true, EvalEarlyExitError{}
}
diffApply.SetDestroy(false)
return true, nil
},
Then: EvalNoop{},
},
&EvalIf{
If: func(ctx EvalContext) (bool, error) {
destroy := false
if diffApply != nil {
destroy = diffApply.GetDestroy() || diffApply.RequiresNew()
}
createBeforeDestroyEnabled =
n.Config.Lifecycle.CreateBeforeDestroy &&
destroy
return createBeforeDestroyEnabled, nil
},
Then: &EvalDeposeState{
Name: stateId,
},
},
&EvalInterpolate{
Config: n.Config.RawConfig.Copy(),
Resource: resource,
Output: &resourceConfig,
},
&EvalGetProvider{
Name: n.ResolvedProvider,
Output: &provider,
},
&EvalReadState{
Name: stateId,
Output: &state,
},
// Re-run validation to catch any errors we missed, e.g. type
// mismatches on computed values.
&EvalValidateResource{
Provider: &provider,
Config: &resourceConfig,
ResourceName: n.Config.Name,
ResourceType: n.Config.Type,
ResourceMode: n.Config.Mode,
IgnoreWarnings: true,
},
&EvalDiff{
Info: info,
Config: &resourceConfig,
Resource: n.Config,
Provider: &provider,
Diff: &diffApply,
State: &state,
OutputDiff: &diffApply,
},
// Get the saved diff
&EvalReadDiff{
Name: stateId,
Diff: &diff,
},
// Compare the diffs
&EvalCompareDiff{
Info: info,
One: &diff,
Two: &diffApply,
},
&EvalGetProvider{
Name: n.ResolvedProvider,
Output: &provider,
},
&EvalReadState{
Name: stateId,
Output: &state,
},
// Call pre-apply hook
&EvalApplyPre{
Info: info,
State: &state,
Diff: &diffApply,
},
&EvalApply{
Info: info,
State: &state,
Diff: &diffApply,
Provider: &provider,
Output: &state,
Error: &err,
CreateNew: &createNew,
},
&EvalWriteState{
Name: stateId,
ResourceType: n.Config.Type,
Provider: n.ResolvedProvider,
Dependencies: stateDeps,
State: &state,
},
&EvalApplyProvisioners{
Info: info,
State: &state,
Resource: n.Config,
InterpResource: resource,
CreateNew: &createNew,
Error: &err,
When: config.ProvisionerWhenCreate,
},
&EvalIf{
If: func(ctx EvalContext) (bool, error) {
return createBeforeDestroyEnabled && err != nil, nil
},
Then: &EvalUndeposeState{
Name: stateId,
State: &state,
},
Else: &EvalWriteState{
Name: stateId,
ResourceType: n.Config.Type,
Provider: n.ResolvedProvider,
Dependencies: stateDeps,
State: &state,
},
},
// We clear the diff out here so that future nodes
// don't see a diff that is already complete. There
// is no longer a diff!
&EvalWriteDiff{
Name: stateId,
Diff: nil,
},
&EvalApplyPost{
Info: info,
State: &state,
Error: &err,
},
&EvalUpdateStateHook{},
},
}
}