opentofu/terraform/node_resource_plan.go
2019-07-22 10:51:16 -04:00

167 lines
4.7 KiB
Go

package terraform
import (
"log"
"github.com/hashicorp/terraform/dag"
"github.com/hashicorp/terraform/tfdiags"
)
// NodePlannableResource represents a resource that is "plannable":
// it is ready to be planned in order to create a diff.
type NodePlannableResource struct {
*NodeAbstractResource
// ForceCreateBeforeDestroy might be set via our GraphNodeDestroyerCBD
// during graph construction, if dependencies require us to force this
// on regardless of what the configuration says.
ForceCreateBeforeDestroy *bool
}
var (
_ GraphNodeSubPath = (*NodePlannableResource)(nil)
_ GraphNodeDestroyerCBD = (*NodePlannableResource)(nil)
_ GraphNodeDynamicExpandable = (*NodePlannableResource)(nil)
_ GraphNodeReferenceable = (*NodePlannableResource)(nil)
_ GraphNodeReferencer = (*NodePlannableResource)(nil)
_ GraphNodeResource = (*NodePlannableResource)(nil)
_ GraphNodeAttachResourceConfig = (*NodePlannableResource)(nil)
)
// GraphNodeEvalable
func (n *NodePlannableResource) EvalTree() EvalNode {
addr := n.ResourceAddr()
config := n.Config
if config == nil {
// Nothing to do, then.
log.Printf("[TRACE] NodeApplyableResource: no configuration present for %s", addr)
return &EvalNoop{}
}
// this ensures we can reference the resource even if the count is 0
return &EvalWriteResourceState{
Addr: addr.Resource,
Config: config,
ProviderAddr: n.ResolvedProvider,
}
}
// GraphNodeDestroyerCBD
func (n *NodePlannableResource) CreateBeforeDestroy() bool {
if n.ForceCreateBeforeDestroy != nil {
return *n.ForceCreateBeforeDestroy
}
// If we have no config, we just assume no
if n.Config == nil || n.Config.Managed == nil {
return false
}
return n.Config.Managed.CreateBeforeDestroy
}
// GraphNodeDestroyerCBD
func (n *NodePlannableResource) ModifyCreateBeforeDestroy(v bool) error {
n.ForceCreateBeforeDestroy = &v
return nil
}
// GraphNodeDynamicExpandable
func (n *NodePlannableResource) DynamicExpand(ctx EvalContext) (*Graph, error) {
var diags tfdiags.Diagnostics
count, countDiags := evaluateResourceCountExpression(n.Config.Count, ctx)
diags = diags.Append(countDiags)
if countDiags.HasErrors() {
return nil, diags.Err()
}
forEachMap, forEachDiags := evaluateResourceForEachExpression(n.Config.ForEach, ctx)
if forEachDiags.HasErrors() {
return nil, diags.Err()
}
// Next we need to potentially rename an instance address in the state
// if we're transitioning whether "count" is set at all.
fixResourceCountSetTransition(ctx, n.ResourceAddr(), count != -1)
// Our graph transformers require access to the full state, so we'll
// temporarily lock it while we work on this.
state := ctx.State().Lock()
defer ctx.State().Unlock()
// The concrete resource factory we'll use
concreteResource := func(a *NodeAbstractResourceInstance) dag.Vertex {
// Add the config and state since we don't do that via transforms
a.Config = n.Config
a.ResolvedProvider = n.ResolvedProvider
a.Schema = n.Schema
a.ProvisionerSchemas = n.ProvisionerSchemas
return &NodePlannableResourceInstance{
NodeAbstractResourceInstance: a,
// By the time we're walking, we've figured out whether we need
// to force on CreateBeforeDestroy due to dependencies on other
// nodes that have it.
ForceCreateBeforeDestroy: n.CreateBeforeDestroy(),
}
}
// The concrete resource factory we'll use for orphans
concreteResourceOrphan := func(a *NodeAbstractResourceInstance) dag.Vertex {
// Add the config and state since we don't do that via transforms
a.Config = n.Config
a.ResolvedProvider = n.ResolvedProvider
a.Schema = n.Schema
a.ProvisionerSchemas = n.ProvisionerSchemas
return &NodePlannableResourceInstanceOrphan{
NodeAbstractResourceInstance: a,
}
}
// Start creating the steps
steps := []GraphTransformer{
// Expand the count or for_each (if present)
&ResourceCountTransformer{
Concrete: concreteResource,
Schema: n.Schema,
Count: count,
ForEach: forEachMap,
Addr: n.ResourceAddr(),
},
// Add the count/for_each orphans
&OrphanResourceCountTransformer{
Concrete: concreteResourceOrphan,
Count: count,
ForEach: forEachMap,
Addr: n.ResourceAddr(),
State: state,
},
// Attach the state
&AttachStateTransformer{State: state},
// Targeting
&TargetsTransformer{Targets: n.Targets},
// Connect references so ordering is correct
&ReferenceTransformer{},
// Make sure there is a single root
&RootTransformer{},
}
// Build the graph
b := &BasicGraphBuilder{
Steps: steps,
Validate: true,
Name: "NodePlannableResource",
}
graph, diags := b.Build(ctx.Path())
return graph, diags.ErrWithWarnings()
}