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90588c036b
* Split node_resource_abstract.go into two files, putting NodeAbstractResourceInstance methods in their own file - it was getting large enough to be tricky for (my) human eyeballs. * un-exported the functions that were created as part of the EvalTree() refactor; they did not need to be public.
202 lines
6.7 KiB
Go
202 lines
6.7 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/hcl/v2"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/plans"
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"github.com/hashicorp/terraform/states"
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"github.com/hashicorp/terraform/tfdiags"
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)
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// NodeAbstractResourceInstance represents a resource instance with no
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// associated operations. It embeds NodeAbstractResource but additionally
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// contains an instance key, used to identify one of potentially many
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// instances that were created from a resource in configuration, e.g. using
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// the "count" or "for_each" arguments.
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type NodeAbstractResourceInstance struct {
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NodeAbstractResource
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Addr addrs.AbsResourceInstance
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// These are set via the AttachState method.
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instanceState *states.ResourceInstance
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// storedProviderConfig is the provider address retrieved from the
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// state, but since it is only stored in the whole Resource rather than the
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// ResourceInstance, we extract it out here.
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storedProviderConfig addrs.AbsProviderConfig
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Dependencies []addrs.ConfigResource
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}
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// NewNodeAbstractResourceInstance creates an abstract resource instance graph
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// node for the given absolute resource instance address.
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func NewNodeAbstractResourceInstance(addr addrs.AbsResourceInstance) *NodeAbstractResourceInstance {
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// Due to the fact that we embed NodeAbstractResource, the given address
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// actually ends up split between the resource address in the embedded
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// object and the InstanceKey field in our own struct. The
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// ResourceInstanceAddr method will stick these back together again on
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// request.
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r := NewNodeAbstractResource(addr.ContainingResource().Config())
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return &NodeAbstractResourceInstance{
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NodeAbstractResource: *r,
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Addr: addr,
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}
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}
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func (n *NodeAbstractResourceInstance) Name() string {
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return n.ResourceInstanceAddr().String()
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}
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func (n *NodeAbstractResourceInstance) Path() addrs.ModuleInstance {
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return n.Addr.Module
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}
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// GraphNodeReferenceable
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func (n *NodeAbstractResourceInstance) ReferenceableAddrs() []addrs.Referenceable {
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addr := n.ResourceInstanceAddr()
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return []addrs.Referenceable{
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addr.Resource,
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// A resource instance can also be referenced by the address of its
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// containing resource, so that e.g. a reference to aws_instance.foo
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// would match both aws_instance.foo[0] and aws_instance.foo[1].
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addr.ContainingResource().Resource,
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}
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}
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// GraphNodeReferencer
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func (n *NodeAbstractResourceInstance) References() []*addrs.Reference {
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// If we have a configuration attached then we'll delegate to our
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// embedded abstract resource, which knows how to extract dependencies
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// from configuration. If there is no config, then the dependencies will
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// be connected during destroy from those stored in the state.
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if n.Config != nil {
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if n.Schema == nil {
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// We'll produce a log message about this out here so that
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// we can include the full instance address, since the equivalent
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// message in NodeAbstractResource.References cannot see it.
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log.Printf("[WARN] no schema is attached to %s, so config references cannot be detected", n.Name())
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return nil
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}
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return n.NodeAbstractResource.References()
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}
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// If we have neither config nor state then we have no references.
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return nil
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}
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// StateDependencies returns the dependencies saved in the state.
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func (n *NodeAbstractResourceInstance) StateDependencies() []addrs.ConfigResource {
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if s := n.instanceState; s != nil {
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if s.Current != nil {
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return s.Current.Dependencies
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}
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}
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return nil
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}
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// GraphNodeProviderConsumer
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func (n *NodeAbstractResourceInstance) ProvidedBy() (addrs.ProviderConfig, bool) {
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// If we have a config we prefer that above all else
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if n.Config != nil {
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relAddr := n.Config.ProviderConfigAddr()
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return addrs.LocalProviderConfig{
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LocalName: relAddr.LocalName,
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Alias: relAddr.Alias,
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}, false
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}
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// See if we have a valid provider config from the state.
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if n.storedProviderConfig.Provider.Type != "" {
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// An address from the state must match exactly, since we must ensure
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// we refresh/destroy a resource with the same provider configuration
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// that created it.
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return n.storedProviderConfig, true
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}
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// No provider configuration found; return a default address
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return addrs.AbsProviderConfig{
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Provider: n.Provider(),
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Module: n.ModulePath(),
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}, false
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}
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// GraphNodeProviderConsumer
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func (n *NodeAbstractResourceInstance) Provider() addrs.Provider {
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if n.Config != nil {
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return n.Config.Provider
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}
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return addrs.ImpliedProviderForUnqualifiedType(n.Addr.Resource.ContainingResource().ImpliedProvider())
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}
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// GraphNodeResourceInstance
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func (n *NodeAbstractResourceInstance) ResourceInstanceAddr() addrs.AbsResourceInstance {
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return n.Addr
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}
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// GraphNodeAttachResourceState
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func (n *NodeAbstractResourceInstance) AttachResourceState(s *states.Resource) {
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if s == nil {
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log.Printf("[WARN] attaching nil state to %s", n.Addr)
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return
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}
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n.instanceState = s.Instance(n.Addr.Resource.Key)
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n.storedProviderConfig = s.ProviderConfig
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}
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// readDiff returns the planned change for a particular resource instance
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// object.
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func (n *NodeAbstractResourceInstance) readDiff(ctx EvalContext, providerSchema *ProviderSchema) (*plans.ResourceInstanceChange, error) {
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changes := ctx.Changes()
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addr := n.ResourceInstanceAddr()
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schema, _ := providerSchema.SchemaForResourceAddr(addr.Resource.Resource)
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if schema == nil {
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// Should be caught during validation, so we don't bother with a pretty error here
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return nil, fmt.Errorf("provider does not support resource type %q", addr.Resource.Resource.Type)
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}
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gen := states.CurrentGen
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csrc := changes.GetResourceInstanceChange(addr, gen)
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if csrc == nil {
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log.Printf("[TRACE] EvalReadDiff: No planned change recorded for %s", n.Addr)
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return nil, nil
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}
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change, err := csrc.Decode(schema.ImpliedType())
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if err != nil {
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return nil, fmt.Errorf("failed to decode planned changes for %s: %s", n.Addr, err)
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}
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log.Printf("[TRACE] EvalReadDiff: Read %s change from plan for %s", change.Action, n.Addr)
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return change, nil
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}
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func (n *NodeAbstractResourceInstance) checkPreventDestroy(change *plans.ResourceInstanceChange) error {
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if change == nil || n.Config == nil || n.Config.Managed == nil {
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return nil
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}
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preventDestroy := n.Config.Managed.PreventDestroy
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if (change.Action == plans.Delete || change.Action.IsReplace()) && preventDestroy {
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var diags tfdiags.Diagnostics
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diags = diags.Append(&hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Instance cannot be destroyed",
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Detail: fmt.Sprintf(
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"Resource %s has lifecycle.prevent_destroy set, but the plan calls for this resource to be destroyed. To avoid this error and continue with the plan, either disable lifecycle.prevent_destroy or reduce the scope of the plan using the -target flag.",
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n.Addr.String(),
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),
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Subject: &n.Config.DeclRange,
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})
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return diags.Err()
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}
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return nil
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}
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