terraform/terraform/node_resource_refresh.go

179 lines
4.6 KiB
Go

package terraform
import (
"fmt"
"github.com/hashicorp/terraform/config"
"github.com/hashicorp/terraform/dag"
)
// NodeRefreshableManagedResource represents a resource that is expanabled into
// NodeRefreshableManagedResourceInstance. Resource count orphans are also added.
type NodeRefreshableManagedResource struct {
*NodeAbstractCountResource
}
// GraphNodeDynamicExpandable
func (n *NodeRefreshableManagedResource) DynamicExpand(ctx EvalContext) (*Graph, error) {
// Grab the state which we read
state, lock := ctx.State()
lock.RLock()
defer lock.RUnlock()
// Expand the resource count which must be available by now from EvalTree
count, err := n.Config.Count()
if err != nil {
return nil, err
}
// The concrete resource factory we'll use
concreteResource := func(a *NodeAbstractResource) dag.Vertex {
// Add the config and state since we don't do that via transforms
a.Config = n.Config
return &NodeRefreshableManagedResourceInstance{
NodeAbstractResource: a,
}
}
// Start creating the steps
steps := []GraphTransformer{
// Expand the count.
&ResourceCountTransformer{
Concrete: concreteResource,
Count: count,
Addr: n.ResourceAddr(),
},
// Switch up any node missing state to a plannable resource. This helps
// catch cases where data sources depend on the counts from this resource
// during a scale out.
&ResourceRefreshPlannableTransformer{
State: state,
},
// Add the count orphans to make sure these resources are accounted for
// during a scale in.
&OrphanResourceCountTransformer{
Concrete: concreteResource,
Count: count,
Addr: n.ResourceAddr(),
State: state,
},
// Attach the state
&AttachStateTransformer{State: state},
// Targeting
&TargetsTransformer{ParsedTargets: 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: "NodeRefreshableManagedResource",
}
return b.Build(ctx.Path())
}
// NodeRefreshableManagedResourceInstance represents a resource that is "applyable":
// it is ready to be applied and is represented by a diff.
type NodeRefreshableManagedResourceInstance struct {
*NodeAbstractResource
}
// GraphNodeDestroyer
func (n *NodeRefreshableManagedResourceInstance) DestroyAddr() *ResourceAddress {
return n.Addr
}
// GraphNodeEvalable
func (n *NodeRefreshableManagedResourceInstance) EvalTree() EvalNode {
// Eval info is different depending on what kind of resource this is
switch mode := n.Addr.Mode; mode {
case config.ManagedResourceMode:
return n.evalTreeManagedResource()
case config.DataResourceMode:
// Get the data source node. If we don't have a configuration
// then it is an orphan so we destroy it (remove it from the state).
var dn GraphNodeEvalable
if n.Config != nil {
dn = &NodeRefreshableDataResourceInstance{
NodeAbstractResource: n.NodeAbstractResource,
}
} else {
dn = &NodeDestroyableDataResource{
NodeAbstractResource: n.NodeAbstractResource,
}
}
return dn.EvalTree()
default:
panic(fmt.Errorf("unsupported resource mode %s", mode))
}
}
func (n *NodeRefreshableManagedResourceInstance) evalTreeManagedResource() 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,
}
// 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 state *InstanceState
// This happened during initial development. All known cases were
// fixed and tested but as a sanity check let's assert here.
if n.ResourceState == nil {
err := fmt.Errorf(
"No resource state attached for addr: %s\n\n"+
"This is a bug. Please report this to Terraform with your configuration\n"+
"and state attached. Please be careful to scrub any sensitive information.",
addr)
return &EvalReturnError{Error: &err}
}
return &EvalSequence{
Nodes: []EvalNode{
&EvalGetProvider{
Name: n.ProvidedBy()[0],
Output: &provider,
},
&EvalReadState{
Name: stateId,
Output: &state,
},
&EvalRefresh{
Info: info,
Provider: &provider,
State: &state,
Output: &state,
},
&EvalWriteState{
Name: stateId,
ResourceType: n.ResourceState.Type,
Provider: n.ResourceState.Provider,
Dependencies: n.ResourceState.Dependencies,
State: &state,
},
},
}
}