214 lines
5.9 KiB
Go
214 lines
5.9 KiB
Go
package terraform
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import (
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"sync"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/dag"
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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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// PlanGraphBuilder implements GraphBuilder and is responsible for building
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// a graph for planning (creating a Terraform Diff).
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//
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// The primary difference between this graph and others:
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//
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// * Based on the config since it represents the target state
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//
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// * Ignores lifecycle options since no lifecycle events occur here. This
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// simplifies the graph significantly since complex transforms such as
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// create-before-destroy can be completely ignored.
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//
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type PlanGraphBuilder struct {
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// Config is the configuration tree to build a plan from.
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Config *configs.Config
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// State is the current state
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State *states.State
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// Components is a factory for the plug-in components (providers and
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// provisioners) available for use.
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Components contextComponentFactory
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// Schemas is the repository of schemas we will draw from to analyse
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// the configuration.
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Schemas *Schemas
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// Targets are resources to target
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Targets []addrs.Targetable
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// DisableReduce, if true, will not reduce the graph. Great for testing.
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DisableReduce bool
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// Validate will do structural validation of the graph.
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Validate bool
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// CustomConcrete can be set to customize the node types created
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// for various parts of the plan. This is useful in order to customize
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// the plan behavior.
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CustomConcrete bool
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ConcreteProvider ConcreteProviderNodeFunc
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ConcreteResource ConcreteResourceNodeFunc
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ConcreteResourceOrphan ConcreteResourceInstanceNodeFunc
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ConcreteModule ConcreteModuleNodeFunc
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once sync.Once
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}
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// See GraphBuilder
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func (b *PlanGraphBuilder) Build(path addrs.ModuleInstance) (*Graph, tfdiags.Diagnostics) {
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return (&BasicGraphBuilder{
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Steps: b.Steps(),
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Validate: b.Validate,
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Name: "PlanGraphBuilder",
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}).Build(path)
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}
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// See GraphBuilder
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func (b *PlanGraphBuilder) Steps() []GraphTransformer {
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b.once.Do(b.init)
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concreteResourceInstanceDeposed := func(a *NodeAbstractResourceInstance, key states.DeposedKey) dag.Vertex {
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return &NodePlanDeposedResourceInstanceObject{
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NodeAbstractResourceInstance: a,
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DeposedKey: key,
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}
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}
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steps := []GraphTransformer{
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// Creates all the resources represented in the config
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&ConfigTransformer{
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Concrete: b.ConcreteResource,
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Config: b.Config,
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},
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// Add the local values
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&LocalTransformer{Config: b.Config},
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// Add the outputs
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&OutputTransformer{Config: b.Config},
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// Add orphan resources
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&OrphanResourceInstanceTransformer{
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Concrete: b.ConcreteResourceOrphan,
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State: b.State,
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Config: b.Config,
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},
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// We also need nodes for any deposed instance objects present in the
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// state, so we can plan to destroy them. (This intentionally
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// skips creating nodes for _current_ objects, since ConfigTransformer
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// created nodes that will do that during DynamicExpand.)
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&StateTransformer{
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ConcreteDeposed: concreteResourceInstanceDeposed,
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State: b.State,
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},
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// Create orphan output nodes
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&OrphanOutputTransformer{
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Config: b.Config,
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State: b.State,
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},
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// Attach the configuration to any resources
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&AttachResourceConfigTransformer{Config: b.Config},
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// Attach the state
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&AttachStateTransformer{State: b.State},
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// Add root variables
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&RootVariableTransformer{Config: b.Config},
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&MissingProvisionerTransformer{Provisioners: b.Components.ResourceProvisioners()},
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&ProvisionerTransformer{},
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// Add module variables
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&ModuleVariableTransformer{
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Config: b.Config,
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},
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TransformProviders(b.Components.ResourceProviders(), b.ConcreteProvider, b.Config),
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// Remove modules no longer present in the config
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&RemovedModuleTransformer{Config: b.Config, State: b.State},
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// Must attach schemas before ReferenceTransformer so that we can
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// analyze the configuration to find references.
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&AttachSchemaTransformer{Schemas: b.Schemas, Config: b.Config},
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// Create expansion nodes for all of the module calls. This must
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// come after all other transformers that create nodes representing
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// objects that can belong to modules.
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&ModuleExpansionTransformer{
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Concrete: b.ConcreteModule,
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Config: b.Config,
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},
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// Connect so that the references are ready for targeting. We'll
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// have to connect again later for providers and so on.
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&ReferenceTransformer{},
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// Add the node to fix the state count boundaries
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&CountBoundaryTransformer{
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Config: b.Config,
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},
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// Target
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&TargetsTransformer{
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Targets: b.Targets,
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// Resource nodes from config have not yet been expanded for
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// "count", so we must apply targeting without indices. Exact
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// targeting will be dealt with later when these resources
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// DynamicExpand.
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IgnoreIndices: true,
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},
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// Detect when create_before_destroy must be forced on for a particular
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// node due to dependency edges, to avoid graph cycles during apply.
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&ForcedCBDTransformer{},
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// Close opened plugin connections
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&CloseProviderTransformer{},
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&CloseProvisionerTransformer{},
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// Close the root module
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&CloseRootModuleTransformer{},
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}
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if !b.DisableReduce {
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// Perform the transitive reduction to make our graph a bit
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// more sane if possible (it usually is possible).
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steps = append(steps, &TransitiveReductionTransformer{})
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}
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return steps
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}
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func (b *PlanGraphBuilder) init() {
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// Do nothing if the user requests customizing the fields
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if b.CustomConcrete {
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return
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}
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b.ConcreteProvider = func(a *NodeAbstractProvider) dag.Vertex {
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return &NodeApplyableProvider{
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NodeAbstractProvider: a,
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}
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}
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b.ConcreteResource = func(a *NodeAbstractResource) dag.Vertex {
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return &nodeExpandPlannableResource{
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NodeAbstractResource: a,
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}
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}
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b.ConcreteResourceOrphan = func(a *NodeAbstractResourceInstance) dag.Vertex {
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return &NodePlannableResourceInstanceOrphan{
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NodeAbstractResourceInstance: a,
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}
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}
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}
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