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https://github.com/opentofu/opentofu.git
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f915c5d957
Due to the fact that resources can transition between each modes, trying to track the mode for a resource as a whole in state doesn't work, because there may be instances with a mode different from the resource as a whole. This is difficult for core to track, as this metadata being changed as a side effect from multiple places often causes core to see the incorrect mode when evaluating instances. Since core can always determine the correct mode to evaluate from the configuration, we don't need to interrogate the state to know the mode. Once core no longer needs to reference EachMode from states, the resource state can simply be a container for instances, and doesn't need to try and track the "current" mode.
558 lines
20 KiB
Go
558 lines
20 KiB
Go
package states
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import (
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"log"
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"sync"
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"github.com/hashicorp/terraform/addrs"
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"github.com/zclconf/go-cty/cty"
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)
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// SyncState is a wrapper around State that provides concurrency-safe access to
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// various common operations that occur during a Terraform graph walk, or other
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// similar concurrent contexts.
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//
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// When a SyncState wrapper is in use, no concurrent direct access to the
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// underlying objects is permitted unless the caller first acquires an explicit
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// lock, using the Lock and Unlock methods. Most callers should _not_
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// explicitly lock, and should instead use the other methods of this type that
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// handle locking automatically.
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//
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// Since SyncState is able to safely consolidate multiple updates into a single
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// atomic operation, many of its methods are at a higher level than those
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// of the underlying types, and operate on the state as a whole rather than
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// on individual sub-structures of the state.
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//
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// SyncState can only protect against races within its own methods. It cannot
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// provide any guarantees about the order in which concurrent operations will
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// be processed, so callers may still need to employ higher-level techniques
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// for ensuring correct operation sequencing, such as building and walking
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// a dependency graph.
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type SyncState struct {
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state *State
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lock sync.RWMutex
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}
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// Module returns a snapshot of the state of the module instance with the given
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// address, or nil if no such module is tracked.
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//
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// The return value is a pointer to a copy of the module state, which the
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// caller may then freely access and mutate. However, since the module state
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// tends to be a large data structure with many child objects, where possible
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// callers should prefer to use a more granular accessor to access a child
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// module directly, and thus reduce the amount of copying required.
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func (s *SyncState) Module(addr addrs.ModuleInstance) *Module {
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s.lock.RLock()
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ret := s.state.Module(addr).DeepCopy()
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s.lock.RUnlock()
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return ret
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}
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// ModuleOutputs returns the set of OutputValues that matches the given path.
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func (s *SyncState) ModuleOutputs(parentAddr addrs.ModuleInstance, module addrs.ModuleCall) []*OutputValue {
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s.lock.RLock()
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defer s.lock.RUnlock()
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var os []*OutputValue
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for _, o := range s.state.ModuleOutputs(parentAddr, module) {
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os = append(os, o.DeepCopy())
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}
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return os
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}
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// RemoveModule removes the entire state for the given module, taking with
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// it any resources associated with the module. This should generally be
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// called only for modules whose resources have all been destroyed, but
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// that is not enforced by this method.
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func (s *SyncState) RemoveModule(addr addrs.ModuleInstance) {
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s.lock.Lock()
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defer s.lock.Unlock()
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s.state.RemoveModule(addr)
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}
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// OutputValue returns a snapshot of the state of the output value with the
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// given address, or nil if no such output value is tracked.
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//
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// The return value is a pointer to a copy of the output value state, which the
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// caller may then freely access and mutate.
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func (s *SyncState) OutputValue(addr addrs.AbsOutputValue) *OutputValue {
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s.lock.RLock()
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ret := s.state.OutputValue(addr).DeepCopy()
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s.lock.RUnlock()
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return ret
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}
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// SetOutputValue writes a given output value into the state, overwriting
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// any existing value of the same name.
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//
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// If the module containing the output is not yet tracked in state then it
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// be added as a side-effect.
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func (s *SyncState) SetOutputValue(addr addrs.AbsOutputValue, value cty.Value, sensitive bool) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.SetOutputValue(addr.OutputValue.Name, value, sensitive)
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}
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// RemoveOutputValue removes the stored value for the output value with the
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// given address.
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//
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// If this results in its containing module being empty, the module will be
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// pruned from the state as a side-effect.
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func (s *SyncState) RemoveOutputValue(addr addrs.AbsOutputValue) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return
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}
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ms.RemoveOutputValue(addr.OutputValue.Name)
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s.maybePruneModule(addr.Module)
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}
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// LocalValue returns the current value associated with the given local value
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// address.
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func (s *SyncState) LocalValue(addr addrs.AbsLocalValue) cty.Value {
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s.lock.RLock()
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// cty.Value is immutable, so we don't need any extra copying here.
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ret := s.state.LocalValue(addr)
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s.lock.RUnlock()
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return ret
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}
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// SetLocalValue writes a given output value into the state, overwriting
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// any existing value of the same name.
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//
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// If the module containing the local value is not yet tracked in state then it
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// will be added as a side-effect.
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func (s *SyncState) SetLocalValue(addr addrs.AbsLocalValue, value cty.Value) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.SetLocalValue(addr.LocalValue.Name, value)
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}
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// RemoveLocalValue removes the stored value for the local value with the
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// given address.
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//
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// If this results in its containing module being empty, the module will be
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// pruned from the state as a side-effect.
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func (s *SyncState) RemoveLocalValue(addr addrs.AbsLocalValue) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return
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}
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ms.RemoveLocalValue(addr.LocalValue.Name)
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s.maybePruneModule(addr.Module)
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}
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// Resource returns a snapshot of the state of the resource with the given
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// address, or nil if no such resource is tracked.
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//
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// The return value is a pointer to a copy of the resource state, which the
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// caller may then freely access and mutate.
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func (s *SyncState) Resource(addr addrs.AbsResource) *Resource {
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s.lock.RLock()
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ret := s.state.Resource(addr).DeepCopy()
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s.lock.RUnlock()
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return ret
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}
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// ResourceInstance returns a snapshot of the state the resource instance with
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// the given address, or nil if no such instance is tracked.
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//
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// The return value is a pointer to a copy of the instance state, which the
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// caller may then freely access and mutate.
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func (s *SyncState) ResourceInstance(addr addrs.AbsResourceInstance) *ResourceInstance {
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s.lock.RLock()
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ret := s.state.ResourceInstance(addr).DeepCopy()
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s.lock.RUnlock()
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return ret
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}
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// ResourceInstanceObject returns a snapshot of the current instance object
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// of the given generation belonging to the instance with the given address,
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// or nil if no such object is tracked..
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//
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// The return value is a pointer to a copy of the object, which the caller may
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// then freely access and mutate.
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func (s *SyncState) ResourceInstanceObject(addr addrs.AbsResourceInstance, gen Generation) *ResourceInstanceObjectSrc {
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s.lock.RLock()
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defer s.lock.RUnlock()
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inst := s.state.ResourceInstance(addr)
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if inst == nil {
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return nil
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}
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return inst.GetGeneration(gen).DeepCopy()
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}
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// SetResourceMeta updates the resource-level metadata for the resource at
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// the given address, creating the containing module state and resource state
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// as a side-effect if not already present.
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func (s *SyncState) SetResourceProvider(addr addrs.AbsResource, provider addrs.AbsProviderConfig) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.SetResourceProvider(addr.Resource, provider)
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}
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// RemoveResource removes the entire state for the given resource, taking with
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// it any instances associated with the resource. This should generally be
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// called only for resource objects whose instances have all been destroyed,
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// but that is not enforced by this method. (Use RemoveResourceIfEmpty instead
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// to safely check first.)
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func (s *SyncState) RemoveResource(addr addrs.AbsResource) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.RemoveResource(addr.Resource)
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s.maybePruneModule(addr.Module)
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}
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// RemoveResourceIfEmpty is similar to RemoveResource but first checks to
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// make sure there are no instances or objects left in the resource.
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//
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// Returns true if the resource was removed, or false if remaining child
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// objects prevented its removal. Returns true also if the resource was
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// already absent, and thus no action needed to be taken.
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func (s *SyncState) RemoveResourceIfEmpty(addr addrs.AbsResource) bool {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return true // nothing to do
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}
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rs := ms.Resource(addr.Resource)
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if rs == nil {
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return true // nothing to do
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}
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if len(rs.Instances) != 0 {
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// We don't check here for the possibility of instances that exist
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// but don't have any objects because it's the responsibility of the
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// instance-mutation methods to prune those away automatically.
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return false
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}
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ms.RemoveResource(addr.Resource)
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s.maybePruneModule(addr.Module)
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return true
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}
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// MaybeFixUpResourceInstanceAddressForCount deals with the situation where a
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// resource has changed from having "count" set to not set, or vice-versa, and
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// so we need to rename the zeroth instance key to no key at all, or vice-versa.
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//
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// Set countEnabled to true if the resource has count set in its new
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// configuration, or false if it does not.
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//
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// The state is modified in-place if necessary, moving a resource instance
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// between the two addresses. The return value is true if a change was made,
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// and false otherwise.
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func (s *SyncState) MaybeFixUpResourceInstanceAddressForCount(addr addrs.ConfigResource, countEnabled bool) bool {
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s.lock.Lock()
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defer s.lock.Unlock()
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// get all modules instances that may match this state
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modules := s.state.ModuleInstances(addr.Module)
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if len(modules) == 0 {
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return false
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}
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changed := false
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for _, ms := range modules {
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relAddr := addr.Resource
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rs := ms.Resource(relAddr)
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if rs == nil {
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continue
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}
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huntKey := addrs.NoKey
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replaceKey := addrs.InstanceKey(addrs.IntKey(0))
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if !countEnabled {
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huntKey, replaceKey = replaceKey, huntKey
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}
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is, exists := rs.Instances[huntKey]
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if !exists {
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continue
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}
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if _, exists := rs.Instances[replaceKey]; exists {
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// If the replacement key also exists then we'll do nothing and keep both.
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continue
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}
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// If we get here then we need to "rename" from hunt to replace
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rs.Instances[replaceKey] = is
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delete(rs.Instances, huntKey)
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changed = true
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}
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return changed
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}
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// SetResourceInstanceCurrent saves the given instance object as the current
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// generation of the resource instance with the given address, simultaneously
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// updating the recorded provider configuration address, dependencies, and
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// resource EachMode.
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//
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// Any existing current instance object for the given resource is overwritten.
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// Set obj to nil to remove the primary generation object altogether. If there
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// are no deposed objects then the instance as a whole will be removed, which
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// may in turn also remove the containing module if it becomes empty.
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//
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// The caller must ensure that the given ResourceInstanceObject is not
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// concurrently mutated during this call, but may be freely used again once
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// this function returns.
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//
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// The provider address and "each mode" are resource-wide settings and so they
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// are updated for all other instances of the same resource as a side-effect of
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// this call.
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//
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// If the containing module for this resource or the resource itself are not
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// already tracked in state then they will be added as a side-effect.
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func (s *SyncState) SetResourceInstanceCurrent(addr addrs.AbsResourceInstance, obj *ResourceInstanceObjectSrc, provider addrs.AbsProviderConfig) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.SetResourceInstanceCurrent(addr.Resource, obj.DeepCopy(), provider)
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s.maybePruneModule(addr.Module)
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}
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// SetResourceInstanceDeposed saves the given instance object as a deposed
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// generation of the resource instance with the given address and deposed key.
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//
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// Call this method only for pre-existing deposed objects that already have
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// a known DeposedKey. For example, this method is useful if reloading objects
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// that were persisted to a state file. To mark the current object as deposed,
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// use DeposeResourceInstanceObject instead.
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//
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// The caller must ensure that the given ResourceInstanceObject is not
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// concurrently mutated during this call, but may be freely used again once
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// this function returns.
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//
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// The resource that contains the given instance must already exist in the
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// state, or this method will panic. Use Resource to check first if its
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// presence is not already guaranteed.
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//
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// Any existing current instance object for the given resource and deposed key
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// is overwritten. Set obj to nil to remove the deposed object altogether. If
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// the instance is left with no objects after this operation then it will
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// be removed from its containing resource altogether.
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//
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// If the containing module for this resource or the resource itself are not
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// already tracked in state then they will be added as a side-effect.
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func (s *SyncState) SetResourceInstanceDeposed(addr addrs.AbsResourceInstance, key DeposedKey, obj *ResourceInstanceObjectSrc, provider addrs.AbsProviderConfig) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.EnsureModule(addr.Module)
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ms.SetResourceInstanceDeposed(addr.Resource, key, obj.DeepCopy(), provider)
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s.maybePruneModule(addr.Module)
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}
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// DeposeResourceInstanceObject moves the current instance object for the
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// given resource instance address into the deposed set, leaving the instance
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// without a current object.
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//
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// The return value is the newly-allocated deposed key, or NotDeposed if the
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// given instance is already lacking a current object.
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//
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// If the containing module for this resource or the resource itself are not
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// already tracked in state then there cannot be a current object for the
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// given instance, and so NotDeposed will be returned without modifying the
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// state at all.
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func (s *SyncState) DeposeResourceInstanceObject(addr addrs.AbsResourceInstance) DeposedKey {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return NotDeposed
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}
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return ms.deposeResourceInstanceObject(addr.Resource, NotDeposed)
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}
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// DeposeResourceInstanceObjectForceKey is like DeposeResourceInstanceObject
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// but uses a pre-allocated key. It's the caller's responsibility to ensure
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// that there aren't any races to use a particular key; this method will panic
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// if the given key is already in use.
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func (s *SyncState) DeposeResourceInstanceObjectForceKey(addr addrs.AbsResourceInstance, forcedKey DeposedKey) {
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s.lock.Lock()
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defer s.lock.Unlock()
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if forcedKey == NotDeposed {
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// Usage error: should use DeposeResourceInstanceObject in this case
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panic("DeposeResourceInstanceObjectForceKey called without forced key")
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}
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return // Nothing to do, since there can't be any current object either.
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}
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ms.deposeResourceInstanceObject(addr.Resource, forcedKey)
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}
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// ForgetResourceInstanceAll removes the record of all objects associated with
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// the specified resource instance, if present. If not present, this is a no-op.
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func (s *SyncState) ForgetResourceInstanceAll(addr addrs.AbsResourceInstance) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return
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}
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ms.ForgetResourceInstanceAll(addr.Resource)
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s.maybePruneModule(addr.Module)
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}
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// ForgetResourceInstanceDeposed removes the record of the deposed object with
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// the given address and key, if present. If not present, this is a no-op.
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func (s *SyncState) ForgetResourceInstanceDeposed(addr addrs.AbsResourceInstance, key DeposedKey) {
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s.lock.Lock()
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defer s.lock.Unlock()
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ms := s.state.Module(addr.Module)
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if ms == nil {
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return
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}
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ms.ForgetResourceInstanceDeposed(addr.Resource, key)
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s.maybePruneModule(addr.Module)
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}
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// MaybeRestoreResourceInstanceDeposed will restore the deposed object with the
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// given key on the specified resource as the current object for that instance
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// if and only if that would not cause us to forget an existing current
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// object for that instance.
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//
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// Returns true if the object was restored to current, or false if no change
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// was made at all.
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func (s *SyncState) MaybeRestoreResourceInstanceDeposed(addr addrs.AbsResourceInstance, key DeposedKey) bool {
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s.lock.Lock()
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defer s.lock.Unlock()
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if key == NotDeposed {
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panic("MaybeRestoreResourceInstanceDeposed called without DeposedKey")
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}
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ms := s.state.Module(addr.Module)
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if ms == nil {
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// Nothing to do, since the specified deposed object cannot exist.
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return false
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}
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return ms.maybeRestoreResourceInstanceDeposed(addr.Resource, key)
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}
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// RemovePlannedResourceInstanceObjects removes from the state any resource
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// instance objects that have the status ObjectPlanned, indiciating that they
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// are just transient placeholders created during planning.
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//
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// Note that this does not restore any "ready" or "tainted" object that might
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// have been present before the planned object was written. The only real use
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// for this method is in preparing the state created during a refresh walk,
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// where we run the planning step for certain instances just to create enough
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// information to allow correct expression evaluation within provider and
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// data resource blocks. Discarding planned instances in that case is okay
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// because the refresh phase only creates planned objects to stand in for
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// objects that don't exist yet, and thus the planned object must have been
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// absent before by definition.
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func (s *SyncState) RemovePlannedResourceInstanceObjects() {
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// TODO: Merge together the refresh and plan phases into a single walk,
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// so we can remove the need to create this "partial plan" during refresh
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// that we then need to clean up before proceeding.
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s.lock.Lock()
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defer s.lock.Unlock()
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for _, ms := range s.state.Modules {
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moduleAddr := ms.Addr
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for _, rs := range ms.Resources {
|
|
resAddr := rs.Addr.Resource
|
|
|
|
for ik, is := range rs.Instances {
|
|
instAddr := resAddr.Instance(ik)
|
|
|
|
if is.Current != nil && is.Current.Status == ObjectPlanned {
|
|
// Setting the current instance to nil removes it from the
|
|
// state altogether if there are not also deposed instances.
|
|
ms.SetResourceInstanceCurrent(instAddr, nil, rs.ProviderConfig)
|
|
}
|
|
|
|
for dk, obj := range is.Deposed {
|
|
// Deposed objects should never be "planned", but we'll
|
|
// do this anyway for the sake of completeness.
|
|
if obj.Status == ObjectPlanned {
|
|
ms.ForgetResourceInstanceDeposed(instAddr, dk)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// We may have deleted some objects, which means that we may have
|
|
// left a module empty, and so we must prune to preserve the invariant
|
|
// that only the root module is allowed to be empty.
|
|
s.maybePruneModule(moduleAddr)
|
|
}
|
|
}
|
|
|
|
// Lock acquires an explicit lock on the state, allowing direct read and write
|
|
// access to the returned state object. The caller must call Unlock once
|
|
// access is no longer needed, and then immediately discard the state pointer
|
|
// pointer.
|
|
//
|
|
// Most callers should not use this. Instead, use the concurrency-safe
|
|
// accessors and mutators provided directly on SyncState.
|
|
func (s *SyncState) Lock() *State {
|
|
s.lock.Lock()
|
|
return s.state
|
|
}
|
|
|
|
// Unlock releases a lock previously acquired by Lock, at which point the
|
|
// caller must cease all use of the state pointer that was returned.
|
|
//
|
|
// Do not call this method except to end an explicit lock acquired by
|
|
// Lock. If a caller calls Unlock without first holding the lock, behavior
|
|
// is undefined.
|
|
func (s *SyncState) Unlock() {
|
|
s.lock.Unlock()
|
|
}
|
|
|
|
// maybePruneModule will remove a module from the state altogether if it is
|
|
// empty, unless it's the root module which must always be present.
|
|
//
|
|
// This helper method is not concurrency-safe on its own, so must only be
|
|
// called while the caller is already holding the lock for writing.
|
|
func (s *SyncState) maybePruneModule(addr addrs.ModuleInstance) {
|
|
if addr.IsRoot() {
|
|
// We never prune the root.
|
|
return
|
|
}
|
|
|
|
ms := s.state.Module(addr)
|
|
if ms == nil {
|
|
return
|
|
}
|
|
|
|
if ms.empty() {
|
|
log.Printf("[TRACE] states.SyncState: pruning %s because it is empty", addr)
|
|
s.state.RemoveModule(addr)
|
|
}
|
|
}
|