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restore (via copypaste) terraform.State.Remove

This commit is contained in:
Alex Pilon 2019-01-03 22:06:30 -05:00
parent 3e9c51c726
commit 660a854668
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GPG Key ID: 95659F6AEFC48D7E
3 changed files with 674 additions and 3 deletions
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125
terraform/state.go
View File

@ -17,9 +17,9 @@ import (
"sync"
"github.com/hashicorp/errwrap"
"github.com/hashicorp/go-multierror"
"github.com/hashicorp/go-uuid"
"github.com/hashicorp/go-version"
multierror "github.com/hashicorp/go-multierror"
uuid "github.com/hashicorp/go-uuid"
version "github.com/hashicorp/go-version"
"github.com/hashicorp/hcl2/hcl"
"github.com/hashicorp/hcl2/hcl/hclsyntax"
"github.com/mitchellh/copystructure"
@ -328,6 +328,125 @@ func (s *State) Validate() error {
return result
}
// Remove removes the item in the state at the given address, returning
// any errors that may have occurred.
//
// If the address references a module state or resource, it will delete
// all children as well. To check what will be deleted, use a StateFilter
// first.
func (s *State) Remove(addr ...string) error {
s.Lock()
defer s.Unlock()
// Filter out what we need to delete
filter := &StateFilter{State: s}
results, err := filter.Filter(addr...)
if err != nil {
return err
}
// If we have no results, just exit early, we're not going to do anything.
// While what happens below is fairly fast, this is an important early
// exit since the prune below might modify the state more and we don't
// want to modify the state if we don't have to.
if len(results) == 0 {
return nil
}
// Go through each result and grab what we need
removed := make(map[interface{}]struct{})
for _, r := range results {
// Convert the path to our own type
path := append([]string{"root"}, r.Path...)
// If we removed this already, then ignore
if _, ok := removed[r.Value]; ok {
continue
}
// If we removed the parent already, then ignore
if r.Parent != nil {
if _, ok := removed[r.Parent.Value]; ok {
continue
}
}
// Add this to the removed list
removed[r.Value] = struct{}{}
switch v := r.Value.(type) {
case *ModuleState:
s.removeModule(path, v)
case *ResourceState:
s.removeResource(path, v)
case *InstanceState:
s.removeInstance(path, r.Parent.Value.(*ResourceState), v)
default:
return fmt.Errorf("unknown type to delete: %T", r.Value)
}
}
// Prune since the removal functions often do the bare minimum to
// remove a thing and may leave around dangling empty modules, resources,
// etc. Prune will clean that all up.
s.prune()
return nil
}
func (s *State) removeModule(path []string, v *ModuleState) {
for i, m := range s.Modules {
if m == v {
s.Modules, s.Modules[len(s.Modules)-1] = append(s.Modules[:i], s.Modules[i+1:]...), nil
return
}
}
}
func (s *State) removeResource(path []string, v *ResourceState) {
// Get the module this resource lives in. If it doesn't exist, we're done.
mod := s.moduleByPath(normalizeModulePath(path))
if mod == nil {
return
}
// Find this resource. This is a O(N) lookup when if we had the key
// it could be O(1) but even with thousands of resources this shouldn't
// matter right now. We can easily up performance here when the time comes.
for k, r := range mod.Resources {
if r == v {
// Found it
delete(mod.Resources, k)
return
}
}
}
func (s *State) removeInstance(path []string, r *ResourceState, v *InstanceState) {
// Go through the resource and find the instance that matches this
// (if any) and remove it.
// Check primary
if r.Primary == v {
r.Primary = nil
return
}
// Check lists
lists := [][]*InstanceState{r.Deposed}
for _, is := range lists {
for i, instance := range is {
if instance == v {
// Found it, remove it
is, is[len(is)-1] = append(is[:i], is[i+1:]...), nil
// Done
return
}
}
}
}
// RootModule returns the ModuleState for the root module
func (s *State) RootModule() *ModuleState {
root := s.ModuleByPath(addrs.RootModuleInstance)

267
terraform/state_filter.go Normal file
View File

@ -0,0 +1,267 @@
package terraform
import (
"fmt"
"sort"
)
// StateFilter is responsible for filtering and searching a state.
//
// This is a separate struct from State rather than a method on State
// because StateFilter might create sidecar data structures to optimize
// filtering on the state.
//
// If you change the State, the filter created is invalid and either
// Reset should be called or a new one should be allocated. StateFilter
// will not watch State for changes and do this for you. If you filter after
// changing the State without calling Reset, the behavior is not defined.
type StateFilter struct {
State *State
}
// Filter takes the addresses specified by fs and finds all the matches.
// The values of fs are resource addressing syntax that can be parsed by
// ParseResourceAddress.
func (f *StateFilter) Filter(fs ...string) ([]*StateFilterResult, error) {
// Parse all the addresses
as := make([]*ResourceAddress, len(fs))
for i, v := range fs {
a, err := ParseResourceAddress(v)
if err != nil {
return nil, fmt.Errorf("Error parsing address '%s': %s", v, err)
}
as[i] = a
}
// If we weren't given any filters, then we list all
if len(fs) == 0 {
as = append(as, &ResourceAddress{Index: -1})
}
// Filter each of the address. We keep track of this in a map to
// strip duplicates.
resultSet := make(map[string]*StateFilterResult)
for _, a := range as {
for _, r := range f.filterSingle(a) {
resultSet[r.String()] = r
}
}
// Make the result list
results := make([]*StateFilterResult, 0, len(resultSet))
for _, v := range resultSet {
results = append(results, v)
}
// Sort them and return
sort.Sort(StateFilterResultSlice(results))
return results, nil
}
func (f *StateFilter) filterSingle(a *ResourceAddress) []*StateFilterResult {
// The slice to keep track of results
var results []*StateFilterResult
// Go through modules first.
modules := make([]*ModuleState, 0, len(f.State.Modules))
for _, m := range f.State.Modules {
if f.relevant(a, m) {
modules = append(modules, m)
// Only add the module to the results if we haven't specified a type.
// We also ignore the root module.
if a.Type == "" && len(m.Path) > 1 {
results = append(results, &StateFilterResult{
Path: m.Path[1:],
Address: (&ResourceAddress{Path: m.Path[1:]}).String(),
Value: m,
})
}
}
}
// With the modules set, go through all the resources within
// the modules to find relevant resources.
for _, m := range modules {
for n, r := range m.Resources {
// The name in the state contains valuable information. Parse.
key, err := ParseResourceStateKey(n)
if err != nil {
// If we get an error parsing, then just ignore it
// out of the state.
continue
}
// Older states and test fixtures often don't contain the
// type directly on the ResourceState. We add this so StateFilter
// is a bit more robust.
if r.Type == "" {
r.Type = key.Type
}
if f.relevant(a, r) {
if a.Name != "" && a.Name != key.Name {
// Name doesn't match
continue
}
if a.Index >= 0 && key.Index != a.Index {
// Index doesn't match
continue
}
if a.Name != "" && a.Name != key.Name {
continue
}
// Build the address for this resource
addr := &ResourceAddress{
Path: m.Path[1:],
Name: key.Name,
Type: key.Type,
Index: key.Index,
}
// Add the resource level result
resourceResult := &StateFilterResult{
Path: addr.Path,
Address: addr.String(),
Value: r,
}
if !a.InstanceTypeSet {
results = append(results, resourceResult)
}
// Add the instances
if r.Primary != nil {
addr.InstanceType = TypePrimary
addr.InstanceTypeSet = false
results = append(results, &StateFilterResult{
Path: addr.Path,
Address: addr.String(),
Parent: resourceResult,
Value: r.Primary,
})
}
for _, instance := range r.Deposed {
if f.relevant(a, instance) {
addr.InstanceType = TypeDeposed
addr.InstanceTypeSet = true
results = append(results, &StateFilterResult{
Path: addr.Path,
Address: addr.String(),
Parent: resourceResult,
Value: instance,
})
}
}
}
}
}
return results
}
// relevant checks for relevance of this address against the given value.
func (f *StateFilter) relevant(addr *ResourceAddress, raw interface{}) bool {
switch v := raw.(type) {
case *ModuleState:
path := v.Path[1:]
if len(addr.Path) > len(path) {
// Longer path in address means there is no way we match.
return false
}
// Check for a prefix match
for i, p := range addr.Path {
if path[i] != p {
// Any mismatches don't match.
return false
}
}
return true
case *ResourceState:
if addr.Type == "" {
// If we have no resource type, then we're interested in all!
return true
}
// If the type doesn't match we fail immediately
if v.Type != addr.Type {
return false
}
return true
default:
// If we don't know about it, let's just say no
return false
}
}
// StateFilterResult is a single result from a filter operation. Filter
// can match multiple things within a state (module, resource, instance, etc.)
// and this unifies that.
type StateFilterResult struct {
// Module path of the result
Path []string
// Address is the address that can be used to reference this exact result.
Address string
// Parent, if non-nil, is a parent of this result. For instances, the
// parent would be a resource. For resources, the parent would be
// a module. For modules, this is currently nil.
Parent *StateFilterResult
// Value is the actual value. This must be type switched on. It can be
// any data structures that `State` can hold: `ModuleState`,
// `ResourceState`, `InstanceState`.
Value interface{}
}
func (r *StateFilterResult) String() string {
return fmt.Sprintf("%T: %s", r.Value, r.Address)
}
func (r *StateFilterResult) sortedType() int {
switch r.Value.(type) {
case *ModuleState:
return 0
case *ResourceState:
return 1
case *InstanceState:
return 2
default:
return 50
}
}
// StateFilterResultSlice is a slice of results that implements
// sort.Interface. The sorting goal is what is most appealing to
// human output.
type StateFilterResultSlice []*StateFilterResult
func (s StateFilterResultSlice) Len() int { return len(s) }
func (s StateFilterResultSlice) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func (s StateFilterResultSlice) Less(i, j int) bool {
a, b := s[i], s[j]
// if these address contain an index, we want to sort by index rather than name
addrA, errA := ParseResourceAddress(a.Address)
addrB, errB := ParseResourceAddress(b.Address)
if errA == nil && errB == nil && addrA.Name == addrB.Name && addrA.Index != addrB.Index {
return addrA.Index < addrB.Index
}
// If the addresses are different it is just lexographic sorting
if a.Address != b.Address {
return a.Address < b.Address
}
// Addresses are the same, which means it matters on the type
return a.sortedType() < b.sortedType()
}

285
terraform/state_test.go
View File

@ -689,6 +689,291 @@ func TestStateMarshalEqual(t *testing.T) {
}
}
func TestStateRemove(t *testing.T) {
cases := map[string]struct {
Address string
One, Two *State
}{
"simple resource": {
"test_instance.foo",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.bar": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.bar": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
},
"single instance": {
"test_instance.foo.primary",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{},
},
},
},
},
"single instance in multi-count": {
"test_instance.foo[0]",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo.0": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.foo.1": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo.1": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
},
"single resource, multi-count": {
"test_instance.foo",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo.0": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.foo.1": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{},
},
},
},
},
"full module": {
"module.foo",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
&ModuleState{
Path: []string{"root", "foo"},
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.bar": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
},
"module and children": {
"module.foo",
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
&ModuleState{
Path: []string{"root", "foo"},
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.bar": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
&ModuleState{
Path: []string{"root", "foo", "bar"},
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
"test_instance.bar": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
&State{
Modules: []*ModuleState{
&ModuleState{
Path: rootModulePath,
Resources: map[string]*ResourceState{
"test_instance.foo": &ResourceState{
Type: "test_instance",
Primary: &InstanceState{
ID: "foo",
},
},
},
},
},
},
},
}
for k, tc := range cases {
if err := tc.One.Remove(tc.Address); err != nil {
t.Fatalf("bad: %s\n\n%s", k, err)
}
if !tc.One.Equal(tc.Two) {
t.Fatalf("Bad: %s\n\n%s\n\n%s", k, tc.One.String(), tc.Two.String())
}
}
}
func TestResourceStateEqual(t *testing.T) {
cases := []struct {
Result bool