/
diff.go
1451 lines (1226 loc) · 37.5 KB
/
diff.go
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package terraform
import (
"bufio"
"bytes"
"fmt"
"log"
"reflect"
"regexp"
"sort"
"strconv"
"strings"
"sync"
"github.com/hashicorp/terraform/addrs"
"github.com/hashicorp/terraform/configs/configschema"
"github.com/hashicorp/terraform/configs/hcl2shim"
"github.com/zclconf/go-cty/cty"
"github.com/mitchellh/copystructure"
)
// DiffChangeType is an enum with the kind of changes a diff has planned.
type DiffChangeType byte
const (
DiffInvalid DiffChangeType = iota
DiffNone
DiffCreate
DiffUpdate
DiffDestroy
DiffDestroyCreate
// DiffRefresh is only used in the UI for displaying diffs.
// Managed resource reads never appear in plan, and when data source
// reads appear they are represented as DiffCreate in core before
// transforming to DiffRefresh in the UI layer.
DiffRefresh // TODO: Actually use DiffRefresh in core too, for less confusion
)
// multiVal matches the index key to a flatmapped set, list or map
var multiVal = regexp.MustCompile(`\.(#|%)$`)
// Diff tracks the changes that are necessary to apply a configuration
// to an existing infrastructure.
type Diff struct {
// Modules contains all the modules that have a diff
Modules []*ModuleDiff
}
// Prune cleans out unused structures in the diff without affecting
// the behavior of the diff at all.
//
// This is not safe to call concurrently. This is safe to call on a
// nil Diff.
func (d *Diff) Prune() {
if d == nil {
return
}
// Prune all empty modules
newModules := make([]*ModuleDiff, 0, len(d.Modules))
for _, m := range d.Modules {
// If the module isn't empty, we keep it
if !m.Empty() {
newModules = append(newModules, m)
}
}
if len(newModules) == 0 {
newModules = nil
}
d.Modules = newModules
}
// AddModule adds the module with the given path to the diff.
//
// This should be the preferred method to add module diffs since it
// allows us to optimize lookups later as well as control sorting.
func (d *Diff) AddModule(path addrs.ModuleInstance) *ModuleDiff {
// Lower the new-style address into a legacy-style address.
// This requires that none of the steps have instance keys, which is
// true for all addresses at the time of implementing this because
// "count" and "for_each" are not yet implemented for modules.
legacyPath := make([]string, len(path))
for i, step := range path {
if step.InstanceKey != addrs.NoKey {
// FIXME: Once the rest of Terraform is ready to use count and
// for_each, remove all of this and just write the addrs.ModuleInstance
// value itself into the ModuleState.
panic("diff cannot represent modules with count or for_each keys")
}
legacyPath[i] = step.Name
}
m := &ModuleDiff{Path: legacyPath}
m.init()
d.Modules = append(d.Modules, m)
return m
}
// ModuleByPath is used to lookup the module diff for the given path.
// This should be the preferred lookup mechanism as it allows for future
// lookup optimizations.
func (d *Diff) ModuleByPath(path addrs.ModuleInstance) *ModuleDiff {
if d == nil {
return nil
}
for _, mod := range d.Modules {
if mod.Path == nil {
panic("missing module path")
}
modPath := normalizeModulePath(mod.Path)
if modPath.String() == path.String() {
return mod
}
}
return nil
}
// RootModule returns the ModuleState for the root module
func (d *Diff) RootModule() *ModuleDiff {
root := d.ModuleByPath(addrs.RootModuleInstance)
if root == nil {
panic("missing root module")
}
return root
}
// Empty returns true if the diff has no changes.
func (d *Diff) Empty() bool {
if d == nil {
return true
}
for _, m := range d.Modules {
if !m.Empty() {
return false
}
}
return true
}
// Equal compares two diffs for exact equality.
//
// This is different from the Same comparison that is supported which
// checks for operation equality taking into account computed values. Equal
// instead checks for exact equality.
func (d *Diff) Equal(d2 *Diff) bool {
// If one is nil, they must both be nil
if d == nil || d2 == nil {
return d == d2
}
// Sort the modules
sort.Sort(moduleDiffSort(d.Modules))
sort.Sort(moduleDiffSort(d2.Modules))
// Copy since we have to modify the module destroy flag to false so
// we don't compare that. TODO: delete this when we get rid of the
// destroy flag on modules.
dCopy := d.DeepCopy()
d2Copy := d2.DeepCopy()
for _, m := range dCopy.Modules {
m.Destroy = false
}
for _, m := range d2Copy.Modules {
m.Destroy = false
}
// Use DeepEqual
return reflect.DeepEqual(dCopy, d2Copy)
}
// DeepCopy performs a deep copy of all parts of the Diff, making the
// resulting Diff safe to use without modifying this one.
func (d *Diff) DeepCopy() *Diff {
copy, err := copystructure.Config{Lock: true}.Copy(d)
if err != nil {
panic(err)
}
return copy.(*Diff)
}
func (d *Diff) String() string {
var buf bytes.Buffer
keys := make([]string, 0, len(d.Modules))
lookup := make(map[string]*ModuleDiff)
for _, m := range d.Modules {
addr := normalizeModulePath(m.Path)
key := addr.String()
keys = append(keys, key)
lookup[key] = m
}
sort.Strings(keys)
for _, key := range keys {
m := lookup[key]
mStr := m.String()
// If we're the root module, we just write the output directly.
if reflect.DeepEqual(m.Path, rootModulePath) {
buf.WriteString(mStr + "\n")
continue
}
buf.WriteString(fmt.Sprintf("%s:\n", key))
s := bufio.NewScanner(strings.NewReader(mStr))
for s.Scan() {
buf.WriteString(fmt.Sprintf(" %s\n", s.Text()))
}
}
return strings.TrimSpace(buf.String())
}
func (d *Diff) init() {
if d.Modules == nil {
rootDiff := &ModuleDiff{Path: rootModulePath}
d.Modules = []*ModuleDiff{rootDiff}
}
for _, m := range d.Modules {
m.init()
}
}
// ModuleDiff tracks the differences between resources to apply within
// a single module.
type ModuleDiff struct {
Path []string
Resources map[string]*InstanceDiff
Destroy bool // Set only by the destroy plan
}
func (d *ModuleDiff) init() {
if d.Resources == nil {
d.Resources = make(map[string]*InstanceDiff)
}
for _, r := range d.Resources {
r.init()
}
}
// ChangeType returns the type of changes that the diff for this
// module includes.
//
// At a module level, this will only be DiffNone, DiffUpdate, DiffDestroy, or
// DiffCreate. If an instance within the module has a DiffDestroyCreate
// then this will register as a DiffCreate for a module.
func (d *ModuleDiff) ChangeType() DiffChangeType {
result := DiffNone
for _, r := range d.Resources {
change := r.ChangeType()
switch change {
case DiffCreate, DiffDestroy:
if result == DiffNone {
result = change
}
case DiffDestroyCreate, DiffUpdate:
result = DiffUpdate
}
}
return result
}
// Empty returns true if the diff has no changes within this module.
func (d *ModuleDiff) Empty() bool {
if d.Destroy {
return false
}
if len(d.Resources) == 0 {
return true
}
for _, rd := range d.Resources {
if !rd.Empty() {
return false
}
}
return true
}
// Instances returns the instance diffs for the id given. This can return
// multiple instance diffs if there are counts within the resource.
func (d *ModuleDiff) Instances(id string) []*InstanceDiff {
var result []*InstanceDiff
for k, diff := range d.Resources {
if k == id || strings.HasPrefix(k, id+".") {
if !diff.Empty() {
result = append(result, diff)
}
}
}
return result
}
// IsRoot says whether or not this module diff is for the root module.
func (d *ModuleDiff) IsRoot() bool {
return reflect.DeepEqual(d.Path, rootModulePath)
}
// String outputs the diff in a long but command-line friendly output
// format that users can read to quickly inspect a diff.
func (d *ModuleDiff) String() string {
var buf bytes.Buffer
names := make([]string, 0, len(d.Resources))
for name, _ := range d.Resources {
names = append(names, name)
}
sort.Strings(names)
for _, name := range names {
rdiff := d.Resources[name]
crud := "UPDATE"
switch {
case rdiff.RequiresNew() && (rdiff.GetDestroy() || rdiff.GetDestroyTainted()):
crud = "DESTROY/CREATE"
case rdiff.GetDestroy() || rdiff.GetDestroyDeposed():
crud = "DESTROY"
case rdiff.RequiresNew():
crud = "CREATE"
}
extra := ""
if !rdiff.GetDestroy() && rdiff.GetDestroyDeposed() {
extra = " (deposed only)"
}
buf.WriteString(fmt.Sprintf(
"%s: %s%s\n",
crud,
name,
extra))
keyLen := 0
rdiffAttrs := rdiff.CopyAttributes()
keys := make([]string, 0, len(rdiffAttrs))
for key, _ := range rdiffAttrs {
if key == "id" {
continue
}
keys = append(keys, key)
if len(key) > keyLen {
keyLen = len(key)
}
}
sort.Strings(keys)
for _, attrK := range keys {
attrDiff, _ := rdiff.GetAttribute(attrK)
v := attrDiff.New
u := attrDiff.Old
if attrDiff.NewComputed {
v = "<computed>"
}
if attrDiff.Sensitive {
u = "<sensitive>"
v = "<sensitive>"
}
updateMsg := ""
if attrDiff.RequiresNew {
updateMsg = " (forces new resource)"
} else if attrDiff.Sensitive {
updateMsg = " (attribute changed)"
}
buf.WriteString(fmt.Sprintf(
" %s:%s %#v => %#v%s\n",
attrK,
strings.Repeat(" ", keyLen-len(attrK)),
u,
v,
updateMsg))
}
}
return buf.String()
}
// InstanceDiff is the diff of a resource from some state to another.
type InstanceDiff struct {
mu sync.Mutex
Attributes map[string]*ResourceAttrDiff
Destroy bool
DestroyDeposed bool
DestroyTainted bool
// Meta is a simple K/V map that is stored in a diff and persisted to
// plans but otherwise is completely ignored by Terraform core. It is
// meant to be used for additional data a resource may want to pass through.
// The value here must only contain Go primitives and collections.
Meta map[string]interface{}
}
func (d *InstanceDiff) Lock() { d.mu.Lock() }
func (d *InstanceDiff) Unlock() { d.mu.Unlock() }
// ApplyToValue merges the receiver into the given base value, returning a
// new value that incorporates the planned changes. The given value must
// conform to the given schema, or this method will panic.
//
// This method is intended for shimming old subsystems that still use this
// legacy diff type to work with the new-style types.
func (d *InstanceDiff) ApplyToValue(base cty.Value, schema *configschema.Block) (cty.Value, error) {
// Create an InstanceState attributes from our existing state.
// We can use this to more easily apply the diff changes.
attrs := hcl2shim.FlatmapValueFromHCL2(base)
applied, err := d.Apply(attrs, schema)
if err != nil {
return base, err
}
val, err := hcl2shim.HCL2ValueFromFlatmap(applied, schema.ImpliedType())
if err != nil {
return base, err
}
return schema.CoerceValue(val)
}
// Apply applies the diff to the provided flatmapped attributes,
// returning the new instance attributes.
//
// This method is intended for shimming old subsystems that still use this
// legacy diff type to work with the new-style types.
func (d *InstanceDiff) Apply(attrs map[string]string, schema *configschema.Block) (map[string]string, error) {
// We always build a new value here, even if the given diff is "empty",
// because we might be planning to create a new instance that happens
// to have no attributes set, and so we want to produce an empty object
// rather than just echoing back the null old value.
if attrs == nil {
attrs = map[string]string{}
}
// Rather applying the diff to mutate the attrs, we'll copy new values into
// here to avoid the possibility of leaving stale values.
result := map[string]string{}
if d.Destroy || d.DestroyDeposed || d.DestroyTainted {
return result, nil
}
return d.applyBlockDiff(nil, attrs, schema)
}
func (d *InstanceDiff) applyBlockDiff(path []string, attrs map[string]string, schema *configschema.Block) (map[string]string, error) {
result := map[string]string{}
name := ""
if len(path) > 0 {
name = path[len(path)-1]
}
// localPrefix is used to build the local result map
localPrefix := ""
if name != "" {
localPrefix = name + "."
}
// iterate over the schema rather than the attributes, so we can handle
// different block types separately from plain attributes
for n, attrSchema := range schema.Attributes {
var err error
newAttrs, err := d.applyAttrDiff(append(path, n), attrs, attrSchema)
if err != nil {
return result, err
}
for k, v := range newAttrs {
result[localPrefix+k] = v
}
}
blockPrefix := strings.Join(path, ".")
if blockPrefix != "" {
blockPrefix += "."
}
for n, block := range schema.BlockTypes {
// we need to find the set of all keys that traverse this block
candidateKeys := map[string]bool{}
blockKey := blockPrefix + n + "."
localBlockPrefix := localPrefix + n + "."
// we can only trust the diff for sets, since the path changes, so don't
// count existing values as candidate keys. If it turns out we're
// keeping the attributes, we will catch it down below with "keepBlock"
// after we check the set count.
if block.Nesting != configschema.NestingSet {
for k := range attrs {
if strings.HasPrefix(k, blockKey) {
nextDot := strings.Index(k[len(blockKey):], ".")
if nextDot < 0 {
continue
}
nextDot += len(blockKey)
candidateKeys[k[len(blockKey):nextDot]] = true
}
}
}
for k, diff := range d.Attributes {
// helper/schema should not insert nil diff values, but don't panic
// if it does.
if diff == nil {
continue
}
if strings.HasPrefix(k, blockKey) {
nextDot := strings.Index(k[len(blockKey):], ".")
if nextDot < 0 {
continue
}
if diff.NewRemoved {
continue
}
nextDot += len(blockKey)
candidateKeys[k[len(blockKey):nextDot]] = true
}
}
// check each set candidate to see if it was removed.
// we need to do this, because when entire sets are removed, they may
// have the wrong key, and ony show diffs going to ""
if block.Nesting == configschema.NestingSet {
for k := range candidateKeys {
indexPrefix := strings.Join(append(path, n, k), ".") + "."
keep := false
// now check each set element to see if it's a new diff, or one
// that we're dropping. Since we're only applying the "New"
// portion of the set, we can ignore diffs that only contain "Old"
for attr, diff := range d.Attributes {
// helper/schema should not insert nil diff values, but don't panic
// if it does.
if diff == nil {
continue
}
if !strings.HasPrefix(attr, indexPrefix) {
continue
}
// check for empty "count" keys
if (strings.HasSuffix(attr, ".#") || strings.HasSuffix(attr, ".%")) && diff.New == "0" {
continue
}
// removed items don't count either
if diff.NewRemoved {
continue
}
// this must be a diff to keep
keep = true
break
}
if !keep {
delete(candidateKeys, k)
}
}
}
for k := range candidateKeys {
newAttrs, err := d.applyBlockDiff(append(path, n, k), attrs, &block.Block)
if err != nil {
return result, err
}
for attr, v := range newAttrs {
result[localBlockPrefix+attr] = v
}
}
keepBlock := true
// check this block's count diff directly first, since we may not
// have candidates because it was removed and only set to "0"
if diff, ok := d.Attributes[blockKey+"#"]; ok {
if diff.New == "0" || diff.NewRemoved {
keepBlock = false
}
}
// if there was no diff at all, then we need to keep the block attributes
if len(candidateKeys) == 0 && keepBlock {
for k, v := range attrs {
if strings.HasPrefix(k, blockKey) {
// we need the key relative to this block, so remove the
// entire prefix, then re-insert the block name.
localKey := localBlockPrefix + k[len(blockKey):]
result[localKey] = v
}
}
}
countAddr := strings.Join(append(path, n, "#"), ".")
if countDiff, ok := d.Attributes[countAddr]; ok {
if countDiff.NewComputed {
result[localBlockPrefix+"#"] = hcl2shim.UnknownVariableValue
} else {
result[localBlockPrefix+"#"] = countDiff.New
// While sets are complete, list are not, and we may not have all the
// information to track removals. If the list was truncated, we need to
// remove the extra items from the result.
if block.Nesting == configschema.NestingList &&
countDiff.New != "" && countDiff.New != hcl2shim.UnknownVariableValue {
length, _ := strconv.Atoi(countDiff.New)
for k := range result {
if !strings.HasPrefix(k, localBlockPrefix) {
continue
}
index := k[len(localBlockPrefix):]
nextDot := strings.Index(index, ".")
if nextDot < 1 {
continue
}
index = index[:nextDot]
i, err := strconv.Atoi(index)
if err != nil {
// this shouldn't happen since we added these
// ourself, but make note of it just in case.
log.Printf("[ERROR] bad list index in %q: %s", k, err)
continue
}
if i >= length {
delete(result, k)
}
}
}
}
} else if origCount, ok := attrs[countAddr]; ok && keepBlock {
result[localBlockPrefix+"#"] = origCount
} else {
result[localBlockPrefix+"#"] = countFlatmapContainerValues(localBlockPrefix+"#", result)
}
}
return result, nil
}
func (d *InstanceDiff) applyAttrDiff(path []string, attrs map[string]string, attrSchema *configschema.Attribute) (map[string]string, error) {
ty := attrSchema.Type
switch {
case ty.IsListType(), ty.IsTupleType(), ty.IsMapType():
return d.applyCollectionDiff(path, attrs, attrSchema)
case ty.IsSetType():
return d.applySetDiff(path, attrs, attrSchema)
default:
return d.applySingleAttrDiff(path, attrs, attrSchema)
}
}
func (d *InstanceDiff) applySingleAttrDiff(path []string, attrs map[string]string, attrSchema *configschema.Attribute) (map[string]string, error) {
currentKey := strings.Join(path, ".")
attr := path[len(path)-1]
result := map[string]string{}
diff := d.Attributes[currentKey]
old, exists := attrs[currentKey]
if diff != nil && diff.NewComputed {
result[attr] = hcl2shim.UnknownVariableValue
return result, nil
}
// "id" must exist and not be an empty string, or it must be unknown.
// This only applied to top-level "id" fields.
if attr == "id" && len(path) == 1 {
if old == "" {
result[attr] = hcl2shim.UnknownVariableValue
} else {
result[attr] = old
}
return result, nil
}
// attribute diffs are sometimes missed, so assume no diff means keep the
// old value
if diff == nil {
if exists {
result[attr] = old
} else {
// We need required values, so set those with an empty value. It
// must be set in the config, since if it were missing it would have
// failed validation.
if attrSchema.Required {
// we only set a missing string here, since bool or number types
// would have distinct zero value which shouldn't have been
// lost.
if attrSchema.Type == cty.String {
result[attr] = ""
}
}
}
return result, nil
}
// check for missmatched diff values
if exists &&
old != diff.Old &&
old != hcl2shim.UnknownVariableValue &&
diff.Old != hcl2shim.UnknownVariableValue {
return result, fmt.Errorf("diff apply conflict for %s: diff expects %q, but prior value has %q", attr, diff.Old, old)
}
if diff.NewRemoved {
// don't set anything in the new value
return map[string]string{}, nil
}
if diff.Old == diff.New && diff.New == "" {
// this can only be a valid empty string
if attrSchema.Type == cty.String {
result[attr] = ""
}
return result, nil
}
if attrSchema.Computed && diff.NewComputed {
result[attr] = hcl2shim.UnknownVariableValue
return result, nil
}
result[attr] = diff.New
return result, nil
}
func (d *InstanceDiff) applyCollectionDiff(path []string, attrs map[string]string, attrSchema *configschema.Attribute) (map[string]string, error) {
result := map[string]string{}
prefix := ""
if len(path) > 1 {
prefix = strings.Join(path[:len(path)-1], ".") + "."
}
name := ""
if len(path) > 0 {
name = path[len(path)-1]
}
currentKey := prefix + name
// check the index first for special handling
for k, diff := range d.Attributes {
// check the index value, which can be set, and 0
if k == currentKey+".#" || k == currentKey+".%" || k == currentKey {
if diff.NewRemoved {
return result, nil
}
if diff.NewComputed {
result[k[len(prefix):]] = hcl2shim.UnknownVariableValue
return result, nil
}
// do what the diff tells us to here, so that it's consistent with applies
if diff.New == "0" {
result[k[len(prefix):]] = "0"
return result, nil
}
}
}
// collect all the keys from the diff and the old state
noDiff := true
keys := map[string]bool{}
for k := range d.Attributes {
if !strings.HasPrefix(k, currentKey+".") {
continue
}
noDiff = false
keys[k] = true
}
noAttrs := true
for k := range attrs {
if !strings.HasPrefix(k, currentKey+".") {
continue
}
noAttrs = false
keys[k] = true
}
// If there's no diff and no attrs, then there's no value at all.
// This prevents an unexpected zero-count attribute in the attributes.
if noDiff && noAttrs {
return result, nil
}
idx := "#"
if attrSchema.Type.IsMapType() {
idx = "%"
}
for k := range keys {
// generate an schema placeholder for the values
elSchema := &configschema.Attribute{
Type: attrSchema.Type.ElementType(),
}
res, err := d.applySingleAttrDiff(append(path, k[len(currentKey)+1:]), attrs, elSchema)
if err != nil {
return result, err
}
for k, v := range res {
result[name+"."+k] = v
}
}
// Just like in nested list blocks, for simple lists we may need to fill in
// missing empty strings.
countKey := name + "." + idx
count := result[countKey]
length, _ := strconv.Atoi(count)
if count != "" && count != hcl2shim.UnknownVariableValue &&
attrSchema.Type.Equals(cty.List(cty.String)) {
// insert empty strings into missing indexes
for i := 0; i < length; i++ {
key := fmt.Sprintf("%s.%d", name, i)
if _, ok := result[key]; !ok {
result[key] = ""
}
}
}
// now check for truncation in any type of list
if attrSchema.Type.IsListType() {
for key := range result {
if key == countKey {
continue
}
if len(key) <= len(name)+1 {
// not sure what this is, but don't panic
continue
}
index := key[len(name)+1:]
// It is possible to have nested sets or maps, so look for another dot
dot := strings.Index(index, ".")
if dot > 0 {
index = index[:dot]
}
// This shouldn't have any more dots, since the element type is only string.
num, err := strconv.Atoi(index)
if err != nil {
log.Printf("[ERROR] bad list index in %q: %s", currentKey, err)
continue
}
if num >= length {
delete(result, key)
}
}
}
// Fill in the count value if it wasn't present in the diff for some reason,
// or if there is no count at all.
_, countDiff := d.Attributes[countKey]
if result[countKey] == "" || (!countDiff && len(keys) != len(result)) {
result[countKey] = countFlatmapContainerValues(countKey, result)
}
return result, nil
}
func (d *InstanceDiff) applySetDiff(path []string, attrs map[string]string, attrSchema *configschema.Attribute) (map[string]string, error) {
// We only need this special behavior for sets of object.
if !attrSchema.Type.ElementType().IsObjectType() {
// The normal collection apply behavior will work okay for this one, then.
return d.applyCollectionDiff(path, attrs, attrSchema)
}
// When we're dealing with a set of an object type we actually want to
// use our normal _block type_ apply behaviors, so we'll construct ourselves
// a synthetic schema that treats the object type as a block type and
// then delegate to our block apply method.
synthSchema := &configschema.Block{
Attributes: make(map[string]*configschema.Attribute),
}
for name, ty := range attrSchema.Type.ElementType().AttributeTypes() {
// We can safely make everything into an attribute here because in the
// event that there are nested set attributes we'll end up back in
// here again recursively and can then deal with the next level of
// expansion.
synthSchema.Attributes[name] = &configschema.Attribute{
Type: ty,
Optional: true,
}
}
parentPath := path[:len(path)-1]
childName := path[len(path)-1]
containerSchema := &configschema.Block{
BlockTypes: map[string]*configschema.NestedBlock{
childName: {
Nesting: configschema.NestingSet,
Block: *synthSchema,
},
},
}
return d.applyBlockDiff(parentPath, attrs, containerSchema)
}
// countFlatmapContainerValues returns the number of values in the flatmapped container
// (set, map, list) indexed by key. The key argument is expected to include the
// trailing ".#", or ".%".
func countFlatmapContainerValues(key string, attrs map[string]string) string {
if len(key) < 3 || !(strings.HasSuffix(key, ".#") || strings.HasSuffix(key, ".%")) {
panic(fmt.Sprintf("invalid index value %q", key))
}
prefix := key[:len(key)-1]
items := map[string]int{}
for k := range attrs {
if k == key {
continue
}
if !strings.HasPrefix(k, prefix) {
continue
}
suffix := k[len(prefix):]
dot := strings.Index(suffix, ".")
if dot > 0 {
suffix = suffix[:dot]
}
items[suffix]++
}
return strconv.Itoa(len(items))
}
// ResourceAttrDiff is the diff of a single attribute of a resource.
type ResourceAttrDiff struct {
Old string // Old Value
New string // New Value
NewComputed bool // True if new value is computed (unknown currently)
NewRemoved bool // True if this attribute is being removed
NewExtra interface{} // Extra information for the provider
RequiresNew bool // True if change requires new resource
Sensitive bool // True if the data should not be displayed in UI output
Type DiffAttrType
}
// Empty returns true if the diff for this attr is neutral
func (d *ResourceAttrDiff) Empty() bool {
return d.Old == d.New && !d.NewComputed && !d.NewRemoved
}
func (d *ResourceAttrDiff) GoString() string {
return fmt.Sprintf("*%#v", *d)
}
// DiffAttrType is an enum type that says whether a resource attribute
// diff is an input attribute (comes from the configuration) or an
// output attribute (comes as a result of applying the configuration). An
// example input would be "ami" for AWS and an example output would be
// "private_ip".
type DiffAttrType byte
const (
DiffAttrUnknown DiffAttrType = iota
DiffAttrInput
DiffAttrOutput
)
func (d *InstanceDiff) init() {
if d.Attributes == nil {
d.Attributes = make(map[string]*ResourceAttrDiff)
}
}
func NewInstanceDiff() *InstanceDiff {
return &InstanceDiff{Attributes: make(map[string]*ResourceAttrDiff)}