terraform/helper/schema/resource_data.go

1127 lines
26 KiB
Go

package schema
import (
"fmt"
"reflect"
"strconv"
"strings"
"sync"
"github.com/hashicorp/terraform/terraform"
"github.com/mitchellh/mapstructure"
)
// ResourceData is used to query and set the attributes of a resource.
//
// ResourceData is the primary argument received for CRUD operations on
// a resource as well as configuration of a provider. It is a powerful
// structure that can be used to not only query data, but check for changes,
// define partial state updates, etc.
//
// The most relevant methods to take a look at are Get, Set, and Partial.
type ResourceData struct {
// Settable (internally)
schema map[string]*Schema
config *terraform.ResourceConfig
state *terraform.InstanceState
diff *terraform.InstanceDiff
diffing bool
// Don't set
setMap map[string]string
newState *terraform.InstanceState
partial bool
partialMap map[string]struct{}
once sync.Once
}
// getSource represents the level we want to get for a value (internally).
// Any source less than or equal to the level will be loaded (whichever
// has a value first).
type getSource byte
const (
getSourceState getSource = 1 << iota
getSourceConfig
getSourceSet
getSourceExact // Only get from the _exact_ level
getSourceDiff // Apply the diff on top our level
getSourceLevelMask getSource = getSourceState | getSourceConfig | getSourceSet
getSourceMax getSource = getSourceSet
)
// getResult is the internal structure that is generated when a Get
// is called that contains some extra data that might be used.
type getResult struct {
Value interface{}
ValueProcessed interface{}
Computed bool
Exists bool
Schema *Schema
}
var getResultEmpty getResult
// Get returns the data for the given key, or nil if the key doesn't exist
// in the schema.
//
// If the key does exist in the schema but doesn't exist in the configuration,
// then the default value for that type will be returned. For strings, this is
// "", for numbers it is 0, etc.
//
// If you want to test if something is set at all in the configuration,
// use GetOk.
func (d *ResourceData) Get(key string) interface{} {
v, _ := d.GetOk(key)
return v
}
// GetChange returns the old and new value for a given key.
//
// HasChange should be used to check if a change exists. It is possible
// that both the old and new value are the same if the old value was not
// set and the new value is. This is common, for example, for boolean
// fields which have a zero value of false.
func (d *ResourceData) GetChange(key string) (interface{}, interface{}) {
o, n := d.getChange(key, getSourceConfig, getSourceConfig|getSourceDiff)
return o.Value, n.Value
}
// GetOk returns the data for the given key and whether or not the key
// existed or not in the configuration. The second boolean result will also
// be false if a key is given that isn't in the schema at all.
//
// The first result will not necessarilly be nil if the value doesn't exist.
// The second result should be checked to determine this information.
func (d *ResourceData) GetOk(key string) (interface{}, bool) {
r := d.getRaw(key, getSourceSet|getSourceDiff)
return r.Value, r.Exists
}
func (d *ResourceData) getRaw(key string, level getSource) getResult {
var parts []string
if key != "" {
parts = strings.Split(key, ".")
}
return d.getObject("", parts, d.schema, level)
}
// HasChange returns whether or not the given key has been changed.
func (d *ResourceData) HasChange(key string) bool {
o, n := d.GetChange(key)
return !reflect.DeepEqual(o, n)
}
// Partial turns partial state mode on/off.
//
// When partial state mode is enabled, then only key prefixes specified
// by SetPartial will be in the final state. This allows providers to return
// partial states for partially applied resources (when errors occur).
func (d *ResourceData) Partial(on bool) {
d.partial = on
if on {
if d.partialMap == nil {
d.partialMap = make(map[string]struct{})
}
} else {
d.partialMap = nil
}
}
// Set sets the value for the given key.
//
// If the key is invalid or the value is not a correct type, an error
// will be returned.
func (d *ResourceData) Set(key string, value interface{}) error {
if d.setMap == nil {
d.setMap = make(map[string]string)
}
parts := strings.Split(key, ".")
return d.setObject("", parts, d.schema, value)
}
// SetPartial adds the key prefix to the final state output while
// in partial state mode.
//
// If partial state mode is disabled, then this has no effect. Additionally,
// whenever partial state mode is toggled, the partial data is cleared.
func (d *ResourceData) SetPartial(k string) {
if d.partial {
d.partialMap[k] = struct{}{}
}
}
// Id returns the ID of the resource.
func (d *ResourceData) Id() string {
var result string
if d.state != nil {
result = d.state.ID
}
if d.newState != nil {
result = d.newState.ID
}
return result
}
// ConnInfo returns the connection info for this resource.
func (d *ResourceData) ConnInfo() map[string]string {
if d.newState != nil {
return d.newState.Ephemeral.ConnInfo
}
if d.state != nil {
return d.state.Ephemeral.ConnInfo
}
return nil
}
// SetId sets the ID of the resource. If the value is blank, then the
// resource is destroyed.
func (d *ResourceData) SetId(v string) {
d.once.Do(d.init)
d.newState.ID = v
}
// SetConnInfo sets the connection info for a resource.
func (d *ResourceData) SetConnInfo(v map[string]string) {
d.once.Do(d.init)
d.newState.Ephemeral.ConnInfo = v
}
// State returns the new InstanceState after the diff and any Set
// calls.
func (d *ResourceData) State() *terraform.InstanceState {
var result terraform.InstanceState
result.ID = d.Id()
// If we have no ID, then this resource doesn't exist and we just
// return nil.
if result.ID == "" {
return nil
}
result.Attributes = d.stateObject("", d.schema)
result.Ephemeral.ConnInfo = d.ConnInfo()
if v := d.Id(); v != "" {
result.Attributes["id"] = d.Id()
}
return &result
}
func (d *ResourceData) init() {
var copyState terraform.InstanceState
if d.state != nil {
copyState = *d.state
}
d.newState = &copyState
}
func (d *ResourceData) diffChange(
k string) (interface{}, interface{}, bool, bool) {
// Get the change between the state and the config.
o, n := d.getChange(k, getSourceState, getSourceConfig|getSourceExact)
if !o.Exists {
o.Value = nil
}
if !n.Exists {
n.Value = nil
}
// Return the old, new, and whether there is a change
return o.Value, n.Value, !reflect.DeepEqual(o.Value, n.Value), n.Computed
}
func (d *ResourceData) getChange(
key string,
oldLevel getSource,
newLevel getSource) (getResult, getResult) {
var parts, parts2 []string
if key != "" {
parts = strings.Split(key, ".")
parts2 = strings.Split(key, ".")
}
o := d.getObject("", parts, d.schema, oldLevel)
n := d.getObject("", parts2, d.schema, newLevel)
return o, n
}
func (d *ResourceData) get(
k string,
parts []string,
schema *Schema,
source getSource) getResult {
switch schema.Type {
case TypeList:
return d.getList(k, parts, schema, source)
case TypeMap:
return d.getMap(k, parts, schema, source)
case TypeSet:
return d.getSet(k, parts, schema, source)
case TypeBool:
fallthrough
case TypeInt:
fallthrough
case TypeString:
return d.getPrimitive(k, parts, schema, source)
default:
panic(fmt.Sprintf("%s: unknown type %#v", k, schema.Type))
}
}
func (d *ResourceData) getSet(
k string,
parts []string,
schema *Schema,
source getSource) getResult {
s := &Set{F: schema.Set}
result := getResult{Schema: schema, Value: s}
// Get the list. For sets, the entire source must be exact: the
// entire set must come from set, diff, state, etc. So we go backwards
// and once we get a result, we take it. Or, we never get a result.
var raw getResult
sourceLevel := source & getSourceLevelMask
sourceFlags := source & ^getSourceLevelMask
for listSource := sourceLevel; listSource > 0; listSource >>= 1 {
// If we're already asking for an exact source and it doesn't
// match, then leave since the original source was the match.
if sourceFlags&getSourceExact != 0 && listSource != sourceLevel {
break
}
// The source we get from is the level we're on, plus the flags
// we had, plus the exact flag.
getSource := listSource
getSource |= sourceFlags
getSource |= getSourceExact
raw = d.getList(k, nil, schema, getSource)
if raw.Exists {
break
}
}
if !raw.Exists {
if len(parts) > 0 {
return d.getList(k, parts, schema, source)
}
return result
}
// If the entire list is computed, then the entire set is
// necessarilly computed.
if raw.Computed {
result.Computed = true
return result
}
list := raw.Value.([]interface{})
if len(list) == 0 {
if len(parts) > 0 {
return d.getList(k, parts, schema, source)
}
result.Exists = raw.Exists
return result
}
// This is a reverse map of hash code => index in config used to
// resolve direct set item lookup for turning into state. Confused?
// Read on...
//
// To create the state (the state* functions), a Get call is done
// with a full key such as "ports.0". The index of a set ("0") doesn't
// make a lot of sense, but we need to deterministically list out
// elements of the set like this. Luckily, same sets have a deterministic
// List() output, so we can use that to look things up.
//
// This mapping makes it so that we can look up the hash code of an
// object back to its index in the REAL config.
var indexMap map[int]int
if len(parts) > 0 {
indexMap = make(map[int]int)
}
// Build the set from all the items using the given hash code
for i, v := range list {
code := s.add(v)
if indexMap != nil {
indexMap[code] = i
}
}
// If we're trying to get a specific element, then rewrite the
// index to be just that, then jump direct to getList.
if len(parts) > 0 {
index := parts[0]
indexInt, err := strconv.ParseInt(index, 0, 0)
if err != nil {
return getResultEmpty
}
codes := s.listCode()
if int(indexInt) >= len(codes) {
return getResultEmpty
}
code := codes[indexInt]
realIndex := indexMap[code]
parts[0] = strconv.FormatInt(int64(realIndex), 10)
return d.getList(k, parts, schema, source)
}
result.Exists = true
return result
}
func (d *ResourceData) getMap(
k string,
parts []string,
schema *Schema,
source getSource) getResult {
elemSchema := &Schema{Type: TypeString}
result := make(map[string]interface{})
resultSet := false
prefix := k + "."
flags := source & ^getSourceLevelMask
level := source & getSourceLevelMask
exact := flags&getSourceExact != 0
diff := flags&getSourceDiff != 0
if !exact || level == getSourceState {
if d.state != nil && level >= getSourceState {
for k, _ := range d.state.Attributes {
if !strings.HasPrefix(k, prefix) {
continue
}
single := k[len(prefix):]
result[single] = d.getPrimitive(k, nil, elemSchema, source).Value
resultSet = true
}
}
}
if d.config != nil && level == getSourceConfig {
// For config, we always set the result to exactly what was requested
if mraw, ok := d.config.Get(k); ok {
result = make(map[string]interface{})
switch m := mraw.(type) {
case []interface{}:
for _, innerRaw := range m {
for k, v := range innerRaw.(map[string]interface{}) {
result[k] = v
}
}
resultSet = true
case []map[string]interface{}:
for _, innerRaw := range m {
for k, v := range innerRaw {
result[k] = v
}
}
resultSet = true
case map[string]interface{}:
result = m
resultSet = true
default:
panic(fmt.Sprintf("unknown type: %#v", mraw))
}
} else {
result = nil
}
}
if d.diff != nil && diff {
for k, v := range d.diff.Attributes {
if !strings.HasPrefix(k, prefix) {
continue
}
resultSet = true
single := k[len(prefix):]
if v.NewRemoved {
delete(result, single)
} else {
result[single] = d.getPrimitive(k, nil, elemSchema, source).Value
}
}
}
if !exact || level == getSourceSet {
if d.setMap != nil && level >= getSourceSet {
cleared := false
for k, _ := range d.setMap {
if !strings.HasPrefix(k, prefix) {
continue
}
resultSet = true
if !cleared {
// We clear the results if they are in the set map
result = make(map[string]interface{})
cleared = true
}
single := k[len(prefix):]
result[single] = d.getPrimitive(k, nil, elemSchema, source).Value
}
}
}
// If we're requesting a specific element, return that
var resultValue interface{} = result
if len(parts) > 0 {
resultValue = result[parts[0]]
}
return getResult{
Value: resultValue,
Exists: resultSet,
Schema: schema,
}
}
func (d *ResourceData) getObject(
k string,
parts []string,
schema map[string]*Schema,
source getSource) getResult {
if len(parts) > 0 {
// We're requesting a specific key in an object
key := parts[0]
parts = parts[1:]
s, ok := schema[key]
if !ok {
return getResultEmpty
}
if k != "" {
// If we're not at the root, then we need to append
// the key to get the full key path.
key = fmt.Sprintf("%s.%s", k, key)
}
return d.get(key, parts, s, source)
}
// Get the entire object
result := make(map[string]interface{})
for field, _ := range schema {
result[field] = d.getObject(k, []string{field}, schema, source).Value
}
return getResult{
Value: result,
Exists: true,
Schema: &Schema{
Elem: schema,
},
}
}
func (d *ResourceData) getList(
k string,
parts []string,
schema *Schema,
source getSource) getResult {
if len(parts) > 0 {
// We still have parts left over meaning we're accessing an
// element of this list.
idx := parts[0]
parts = parts[1:]
// Special case if we're accessing the count of the list
if idx == "#" {
schema := &Schema{Type: TypeInt}
return d.get(k+".#", parts, schema, source)
}
key := fmt.Sprintf("%s.%s", k, idx)
switch t := schema.Elem.(type) {
case *Resource:
return d.getObject(key, parts, t.Schema, source)
case *Schema:
return d.get(key, parts, t, source)
}
}
// Get the entire list.
var result []interface{}
count := d.getList(k, []string{"#"}, schema, source)
if !count.Computed {
result = make([]interface{}, count.Value.(int))
for i, _ := range result {
is := strconv.FormatInt(int64(i), 10)
result[i] = d.getList(k, []string{is}, schema, source).Value
}
}
return getResult{
Value: result,
Computed: count.Computed,
Exists: count.Exists,
Schema: schema,
}
}
func (d *ResourceData) getPrimitive(
k string,
parts []string,
schema *Schema,
source getSource) getResult {
var result string
var resultProcessed interface{}
var resultComputed, resultSet bool
flags := source & ^getSourceLevelMask
source = source & getSourceLevelMask
exact := flags&getSourceExact != 0
diff := flags&getSourceDiff != 0
if !exact || source == getSourceState {
if d.state != nil && source >= getSourceState {
result, resultSet = d.state.Attributes[k]
}
}
// No exact check is needed here because config is always exact
if d.config != nil && source == getSourceConfig {
// For config, we always return the exact value
if v, ok := d.config.Get(k); ok {
if err := mapstructure.WeakDecode(v, &result); err != nil {
panic(err)
}
resultSet = true
} else {
result = ""
resultSet = false
}
// If it is computed, set that.
resultComputed = d.config.IsComputed(k)
}
if d.diff != nil && diff {
attrD, ok := d.diff.Attributes[k]
if ok {
if !attrD.NewComputed {
result = attrD.New
if attrD.NewExtra != nil {
// If NewExtra != nil, then we have processed data as the New,
// so we store that but decode the unprocessed data into result
resultProcessed = result
err := mapstructure.WeakDecode(attrD.NewExtra, &result)
if err != nil {
panic(err)
}
}
resultSet = true
} else {
result = ""
resultSet = false
}
}
}
if !exact || source == getSourceSet {
if d.setMap != nil && source >= getSourceSet {
if v, ok := d.setMap[k]; ok {
result = v
resultSet = true
}
}
}
if !resultSet {
result = ""
}
var resultValue interface{}
switch schema.Type {
case TypeBool:
if result == "" {
resultValue = false
break
}
v, err := strconv.ParseBool(result)
if err != nil {
panic(err)
}
resultValue = v
case TypeString:
// Use the value as-is. We just put this case here to be explicit.
resultValue = result
case TypeInt:
if result == "" {
resultValue = 0
break
}
if resultComputed {
break
}
v, err := strconv.ParseInt(result, 0, 0)
if err != nil {
panic(err)
}
resultValue = int(v)
default:
panic(fmt.Sprintf("Unknown type: %#v", schema.Type))
}
return getResult{
Value: resultValue,
ValueProcessed: resultProcessed,
Computed: resultComputed,
Exists: resultSet,
Schema: schema,
}
}
func (d *ResourceData) set(
k string,
parts []string,
schema *Schema,
value interface{}) error {
switch schema.Type {
case TypeList:
return d.setList(k, parts, schema, value)
case TypeMap:
return d.setMapValue(k, parts, schema, value)
case TypeSet:
return d.setSet(k, parts, schema, value)
case TypeBool:
fallthrough
case TypeInt:
fallthrough
case TypeString:
return d.setPrimitive(k, schema, value)
default:
panic(fmt.Sprintf("%s: unknown type %#v", k, schema.Type))
}
}
func (d *ResourceData) setList(
k string,
parts []string,
schema *Schema,
value interface{}) error {
if len(parts) > 0 {
// We're setting a specific element
idx := parts[0]
parts = parts[1:]
// Special case if we're accessing the count of the list
if idx == "#" {
return fmt.Errorf("%s: can't set count of list", k)
}
key := fmt.Sprintf("%s.%s", k, idx)
switch t := schema.Elem.(type) {
case *Resource:
return d.setObject(key, parts, t.Schema, value)
case *Schema:
return d.set(key, parts, t, value)
}
}
var vs []interface{}
if err := mapstructure.Decode(value, &vs); err != nil {
return fmt.Errorf("%s: %s", k, err)
}
// Set the entire list.
var err error
for i, elem := range vs {
is := strconv.FormatInt(int64(i), 10)
err = d.setList(k, []string{is}, schema, elem)
if err != nil {
break
}
}
if err != nil {
for i, _ := range vs {
is := strconv.FormatInt(int64(i), 10)
d.setList(k, []string{is}, schema, nil)
}
return err
}
d.setMap[k+".#"] = strconv.FormatInt(int64(len(vs)), 10)
return nil
}
func (d *ResourceData) setMapValue(
k string,
parts []string,
schema *Schema,
value interface{}) error {
elemSchema := &Schema{Type: TypeString}
if len(parts) > 0 {
return fmt.Errorf("%s: full map must be set, no a single element", k)
}
// Delete any prior map set
/*
v := d.getMap(k, nil, schema, getSourceSet)
for subKey, _ := range v.(map[string]interface{}) {
delete(d.setMap, fmt.Sprintf("%s.%s", k, subKey))
}
*/
v := reflect.ValueOf(value)
if v.Kind() != reflect.Map {
return fmt.Errorf("%s: must be a map", k)
}
if v.Type().Key().Kind() != reflect.String {
return fmt.Errorf("%s: keys must strings", k)
}
vs := make(map[string]interface{})
for _, mk := range v.MapKeys() {
mv := v.MapIndex(mk)
vs[mk.String()] = mv.Interface()
}
for subKey, v := range vs {
err := d.set(fmt.Sprintf("%s.%s", k, subKey), nil, elemSchema, v)
if err != nil {
return err
}
}
return nil
}
func (d *ResourceData) setObject(
k string,
parts []string,
schema map[string]*Schema,
value interface{}) error {
if len(parts) > 0 {
// We're setting a specific key in an object
key := parts[0]
parts = parts[1:]
s, ok := schema[key]
if !ok {
return fmt.Errorf("%s (internal): unknown key to set: %s", k, key)
}
if k != "" {
// If we're not at the root, then we need to append
// the key to get the full key path.
key = fmt.Sprintf("%s.%s", k, key)
}
return d.set(key, parts, s, value)
}
// Set the entire object. First decode into a proper structure
var v map[string]interface{}
if err := mapstructure.Decode(value, &v); err != nil {
return fmt.Errorf("%s: %s", k, err)
}
// Set each element in turn
var err error
for k1, v1 := range v {
err = d.setObject(k, []string{k1}, schema, v1)
if err != nil {
break
}
}
if err != nil {
for k1, _ := range v {
d.setObject(k, []string{k1}, schema, nil)
}
}
return err
}
func (d *ResourceData) setPrimitive(
k string,
schema *Schema,
v interface{}) error {
if v == nil {
delete(d.setMap, k)
return nil
}
var set string
switch schema.Type {
case TypeBool:
var b bool
if err := mapstructure.Decode(v, &b); err != nil {
return fmt.Errorf("%s: %s", k, err)
}
set = strconv.FormatBool(b)
case TypeString:
if err := mapstructure.Decode(v, &set); err != nil {
return fmt.Errorf("%s: %s", k, err)
}
case TypeInt:
var n int
if err := mapstructure.Decode(v, &n); err != nil {
return fmt.Errorf("%s: %s", k, err)
}
set = strconv.FormatInt(int64(n), 10)
default:
return fmt.Errorf("Unknown type: %#v", schema.Type)
}
d.setMap[k] = set
return nil
}
func (d *ResourceData) setSet(
k string,
parts []string,
schema *Schema,
value interface{}) error {
if len(parts) > 0 {
return fmt.Errorf("%s: can only set the full set, not elements", k)
}
// If it is a slice, then we have to turn it into a *Set so that
// we get the proper order back based on the hash code.
if v := reflect.ValueOf(value); v.Kind() == reflect.Slice {
// Set the entire list, this lets us get sane values out of it
if err := d.setList(k, nil, schema, value); err != nil {
return err
}
// Build the set by going over the list items in order and
// hashing them into the set. The reason we go over the list and
// not the `value` directly is because this forces all types
// to become []interface{} (generic) instead of []string, which
// most hash functions are expecting.
s := &Set{F: schema.Set}
source := getSourceSet | getSourceExact
for i := 0; i < v.Len(); i++ {
is := strconv.FormatInt(int64(i), 10)
result := d.getList(k, []string{is}, schema, source)
if !result.Exists {
panic("just set item doesn't exist")
}
s.Add(result.Value)
}
value = s
}
if s, ok := value.(*Set); ok {
value = s.List()
}
return d.setList(k, nil, schema, value)
}
func (d *ResourceData) stateList(
prefix string,
schema *Schema) map[string]string {
countRaw := d.get(prefix, []string{"#"}, schema, d.stateSource(prefix))
if !countRaw.Exists {
if schema.Computed {
// If it is computed, then it always _exists_ in the state,
// it is just empty.
countRaw.Exists = true
countRaw.Value = 0
} else {
return nil
}
}
count := countRaw.Value.(int)
result := make(map[string]string)
if count > 0 || schema.Computed {
result[prefix+".#"] = strconv.FormatInt(int64(count), 10)
}
for i := 0; i < count; i++ {
key := fmt.Sprintf("%s.%d", prefix, i)
var m map[string]string
switch t := schema.Elem.(type) {
case *Resource:
m = d.stateObject(key, t.Schema)
case *Schema:
m = d.stateSingle(key, t)
}
for k, v := range m {
result[k] = v
}
}
return result
}
func (d *ResourceData) stateMap(
prefix string,
schema *Schema) map[string]string {
v := d.getMap(prefix, nil, schema, d.stateSource(prefix))
if !v.Exists {
return nil
}
elemSchema := &Schema{Type: TypeString}
result := make(map[string]string)
for mk, _ := range v.Value.(map[string]interface{}) {
mp := fmt.Sprintf("%s.%s", prefix, mk)
for k, v := range d.stateSingle(mp, elemSchema) {
result[k] = v
}
}
return result
}
func (d *ResourceData) stateObject(
prefix string,
schema map[string]*Schema) map[string]string {
result := make(map[string]string)
for k, v := range schema {
key := k
if prefix != "" {
key = prefix + "." + key
}
for k1, v1 := range d.stateSingle(key, v) {
result[k1] = v1
}
}
return result
}
func (d *ResourceData) statePrimitive(
prefix string,
schema *Schema) map[string]string {
raw := d.getRaw(prefix, d.stateSource(prefix))
if !raw.Exists {
return nil
}
v := raw.Value
if raw.ValueProcessed != nil {
v = raw.ValueProcessed
}
var vs string
switch schema.Type {
case TypeBool:
vs = strconv.FormatBool(v.(bool))
case TypeString:
vs = v.(string)
case TypeInt:
vs = strconv.FormatInt(int64(v.(int)), 10)
default:
panic(fmt.Sprintf("Unknown type: %#v", schema.Type))
}
return map[string]string{
prefix: vs,
}
}
func (d *ResourceData) stateSet(
prefix string,
schema *Schema) map[string]string {
raw := d.get(prefix, nil, schema, d.stateSource(prefix))
if !raw.Exists {
if schema.Computed {
// If it is computed, then it always _exists_ in the state,
// it is just empty.
raw.Exists = true
raw.Value = new(Set)
} else {
return nil
}
}
set := raw.Value.(*Set)
list := set.List()
result := make(map[string]string)
result[prefix+".#"] = strconv.FormatInt(int64(len(list)), 10)
for i := 0; i < len(list); i++ {
key := fmt.Sprintf("%s.%d", prefix, i)
var m map[string]string
switch t := schema.Elem.(type) {
case *Resource:
m = d.stateObject(key, t.Schema)
case *Schema:
m = d.stateSingle(key, t)
}
for k, v := range m {
result[k] = v
}
}
return result
}
func (d *ResourceData) stateSingle(
prefix string,
schema *Schema) map[string]string {
switch schema.Type {
case TypeList:
return d.stateList(prefix, schema)
case TypeMap:
return d.stateMap(prefix, schema)
case TypeSet:
return d.stateSet(prefix, schema)
case TypeBool:
fallthrough
case TypeInt:
fallthrough
case TypeString:
return d.statePrimitive(prefix, schema)
default:
panic(fmt.Sprintf("%s: unknown type %#v", prefix, schema.Type))
}
}
func (d *ResourceData) stateSource(prefix string) getSource {
// If we're not doing a partial apply, then get the set level
if !d.partial {
return getSourceSet | getSourceDiff
}
// Otherwise, only return getSourceSet if its in the partial map.
// Otherwise we use state level only.
for k, _ := range d.partialMap {
if strings.HasPrefix(prefix, k) {
return getSourceSet | getSourceDiff
}
}
return getSourceState
}