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helper/schema: Clear existing map/set/list contents before overwriting 

There are situations where one may need to write to a set, list, or map
more than once per single TF operation (apply/refresh/etc). In these
cases, further writes using Set (example: d.Set("some_set", newSet))
currently create unstable results in the set writer (the name of the
writer layer that holds the data set by these calls) because old keys
are not being cleared out first.

This bug is most visible when using sets. Example: First write to set
writes elements that have been hashed at 10 and 20, and the second write
writes elements that have been hashed at 30 and 40. While the set length
has been correctly set at 2, since a set is basically a map (as is the
entire map writer) and map results are non-deterministic, reads to this
set will now deliver unstable results in a random but predictable
fashion as the map results are delivered to the caller non-deterministic
- sometimes you may correctly get 30 and 40, but sometimes you may get
10 and 20, or even 10 and 30, etc.

This problem propagates to state which is even more damaging as unstable
results are set to state where they become part of the permanent data
set going forward.

The problem also applies to lists and maps. This is probably more of an
issue with maps as a map can contain any key/value combination and hence
there is no predictable pattern where keys would be overwritten with
default or zero values. This is contrary to complex lists, which has
this problem as well, but since lists are deterministic and the length
of a list properly gets updated during the overwrite, the problem is
masked by the fact that a read will only read to the boundary of the
list, skipping any bad data that may still be available due past the
list boundary.

This update clears the child contents of any set, list, or map before
beginning a new write to address this issue. Tests are included for all
three data types.
This commit is contained in:
Chris Marchesi 2017-11-05 11:14:51 -08:00
parent 645df36af0
commit 3fa11e456b
No known key found for this signature in database
GPG Key ID: 8D6F1589D9834498
2 changed files with 307 additions and 0 deletions
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32
helper/schema/field_writer_map.go
View File

@ -39,6 +39,19 @@ func (w *MapFieldWriter) unsafeWriteField(addr string, value string) {
w.result[addr] = value
}
// clearTree clears a field and any sub-fields of the given address out of the
// map. This should be used to reset some kind of complex structures (namely
// sets) before writing to make sure that any conflicting data is removed (for
// example, if the set was previously written to the writer's layer).
func (w *MapFieldWriter) clearTree(addr []string) {
prefix := strings.Join(addr, ".") + "."
for k := range w.result {
if strings.HasPrefix(k, prefix) {
delete(w.result, k)
}
}
}
func (w *MapFieldWriter) WriteField(addr []string, value interface{}) error {
w.lock.Lock()
defer w.lock.Unlock()
@ -115,6 +128,14 @@ func (w *MapFieldWriter) setList(
return fmt.Errorf("%s: %s", k, err)
}
// Wipe the set from the current writer prior to writing if it exists.
// Multiple writes to the same layer is a lot safer for lists than sets due
// to the fact that indexes are always deterministic and the length will
// always be updated with the current length on the last write, but making
// sure we have a clean namespace removes any chance for edge cases to pop up
// and ensures that the last write to the set is the correct value.
w.clearTree(addr)
// Set the entire list.
var err error
for i, elem := range vs {
@ -162,6 +183,10 @@ func (w *MapFieldWriter) setMap(
vs[mk.String()] = mv.Interface()
}
// Wipe this address tree. The contents of the map should always reflect the
// last write made to it.
w.clearTree(addr)
// Remove the pure key since we're setting the full map value
delete(w.result, k)
@ -308,6 +333,13 @@ func (w *MapFieldWriter) setSet(
value = s
}
// Clear any keys that match the set address first. This is necessary because
// it's always possible and sometimes may be necessary to write to a certain
// writer layer more than once with different set data each time, which will
// lead to different keys being inserted, which can lead to determinism
// problems when the old data isn't wiped first.
w.clearTree(addr)
for code, elem := range value.(*Set).m {
if err := w.set(append(addrCopy, code), elem); err != nil {
return err

275
helper/schema/field_writer_map_test.go
View File

@ -261,3 +261,278 @@ func TestMapFieldWriter(t *testing.T) {
}
}
}
func TestMapFieldWriterCleanSet(t *testing.T) {
schema := map[string]*Schema{
"setDeep": &Schema{
Type: TypeSet,
Elem: &Resource{
Schema: map[string]*Schema{
"index": &Schema{Type: TypeInt},
"value": &Schema{Type: TypeString},
},
},
Set: func(a interface{}) int {
return a.(map[string]interface{})["index"].(int)
},
},
}
values := []struct {
Addr []string
Value interface{}
Out map[string]string
}{
{
[]string{"setDeep"},
[]interface{}{
map[string]interface{}{
"index": 10,
"value": "foo",
},
map[string]interface{}{
"index": 50,
"value": "bar",
},
},
map[string]string{
"setDeep.#": "2",
"setDeep.10.index": "10",
"setDeep.10.value": "foo",
"setDeep.50.index": "50",
"setDeep.50.value": "bar",
},
},
{
[]string{"setDeep"},
[]interface{}{
map[string]interface{}{
"index": 20,
"value": "baz",
},
map[string]interface{}{
"index": 60,
"value": "qux",
},
},
map[string]string{
"setDeep.#": "2",
"setDeep.20.index": "20",
"setDeep.20.value": "baz",
"setDeep.60.index": "60",
"setDeep.60.value": "qux",
},
},
{
[]string{"setDeep"},
[]interface{}{
map[string]interface{}{
"index": 30,
"value": "one",
},
map[string]interface{}{
"index": 70,
"value": "two",
},
},
map[string]string{
"setDeep.#": "2",
"setDeep.30.index": "30",
"setDeep.30.value": "one",
"setDeep.70.index": "70",
"setDeep.70.value": "two",
},
},
}
w := &MapFieldWriter{Schema: schema}
for n, tc := range values {
err := w.WriteField(tc.Addr, tc.Value)
if err != nil {
t.Fatalf("%d: err: %s", n, err)
}
actual := w.Map()
if !reflect.DeepEqual(actual, tc.Out) {
t.Fatalf("%d: bad: %#v", n, actual)
}
}
}
func TestMapFieldWriterCleanList(t *testing.T) {
schema := map[string]*Schema{
"listDeep": &Schema{
Type: TypeList,
Elem: &Resource{
Schema: map[string]*Schema{
"thing1": &Schema{Type: TypeString},
"thing2": &Schema{Type: TypeString},
},
},
},
}
values := []struct {
Addr []string
Value interface{}
Out map[string]string
}{
{
// Base list
[]string{"listDeep"},
[]interface{}{
map[string]interface{}{
"thing1": "a",
"thing2": "b",
},
map[string]interface{}{
"thing1": "c",
"thing2": "d",
},
map[string]interface{}{
"thing1": "e",
"thing2": "f",
},
map[string]interface{}{
"thing1": "g",
"thing2": "h",
},
},
map[string]string{
"listDeep.#": "4",
"listDeep.0.thing1": "a",
"listDeep.0.thing2": "b",
"listDeep.1.thing1": "c",
"listDeep.1.thing2": "d",
"listDeep.2.thing1": "e",
"listDeep.2.thing2": "f",
"listDeep.3.thing1": "g",
"listDeep.3.thing2": "h",
},
},
{
// Remove an element
[]string{"listDeep"},
[]interface{}{
map[string]interface{}{
"thing1": "a",
"thing2": "b",
},
map[string]interface{}{
"thing1": "c",
"thing2": "d",
},
map[string]interface{}{
"thing1": "e",
"thing2": "f",
},
},
map[string]string{
"listDeep.#": "3",
"listDeep.0.thing1": "a",
"listDeep.0.thing2": "b",
"listDeep.1.thing1": "c",
"listDeep.1.thing2": "d",
"listDeep.2.thing1": "e",
"listDeep.2.thing2": "f",
},
},
{
// Rewrite with missing keys. This should normally not be necessary, as
// hopefully the writers are writing zero values as necessary, but for
// brevity we want to make sure that what exists in the writer is exactly
// what the last write looked like coming from the provider.
[]string{"listDeep"},
[]interface{}{
map[string]interface{}{
"thing1": "a",
},
map[string]interface{}{
"thing1": "c",
},
map[string]interface{}{
"thing1": "e",
},
},
map[string]string{
"listDeep.#": "3",
"listDeep.0.thing1": "a",
"listDeep.1.thing1": "c",
"listDeep.2.thing1": "e",
},
},
}
w := &MapFieldWriter{Schema: schema}
for n, tc := range values {
err := w.WriteField(tc.Addr, tc.Value)
if err != nil {
t.Fatalf("%d: err: %s", n, err)
}
actual := w.Map()
if !reflect.DeepEqual(actual, tc.Out) {
t.Fatalf("%d: bad: %#v", n, actual)
}
}
}
func TestMapFieldWriterCleanMap(t *testing.T) {
schema := map[string]*Schema{
"map": &Schema{
Type: TypeMap,
},
}
values := []struct {
Value interface{}
Out map[string]string
}{
{
// Base map
map[string]interface{}{
"thing1": "a",
"thing2": "b",
"thing3": "c",
"thing4": "d",
},
map[string]string{
"map.%": "4",
"map.thing1": "a",
"map.thing2": "b",
"map.thing3": "c",
"map.thing4": "d",
},
},
{
// Base map
map[string]interface{}{
"thing1": "a",
"thing2": "b",
"thing4": "d",
},
map[string]string{
"map.%": "3",
"map.thing1": "a",
"map.thing2": "b",
"map.thing4": "d",
},
},
}
w := &MapFieldWriter{Schema: schema}
for n, tc := range values {
err := w.WriteField([]string{"map"}, tc.Value)
if err != nil {
t.Fatalf("%d: err: %s", n, err)
}
actual := w.Map()
if !reflect.DeepEqual(actual, tc.Out) {
t.Fatalf("%d: bad: %#v", n, actual)
}
}
}