2019-02-27 20:15:38 +01:00
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package objchange
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import (
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"github.com/hashicorp/terraform/configs/configschema"
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"github.com/zclconf/go-cty/cty"
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)
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// NormalizeObjectFromLegacySDK takes an object that may have been generated
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// by the legacy Terraform SDK (i.e. returned from a provider with the
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// LegacyTypeSystem opt-out set) and does its best to normalize it for the
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// assumptions we would normally enforce if the provider had not opted out.
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//
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// In particular, this function guarantees that a value representing a nested
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// block will never itself be unknown or null, instead representing that as
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// a non-null value that may contain null/unknown values.
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//
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// The input value must still conform to the implied type of the given schema,
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// or else this function may produce garbage results or panic. This is usually
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// okay because type consistency is enforced when deserializing the value
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// returned from the provider over the RPC wire protocol anyway.
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func NormalizeObjectFromLegacySDK(val cty.Value, schema *configschema.Block) cty.Value {
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2021-05-12 15:36:25 +02:00
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val, valMarks := val.UnmarkDeepWithPaths()
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val = normalizeObjectFromLegacySDK(val, schema)
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return val.MarkWithPaths(valMarks)
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}
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func normalizeObjectFromLegacySDK(val cty.Value, schema *configschema.Block) cty.Value {
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2019-02-27 20:15:38 +01:00
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if val == cty.NilVal || val.IsNull() {
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// This should never happen in reasonable use, but we'll allow it
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// and normalize to a null of the expected type rather than panicking
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// below.
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return cty.NullVal(schema.ImpliedType())
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}
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vals := make(map[string]cty.Value)
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for name := range schema.Attributes {
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// No normalization for attributes, since them being type-conformant
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// is all that we require.
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vals[name] = val.GetAttr(name)
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}
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for name, blockS := range schema.BlockTypes {
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lv := val.GetAttr(name)
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2019-03-09 20:51:33 +01:00
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// Legacy SDK never generates dynamically-typed attributes and so our
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// normalization code doesn't deal with them, but we need to make sure
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// we still pass them through properly so that we don't interfere with
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// objects generated by other SDKs.
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if ty := blockS.Block.ImpliedType(); ty.HasDynamicTypes() {
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vals[name] = lv
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continue
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}
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2019-02-27 20:15:38 +01:00
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switch blockS.Nesting {
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2019-04-09 00:32:53 +02:00
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case configschema.NestingSingle, configschema.NestingGroup:
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2019-02-27 20:15:38 +01:00
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if lv.IsKnown() {
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2019-04-09 00:32:53 +02:00
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if lv.IsNull() && blockS.Nesting == configschema.NestingGroup {
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vals[name] = blockS.EmptyValue()
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} else {
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2021-05-12 15:36:25 +02:00
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vals[name] = normalizeObjectFromLegacySDK(lv, &blockS.Block)
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2019-04-09 00:32:53 +02:00
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}
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2019-02-27 20:15:38 +01:00
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} else {
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vals[name] = unknownBlockStub(&blockS.Block)
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}
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case configschema.NestingList:
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switch {
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case !lv.IsKnown():
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vals[name] = cty.ListVal([]cty.Value{unknownBlockStub(&blockS.Block)})
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case lv.IsNull() || lv.LengthInt() == 0:
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vals[name] = cty.ListValEmpty(blockS.Block.ImpliedType())
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default:
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subVals := make([]cty.Value, 0, lv.LengthInt())
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for it := lv.ElementIterator(); it.Next(); {
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_, subVal := it.Element()
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2021-05-12 15:36:25 +02:00
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subVals = append(subVals, normalizeObjectFromLegacySDK(subVal, &blockS.Block))
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2019-02-27 20:15:38 +01:00
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}
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vals[name] = cty.ListVal(subVals)
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}
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case configschema.NestingSet:
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switch {
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case !lv.IsKnown():
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vals[name] = cty.SetVal([]cty.Value{unknownBlockStub(&blockS.Block)})
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case lv.IsNull() || lv.LengthInt() == 0:
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vals[name] = cty.SetValEmpty(blockS.Block.ImpliedType())
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default:
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subVals := make([]cty.Value, 0, lv.LengthInt())
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for it := lv.ElementIterator(); it.Next(); {
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_, subVal := it.Element()
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2021-05-12 15:36:25 +02:00
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subVals = append(subVals, normalizeObjectFromLegacySDK(subVal, &blockS.Block))
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2019-02-27 20:15:38 +01:00
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}
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vals[name] = cty.SetVal(subVals)
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}
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default:
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// The legacy SDK doesn't support NestingMap, so we just assume
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// maps are always okay. (If not, we would've detected and returned
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// an error to the user before we got here.)
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vals[name] = lv
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}
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}
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return cty.ObjectVal(vals)
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}
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// unknownBlockStub constructs an object value that approximates an unknown
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// block by producing a known block object with all of its leaf attribute
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// values set to unknown.
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//
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// Blocks themselves cannot be unknown, so if the legacy SDK tries to return
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// such a thing, we'll use this result instead. This convention mimics how
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// the dynamic block feature deals with being asked to iterate over an unknown
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// value, because our value-checking functions already accept this convention
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// as a special case.
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func unknownBlockStub(schema *configschema.Block) cty.Value {
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vals := make(map[string]cty.Value)
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for name, attrS := range schema.Attributes {
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vals[name] = cty.UnknownVal(attrS.Type)
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}
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for name, blockS := range schema.BlockTypes {
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switch blockS.Nesting {
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2019-04-09 00:32:53 +02:00
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case configschema.NestingSingle, configschema.NestingGroup:
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2019-02-27 20:15:38 +01:00
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vals[name] = unknownBlockStub(&blockS.Block)
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case configschema.NestingList:
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// In principle we may be expected to produce a tuple value here,
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// if there are any dynamically-typed attributes in our nested block,
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// but the legacy SDK doesn't support that, so we just assume it'll
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// never be necessary to normalize those. (Incorrect usage in any
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// other SDK would be caught and returned as an error before we
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// get here.)
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vals[name] = cty.ListVal([]cty.Value{unknownBlockStub(&blockS.Block)})
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case configschema.NestingSet:
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vals[name] = cty.SetVal([]cty.Value{unknownBlockStub(&blockS.Block)})
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case configschema.NestingMap:
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// A nesting map can never be unknown since we then wouldn't know
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// what the keys are. (Legacy SDK doesn't support NestingMap anyway,
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// so this should never arise.)
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vals[name] = cty.MapValEmpty(blockS.Block.ImpliedType())
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}
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}
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return cty.ObjectVal(vals)
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}
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