package schema import ( "fmt" "strings" "github.com/hashicorp/terraform/terraform" "github.com/mitchellh/mapstructure" ) // DiffFieldReader reads fields out of a diff structures. // // It also requires access to a Reader that reads fields from the structure // that the diff was derived from. This is usually the state. This is required // because a diff on its own doesn't have complete data about full objects // such as maps. // // The Source MUST be the data that the diff was derived from. If it isn't, // the behavior of this struct is undefined. // // Reading fields from a DiffFieldReader is identical to reading from // Source except the diff will be applied to the end result. // // The "Exists" field on the result will be set to true if the complete // field exists whether its from the source, diff, or a combination of both. // It cannot be determined whether a retrieved value is composed of // diff elements. type DiffFieldReader struct { Diff *terraform.InstanceDiff Source FieldReader Schema map[string]*Schema } func (r *DiffFieldReader) ReadField(address []string) (FieldReadResult, error) { schemaList := addrToSchema(address, r.Schema) if len(schemaList) == 0 { return FieldReadResult{}, nil } schema := schemaList[len(schemaList)-1] switch schema.Type { case TypeBool, TypeInt, TypeFloat, TypeString: return r.readPrimitive(address, schema) case TypeList: return readListField(r, address, schema) case TypeMap: return r.readMap(address, schema) case TypeSet: return r.readSet(address, schema) case typeObject: return readObjectField(r, address, schema.Elem.(map[string]*Schema)) default: panic(fmt.Sprintf("Unknown type: %#v", schema.Type)) } } func (r *DiffFieldReader) readMap( address []string, schema *Schema) (FieldReadResult, error) { result := make(map[string]interface{}) resultSet := false // First read the map from the underlying source source, err := r.Source.ReadField(address) if err != nil { return FieldReadResult{}, err } if source.Exists { result = source.Value.(map[string]interface{}) resultSet = true } // Next, read all the elements we have in our diff, and apply // the diff to our result. prefix := strings.Join(address, ".") + "." for k, v := range r.Diff.Attributes { if !strings.HasPrefix(k, prefix) { continue } if strings.HasPrefix(k, prefix+"%") { // Ignore the count field continue } resultSet = true k = k[len(prefix):] if v.NewRemoved { delete(result, k) continue } result[k] = v.New } var resultVal interface{} if resultSet { resultVal = result } return FieldReadResult{ Value: resultVal, Exists: resultSet, }, nil } func (r *DiffFieldReader) readPrimitive( address []string, schema *Schema) (FieldReadResult, error) { result, err := r.Source.ReadField(address) if err != nil { return FieldReadResult{}, err } attrD, ok := r.Diff.Attributes[strings.Join(address, ".")] if !ok { return result, nil } var resultVal string if !attrD.NewComputed { resultVal = attrD.New if attrD.NewExtra != nil { result.ValueProcessed = resultVal if err := mapstructure.WeakDecode(attrD.NewExtra, &resultVal); err != nil { return FieldReadResult{}, err } } } result.Computed = attrD.NewComputed result.Exists = true result.Value, err = stringToPrimitive(resultVal, false, schema) if err != nil { return FieldReadResult{}, err } return result, nil } func (r *DiffFieldReader) readSet( address []string, schema *Schema) (FieldReadResult, error) { prefix := strings.Join(address, ".") + "." // Create the set that will be our result set := schema.ZeroValue().(*Set) // Go through the map and find all the set items for k, d := range r.Diff.Attributes { if d.NewRemoved { // If the field is removed, we always ignore it continue } if !strings.HasPrefix(k, prefix) { continue } if strings.HasSuffix(k, "#") { // Ignore any count field continue } // Split the key, since it might be a sub-object like "idx.field" parts := strings.Split(k[len(prefix):], ".") idx := parts[0] raw, err := r.ReadField(append(address, idx)) if err != nil { return FieldReadResult{}, err } if !raw.Exists { // This shouldn't happen because we just verified it does exist panic("missing field in set: " + k + "." + idx) } set.Add(raw.Value) } // Determine if the set "exists". It exists if there are items or if // the diff explicitly wanted it empty. exists := set.Len() > 0 if !exists { // We could check if the diff value is "0" here but I think the // existence of "#" on its own is enough to show it existed. This // protects us in the future from the zero value changing from // "0" to "" breaking us (if that were to happen). if _, ok := r.Diff.Attributes[prefix+"#"]; ok { exists = true } } return FieldReadResult{ Value: set, Exists: exists, }, nil }