package plugin import ( "encoding/json" "errors" "regexp" "sort" "strconv" "strings" "github.com/zclconf/go-cty/cty" ctyconvert "github.com/zclconf/go-cty/cty/convert" "github.com/zclconf/go-cty/cty/msgpack" context "golang.org/x/net/context" "github.com/hashicorp/terraform/config/hcl2shim" "github.com/hashicorp/terraform/configs/configschema" "github.com/hashicorp/terraform/helper/schema" "github.com/hashicorp/terraform/plugin/convert" "github.com/hashicorp/terraform/plugin/proto" "github.com/hashicorp/terraform/terraform" ) // NewGRPCProviderServerShim wraps a terraform.ResourceProvider in a // proto.ProviderServer implementation. If the provided provider is not a // *schema.Provider, this will return nil, func NewGRPCProviderServerShim(p terraform.ResourceProvider) *GRPCProviderServer { sp, ok := p.(*schema.Provider) if !ok { return nil } return &GRPCProviderServer{ provider: sp, } } // GRPCProviderServer handles the server, or plugin side of the rpc connection. type GRPCProviderServer struct { provider *schema.Provider } func (s *GRPCProviderServer) GetSchema(_ context.Context, req *proto.GetProviderSchema_Request) (*proto.GetProviderSchema_Response, error) { resp := &proto.GetProviderSchema_Response{ ResourceSchemas: make(map[string]*proto.Schema), DataSourceSchemas: make(map[string]*proto.Schema), } resp.Provider = &proto.Schema{ Block: convert.ConfigSchemaToProto(s.getProviderSchemaBlock()), } for typ, res := range s.provider.ResourcesMap { resp.ResourceSchemas[typ] = &proto.Schema{ Version: int64(res.SchemaVersion), Block: convert.ConfigSchemaToProto(res.CoreConfigSchema()), } } for typ, dat := range s.provider.DataSourcesMap { resp.DataSourceSchemas[typ] = &proto.Schema{ Version: int64(dat.SchemaVersion), Block: convert.ConfigSchemaToProto(dat.CoreConfigSchema()), } } return resp, nil } func (s *GRPCProviderServer) getProviderSchemaBlock() *configschema.Block { return schema.InternalMap(s.provider.Schema).CoreConfigSchema() } func (s *GRPCProviderServer) getResourceSchemaBlock(name string) *configschema.Block { res := s.provider.ResourcesMap[name] return res.CoreConfigSchema() } func (s *GRPCProviderServer) getDatasourceSchemaBlock(name string) *configschema.Block { dat := s.provider.DataSourcesMap[name] return dat.CoreConfigSchema() } func (s *GRPCProviderServer) PrepareProviderConfig(_ context.Context, req *proto.PrepareProviderConfig_Request) (*proto.PrepareProviderConfig_Response, error) { resp := &proto.PrepareProviderConfig_Response{} block := s.getProviderSchemaBlock() configVal, err := msgpack.Unmarshal(req.Config.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // lookup any required, top-level attributes that are Null, and see if we // have a Default value available. configVal, _ = cty.Transform(configVal, func(path cty.Path, val cty.Value) (cty.Value, error) { // we're only looking for top-level attributes if len(path) != 1 { return val, nil } // nothing to do if we already have a value if !val.IsNull() { return val, nil } // get the Schema definition for this attribute getAttr, ok := path[0].(cty.GetAttrStep) // these should all exist, but just ignore anything strange if !ok { return val, nil } attrSchema := s.provider.Schema[getAttr.Name] // continue to ignore anything that doesn't match if attrSchema == nil { return val, nil } // this is deprecated, so don't set it if attrSchema.Deprecated != "" || attrSchema.Removed != "" { return val, nil } // find a default value if it exists def, err := attrSchema.DefaultValue() if err != nil { return val, err } // no default if def == nil { return val, err } // create a cty.Value and make sure it's the correct type tmpVal := hcl2shim.HCL2ValueFromConfigValue(def) val, err = ctyconvert.Convert(tmpVal, val.Type()) return val, err }) configVal, err = block.CoerceValue(configVal) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } config := terraform.NewResourceConfigShimmed(configVal, block) warns, errs := s.provider.Validate(config) resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, convert.WarnsAndErrsToProto(warns, errs)) preparedConfigMP, err := msgpack.Marshal(configVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.PreparedConfig = &proto.DynamicValue{Msgpack: preparedConfigMP} return resp, nil } func (s *GRPCProviderServer) ValidateResourceTypeConfig(_ context.Context, req *proto.ValidateResourceTypeConfig_Request) (*proto.ValidateResourceTypeConfig_Response, error) { resp := &proto.ValidateResourceTypeConfig_Response{} block := s.getResourceSchemaBlock(req.TypeName) configVal, err := msgpack.Unmarshal(req.Config.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } config := terraform.NewResourceConfigShimmed(configVal, block) warns, errs := s.provider.ValidateResource(req.TypeName, config) resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, convert.WarnsAndErrsToProto(warns, errs)) return resp, nil } func (s *GRPCProviderServer) ValidateDataSourceConfig(_ context.Context, req *proto.ValidateDataSourceConfig_Request) (*proto.ValidateDataSourceConfig_Response, error) { resp := &proto.ValidateDataSourceConfig_Response{} block := s.getDatasourceSchemaBlock(req.TypeName) configVal, err := msgpack.Unmarshal(req.Config.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } config := terraform.NewResourceConfigShimmed(configVal, block) warns, errs := s.provider.ValidateDataSource(req.TypeName, config) resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, convert.WarnsAndErrsToProto(warns, errs)) return resp, nil } func (s *GRPCProviderServer) UpgradeResourceState(_ context.Context, req *proto.UpgradeResourceState_Request) (*proto.UpgradeResourceState_Response, error) { resp := &proto.UpgradeResourceState_Response{} res := s.provider.ResourcesMap[req.TypeName] block := res.CoreConfigSchema() version := int(req.Version) var jsonMap map[string]interface{} var err error // if there's a JSON state, we need to decode it. if len(req.RawState.Json) > 0 { err = json.Unmarshal(req.RawState.Json, &jsonMap) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } // We first need to upgrade a flatmap state if it exists. // There should never be both a JSON and Flatmap state in the request. if req.RawState.Flatmap != nil { jsonMap, version, err = s.upgradeFlatmapState(version, req.RawState.Flatmap, res) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } // complete the upgrade of the JSON states jsonMap, err = s.upgradeJSONState(version, jsonMap, res) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // now we need to turn the state into the default json representation, so // that it can be re-decoded using the actual schema. val, err := schema.JSONMapToStateValue(jsonMap, block) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // encode the final state to the expected msgpack format newStateMP, err := msgpack.Marshal(val, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.UpgradedState = &proto.DynamicValue{Msgpack: newStateMP} return resp, nil } // upgradeFlatmapState takes a legacy flatmap state, upgrades it using Migrate // state if necessary, and converts it to the new JSON state format decoded as a // map[string]interface{}. // upgradeFlatmapState returns the json map along with the corresponding schema // version. func (s *GRPCProviderServer) upgradeFlatmapState(version int, m map[string]string, res *schema.Resource) (map[string]interface{}, int, error) { // this will be the version we've upgraded so, defaulting to the given // version in case no migration was called. upgradedVersion := version // first determine if we need to call the legacy MigrateState func requiresMigrate := version < res.SchemaVersion schemaType := res.CoreConfigSchema().ImpliedType() // if there are any StateUpgraders, then we need to only compare // against the first version there if len(res.StateUpgraders) > 0 { requiresMigrate = version < res.StateUpgraders[0].Version } if requiresMigrate { if res.MigrateState == nil { return nil, 0, errors.New("cannot upgrade state, missing MigrateState function") } is := &terraform.InstanceState{ ID: m["id"], Attributes: m, Meta: map[string]interface{}{ "schema_version": strconv.Itoa(version), }, } is, err := res.MigrateState(version, is, s.provider.Meta()) if err != nil { return nil, 0, err } // re-assign the map in case there was a copy made, making sure to keep // the ID m := is.Attributes m["id"] = is.ID // if there are further upgraders, then we've only updated that far if len(res.StateUpgraders) > 0 { schemaType = res.StateUpgraders[0].Type upgradedVersion = res.StateUpgraders[0].Version } } else { // the schema version may be newer than the MigrateState functions // handled and older than the current, but still stored in the flatmap // form. If that's the case, we need to find the correct schema type to // convert the state. for _, upgrader := range res.StateUpgraders { if upgrader.Version == version { schemaType = upgrader.Type break } } } // now we know the state is up to the latest version that handled the // flatmap format state. Now we can upgrade the format and continue from // there. newConfigVal, err := hcl2shim.HCL2ValueFromFlatmap(m, schemaType) if err != nil { return nil, 0, err } jsonMap, err := schema.StateValueToJSONMap(newConfigVal, schemaType) return jsonMap, upgradedVersion, err } func (s *GRPCProviderServer) upgradeJSONState(version int, m map[string]interface{}, res *schema.Resource) (map[string]interface{}, error) { var err error for _, upgrader := range res.StateUpgraders { if version != upgrader.Version { continue } m, err = upgrader.Upgrade(m, s.provider.Meta()) if err != nil { return nil, err } version++ } return m, nil } func (s *GRPCProviderServer) Stop(_ context.Context, _ *proto.Stop_Request) (*proto.Stop_Response, error) { resp := &proto.Stop_Response{} err := s.provider.Stop() if err != nil { resp.Error = err.Error() } return resp, nil } func (s *GRPCProviderServer) Configure(_ context.Context, req *proto.Configure_Request) (*proto.Configure_Response, error) { resp := &proto.Configure_Response{} block := s.getProviderSchemaBlock() configVal, err := msgpack.Unmarshal(req.Config.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } config := terraform.NewResourceConfigShimmed(configVal, block) err = s.provider.Configure(config) resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } func (s *GRPCProviderServer) ReadResource(_ context.Context, req *proto.ReadResource_Request) (*proto.ReadResource_Response, error) { resp := &proto.ReadResource_Response{} res := s.provider.ResourcesMap[req.TypeName] block := res.CoreConfigSchema() stateVal, err := msgpack.Unmarshal(req.CurrentState.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } instanceState, err := res.ShimInstanceStateFromValue(stateVal) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } newInstanceState, err := res.RefreshWithoutUpgrade(instanceState, s.provider.Meta()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } if newInstanceState == nil || newInstanceState.ID == "" { // The old provider API used an empty id to signal that the remote // object appears to have been deleted, but our new protocol expects // to see a null value (in the cty sense) in that case. newStateMP, err := msgpack.Marshal(cty.NullVal(block.ImpliedType()), block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) } resp.NewState = &proto.DynamicValue{ Msgpack: newStateMP, } return resp, nil } // helper/schema should always copy the ID over, but do it again just to be safe newInstanceState.Attributes["id"] = newInstanceState.ID newInstanceState.Attributes = normalizeFlatmapContainers(newInstanceState.Attributes) newStateVal, err := hcl2shim.HCL2ValueFromFlatmap(newInstanceState.Attributes, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } newStateVal = copyTimeoutValues(newStateVal, stateVal) newStateMP, err := msgpack.Marshal(newStateVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.NewState = &proto.DynamicValue{ Msgpack: newStateMP, } return resp, nil } func (s *GRPCProviderServer) PlanResourceChange(_ context.Context, req *proto.PlanResourceChange_Request) (*proto.PlanResourceChange_Response, error) { resp := &proto.PlanResourceChange_Response{} res := s.provider.ResourcesMap[req.TypeName] block := res.CoreConfigSchema() priorStateVal, err := msgpack.Unmarshal(req.PriorState.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } proposedNewStateVal, err := msgpack.Unmarshal(req.ProposedNewState.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } info := &terraform.InstanceInfo{ Type: req.TypeName, } priorState, err := res.ShimInstanceStateFromValue(priorStateVal) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } priorPrivate := make(map[string]interface{}) if len(req.PriorPrivate) > 0 { if err := json.Unmarshal(req.PriorPrivate, &priorPrivate); err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } priorState.Meta = priorPrivate // turn the proposed state into a legacy configuration config := terraform.NewResourceConfigShimmed(proposedNewStateVal, block) diff, err := s.provider.SimpleDiff(info, priorState, config) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } if diff == nil { // schema.Provider.Diff returns nil if it ends up making a diff with no // changes, but our new interface wants us to return an actual change // description that _shows_ there are no changes. This is usually the // PriorSate, however if there was no prior state and no diff, then we // use the ProposedNewState. if !priorStateVal.IsNull() { resp.PlannedState = req.PriorState } else { resp.PlannedState = req.ProposedNewState } return resp, nil } // strip out non-diffs for k, v := range diff.Attributes { if v.New == v.Old && !v.NewComputed && !v.NewRemoved { delete(diff.Attributes, k) } } if priorState == nil { priorState = &terraform.InstanceState{} } // now we need to apply the diff to the prior state, so get the planned state plannedAttrs, err := diff.Apply(priorState.Attributes, block) plannedAttrs = normalizeFlatmapContainers(plannedAttrs) plannedStateVal, err := hcl2shim.HCL2ValueFromFlatmap(plannedAttrs, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } plannedStateVal, err = block.CoerceValue(plannedStateVal) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } plannedStateVal = copyTimeoutValues(plannedStateVal, proposedNewStateVal) plannedMP, err := msgpack.Marshal(plannedStateVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.PlannedState = &proto.DynamicValue{ Msgpack: plannedMP, } // the Meta field gets encoded into PlannedPrivate if diff.Meta != nil { plannedPrivate, err := json.Marshal(diff.Meta) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.PlannedPrivate = plannedPrivate } // collect the attributes that require instance replacement, and convert // them to cty.Paths. var requiresNew []string for attr, d := range diff.Attributes { if d.RequiresNew { requiresNew = append(requiresNew, attr) } } // If anything requires a new resource already, or the "id" field indicates // that we will be creating a new resource, then we need to add that to // RequiresReplace so that core can tell if the instance is being replaced // even if changes are being suppressed via "ignore_changes". id := plannedStateVal.GetAttr("id") if len(requiresNew) > 0 || id.IsNull() || !id.IsKnown() { requiresNew = append(requiresNew, "id") } requiresReplace, err := hcl2shim.RequiresReplace(requiresNew, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // convert these to the protocol structures for _, p := range requiresReplace { resp.RequiresReplace = append(resp.RequiresReplace, pathToAttributePath(p)) } return resp, nil } func (s *GRPCProviderServer) ApplyResourceChange(_ context.Context, req *proto.ApplyResourceChange_Request) (*proto.ApplyResourceChange_Response, error) { resp := &proto.ApplyResourceChange_Response{} res := s.provider.ResourcesMap[req.TypeName] block := res.CoreConfigSchema() priorStateVal, err := msgpack.Unmarshal(req.PriorState.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } plannedStateVal, err := msgpack.Unmarshal(req.PlannedState.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } info := &terraform.InstanceInfo{ Type: req.TypeName, } priorState, err := res.ShimInstanceStateFromValue(priorStateVal) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } private := make(map[string]interface{}) if len(req.PlannedPrivate) > 0 { if err := json.Unmarshal(req.PlannedPrivate, &private); err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } var diff *terraform.InstanceDiff destroy := false // a null state means we are destroying the instance if plannedStateVal.IsNull() { destroy = true diff = &terraform.InstanceDiff{ Attributes: make(map[string]*terraform.ResourceAttrDiff), Meta: make(map[string]interface{}), Destroy: true, } } else { diff, err = schema.DiffFromValues(priorStateVal, plannedStateVal, res) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } if diff == nil { diff = &terraform.InstanceDiff{ Attributes: make(map[string]*terraform.ResourceAttrDiff), Meta: make(map[string]interface{}), } } // strip out non-diffs for k, v := range diff.Attributes { if v.New == v.Old && !v.NewComputed && !v.NewRemoved { delete(diff.Attributes, k) } } if private != nil { diff.Meta = private } newInstanceState, err := s.provider.Apply(info, priorState, diff) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } if newInstanceState != nil { newInstanceState.Attributes = normalizeFlatmapContainers(newInstanceState.Attributes) } newStateVal := cty.NullVal(block.ImpliedType()) // We keep the null val if we destroyed the resource, otherwise build the // entire object, even if the new state was nil. if !destroy { newStateVal, err = schema.StateValueFromInstanceState(newInstanceState, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } } newStateVal = copyTimeoutValues(newStateVal, plannedStateVal) newStateMP, err := msgpack.Marshal(newStateVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.NewState = &proto.DynamicValue{ Msgpack: newStateMP, } if newInstanceState != nil { meta, err := json.Marshal(newInstanceState.Meta) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.Private = meta } return resp, nil } func (s *GRPCProviderServer) ImportResourceState(_ context.Context, req *proto.ImportResourceState_Request) (*proto.ImportResourceState_Response, error) { resp := &proto.ImportResourceState_Response{} block := s.getResourceSchemaBlock(req.TypeName) info := &terraform.InstanceInfo{ Type: req.TypeName, } newInstanceStates, err := s.provider.ImportState(info, req.Id) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } for _, is := range newInstanceStates { // copy the ID again just to be sure it wasn't missed is.Attributes["id"] = is.ID newStateVal, err := hcl2shim.HCL2ValueFromFlatmap(is.Attributes, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } newStateMP, err := msgpack.Marshal(newStateVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } meta, err := json.Marshal(is.Meta) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // the legacy implementation could only import one type at a time importedResource := &proto.ImportResourceState_ImportedResource{ TypeName: req.TypeName, State: &proto.DynamicValue{ Msgpack: newStateMP, }, Private: meta, } resp.ImportedResources = append(resp.ImportedResources, importedResource) } return resp, nil } func (s *GRPCProviderServer) ReadDataSource(_ context.Context, req *proto.ReadDataSource_Request) (*proto.ReadDataSource_Response, error) { resp := &proto.ReadDataSource_Response{} res := s.provider.DataSourcesMap[req.TypeName] block := res.CoreConfigSchema() configVal, err := msgpack.Unmarshal(req.Config.Msgpack, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } info := &terraform.InstanceInfo{ Type: req.TypeName, } config := terraform.NewResourceConfigShimmed(configVal, block) // we need to still build the diff separately with the Read method to match // the old behavior diff, err := s.provider.ReadDataDiff(info, config) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } // now we can get the new complete data source newInstanceState, err := s.provider.ReadDataApply(info, diff) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } newStateVal, err := schema.StateValueFromInstanceState(newInstanceState, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } newStateVal = copyTimeoutValues(newStateVal, configVal) newStateMP, err := msgpack.Marshal(newStateVal, block.ImpliedType()) if err != nil { resp.Diagnostics = convert.AppendProtoDiag(resp.Diagnostics, err) return resp, nil } resp.State = &proto.DynamicValue{ Msgpack: newStateMP, } return resp, nil } func pathToAttributePath(path cty.Path) *proto.AttributePath { var steps []*proto.AttributePath_Step for _, step := range path { switch s := step.(type) { case cty.GetAttrStep: steps = append(steps, &proto.AttributePath_Step{ Selector: &proto.AttributePath_Step_AttributeName{ AttributeName: s.Name, }, }) case cty.IndexStep: ty := s.Key.Type() switch ty { case cty.Number: i, _ := s.Key.AsBigFloat().Int64() steps = append(steps, &proto.AttributePath_Step{ Selector: &proto.AttributePath_Step_ElementKeyInt{ ElementKeyInt: i, }, }) case cty.String: steps = append(steps, &proto.AttributePath_Step{ Selector: &proto.AttributePath_Step_ElementKeyString{ ElementKeyString: s.Key.AsString(), }, }) } } } return &proto.AttributePath{Steps: steps} } // normalizeFlatmapContainers removes empty containers, and fixes counts in a // set of flatmapped attributes. func normalizeFlatmapContainers(attrs map[string]string) map[string]string { keyRx := regexp.MustCompile(`.*\.[%#]$`) // find container keys var keys []string for k := range attrs { if keyRx.MatchString(k) { keys = append(keys, k) } } // sort the keys in reverse, so that we check the longest subkeys first sort.Slice(keys, func(i, j int) bool { a, b := keys[i], keys[j] if strings.HasPrefix(a, b) { return true } if strings.HasPrefix(b, a) { return false } return a > b }) for _, k := range keys { prefix := k[:len(k)-1] indexes := map[string]int{} for cand := range attrs { if cand == k { continue } if strings.HasPrefix(cand, prefix) { idx := cand[len(prefix):] dot := strings.Index(idx, ".") if dot > 0 { idx = idx[:dot] } indexes[idx]++ } } if len(indexes) > 0 { attrs[k] = strconv.Itoa(len(indexes)) } else { delete(attrs, k) } } return attrs } // helper/schema throws away timeout values from the config and stores them in // the Private/Meta fields. we need to copy those values into the planned state // so that core doesn't see a perpetual diff with the timeout block. func copyTimeoutValues(to cty.Value, from cty.Value) cty.Value { // if `from` is null, then there are no attributes, and if `to` is null we // are planning to remove it altogether. if from.IsNull() || to.IsNull() { return to } fromAttrs := from.AsValueMap() timeouts, ok := fromAttrs[schema.TimeoutsConfigKey] // no timeouts to copy // timeouts shouldn't be unknown, but don't copy possibly invalid values if !ok || timeouts.IsNull() || !timeouts.IsWhollyKnown() { return to } toAttrs := to.AsValueMap() toAttrs[schema.TimeoutsConfigKey] = timeouts return cty.ObjectVal(toAttrs) }