// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package resource import ( "context" "errors" "strings" "time" "github.com/oklog/ulid/v2" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/internal/resource" "github.com/hashicorp/consul/internal/storage" "github.com/hashicorp/consul/lib/retry" "github.com/hashicorp/consul/proto-public/pbresource" ) // errUseWriteStatus is returned when the user attempts to modify the resource // status using the Write endpoint. // // We only allow modifications to the status using the WriteStatus endpoint // because: // // - Setting statuses should only be done by controllers and requires different // permissions. // // - Status-only updates shouldn't increment the resource generation. // // While we could accomplish both in the Write handler, there's seldom need to // update the resource body and status at the same time, so it makes more sense // to keep them separate. var errUseWriteStatus = status.Error(codes.InvalidArgument, "resource.status can only be set using the WriteStatus endpoint") func (s *Server) Write(ctx context.Context, req *pbresource.WriteRequest) (*pbresource.WriteResponse, error) { reg, err := s.validateWriteRequest(req) if err != nil { return nil, err } v1EntMeta := v2TenancyToV1EntMeta(req.Resource.Id.Tenancy) authz, authzContext, err := s.getAuthorizer(tokenFromContext(ctx), v1EntMeta) if err != nil { return nil, err } v1EntMetaToV2Tenancy(reg, v1EntMeta, req.Resource.Id.Tenancy) // ACL check comes before tenancy existence checks to not leak tenancy "existence". err = reg.ACLs.Write(authz, authzContext, req.Resource) switch { case acl.IsErrPermissionDenied(err): return nil, status.Error(codes.PermissionDenied, err.Error()) case err != nil: return nil, status.Errorf(codes.Internal, "failed write acl: %v", err) } // Check the user sent the correct type of data. if !req.Resource.Data.MessageIs(reg.Proto) { got := strings.TrimPrefix(req.Resource.Data.TypeUrl, "type.googleapis.com/") return nil, status.Errorf( codes.InvalidArgument, "resource.data is of wrong type (expected=%q, got=%q)", reg.Proto.ProtoReflect().Descriptor().FullName(), got, ) } // Check V1 tenancy exists for the V2 resource if err = v1TenancyExists(reg, s.V1TenancyBridge, req.Resource.Id.Tenancy, codes.InvalidArgument); err != nil { return nil, err } // Check V1 tenancy not marked for deletion. if err = v1TenancyMarkedForDeletion(reg, s.V1TenancyBridge, req.Resource.Id.Tenancy); err != nil { return nil, err } if err = reg.Mutate(req.Resource); err != nil { return nil, status.Errorf(codes.Internal, "failed mutate hook: %v", err.Error()) } if err = reg.Validate(req.Resource); err != nil { return nil, status.Error(codes.InvalidArgument, err.Error()) } // At the storage backend layer, all writes are CAS operations. // // This makes it possible to *safely* do things like keeping the Uid stable // across writes, carrying statuses over, and passing the current version of // the resource to hooks, without restricting ourselves to only using the more // feature-rich storage systems that support "patch" updates etc. natively. // // Although CAS semantics are useful for machine users like controllers, human // users generally don't need them. If the user is performing a non-CAS write, // we read the current version, and automatically retry if the CAS write fails. var result *pbresource.Resource err = s.retryCAS(ctx, req.Resource.Version, func() error { input := clone(req.Resource) // We read with EventualConsistency here because: // // - In the common case, individual resources are written infrequently, and // when using the Raft backend followers are generally within a few hundred // milliseconds of the leader, so the first read will probably return the // current version. // // - StrongConsistency is expensive. In the Raft backend, it involves a round // of heartbeats to verify cluster leadership (in addition to the write's // log replication). // // - CAS failures will be retried by retryCAS anyway. So the read-modify-write // cycle should eventually succeed. var mismatchError storage.GroupVersionMismatchError existing, err := s.Backend.Read(ctx, storage.EventualConsistency, input.Id) switch { // Create path. case errors.Is(err, storage.ErrNotFound): input.Id.Uid = ulid.Make().String() // Prevent setting statuses in this endpoint. if len(input.Status) != 0 { return errUseWriteStatus } // Generally, we expect resources with owners to be created by controllers, // and they should provide the Uid. In cases where no Uid is given (e.g. the // owner is specified in the resource HCL) we'll look up whatever the current // Uid is and use that. // // An important note on consistency: // // We read the owner with StrongConsistency here to reduce the likelihood of // creating a resource pointing to the wrong "incarnation" of the owner in // cases where the owner is deleted and re-created in quick succession. // // That said, there is still a chance that the owner has been deleted by the // time we write this resource. This is not a relational database and we do // not support ACID transactions or real foreign key constraints. if input.Owner != nil && input.Owner.Uid == "" { owner, err := s.Backend.Read(ctx, storage.StrongConsistency, input.Owner) switch { case errors.Is(err, storage.ErrNotFound): return status.Error(codes.InvalidArgument, "resource.owner does not exist") case err != nil: return status.Errorf(codes.Internal, "failed to resolve owner: %v", err) } input.Owner = owner.Id } // TODO(spatel): Revisit owner<->resource tenancy rules post-1.16 // Update path. case err == nil || errors.As(err, &mismatchError): // Allow writes that update GroupVersion. if mismatchError.Stored != nil { existing = mismatchError.Stored } // Use the stored ID because it includes the Uid. // // Generally, users won't provide the Uid but controllers will, because // controllers need to operate on a specific "incarnation" of a resource // as opposed to an older/newer resource with the same name, whereas users // just want to update the current resource. input.Id = existing.Id // User is doing a non-CAS write, use the current version. if input.Version == "" { input.Version = existing.Version } // Check the stored version matches the user-given version. // // Although CAS operations are implemented "for real" at the storage backend // layer, we must check the version here too to prevent a scenario where: // // - Current resource version is `v2` // - User passes version `v2` // - Read returns stale version `v1` // - We carry `v1`'s statuses over (effectively overwriting `v2`'s statuses) // - CAS operation succeeds anyway because user-given version is current if input.Version != existing.Version { return storage.ErrCASFailure } // Fill in an empty Owner UID with the existing owner's UID. If other parts // of the owner ID like the type or name have changed then the subsequent // EqualID call will still error as you are not allowed to change the owner. // This is a small UX nicety to repeatedly "apply" a resource that should // have an owner without having to care about the current owners incarnation. if input.Owner != nil && existing.Owner != nil && input.Owner.Uid == "" { input.Owner.Uid = existing.Owner.Uid } // Owner can only be set on creation. Enforce immutability. if !resource.EqualID(input.Owner, existing.Owner) { return status.Errorf(codes.InvalidArgument, "owner cannot be changed") } // Carry over status and prevent updates if input.Status == nil { input.Status = existing.Status } else if !resource.EqualStatusMap(input.Status, existing.Status) { return errUseWriteStatus } default: return err } input.Generation = ulid.Make().String() result, err = s.Backend.WriteCAS(ctx, input) return err }) switch { case errors.Is(err, storage.ErrCASFailure): return nil, status.Error(codes.Aborted, err.Error()) case errors.Is(err, storage.ErrWrongUid): return nil, status.Error(codes.FailedPrecondition, err.Error()) case isGRPCStatusError(err): return nil, err case err != nil: return nil, status.Errorf(codes.Internal, "failed to write resource: %v", err.Error()) } return &pbresource.WriteResponse{Resource: result}, nil } // retryCAS retries the given operation with exponential backoff if the user // didn't provide a version. This is intended to hide failures when the user // isn't intentionally performing a CAS operation (all writes are, by design, // CAS operations at the storage backend layer). func (s *Server) retryCAS(ctx context.Context, vsn string, cas func() error) error { if vsn != "" { return cas() } const maxAttempts = 5 // These parameters are fairly arbitrary, so if you find better ones then go // ahead and swap them out! In general, we want to wait long enough to smooth // over small amounts of storage replication lag, but not so long that we make // matters worse by holding onto load. backoff := &retry.Waiter{ MinWait: 50 * time.Millisecond, MaxWait: 1 * time.Second, Jitter: retry.NewJitter(50), Factor: 75 * time.Millisecond, } var err error for i := 1; i <= maxAttempts; i++ { if err = cas(); !errors.Is(err, storage.ErrCASFailure) { break } if backoff.Wait(ctx) != nil { break } s.Logger.Trace("retrying failed CAS operation", "failure_count", i) } return err } func (s *Server) validateWriteRequest(req *pbresource.WriteRequest) (*resource.Registration, error) { var field string switch { case req.Resource == nil: field = "resource" case req.Resource.Id == nil: field = "resource.id" case req.Resource.Data == nil: field = "resource.data" } if field != "" { return nil, status.Errorf(codes.InvalidArgument, "%s is required", field) } if err := validateId(req.Resource.Id, "resource.id"); err != nil { return nil, err } if req.Resource.Owner != nil { if err := validateId(req.Resource.Owner, "resource.owner"); err != nil { return nil, err } } // Check type exists. reg, err := s.resolveType(req.Resource.Id.Type) if err != nil { return nil, err } // Check scope if reg.Scope == resource.ScopePartition && req.Resource.Id.Tenancy.Namespace != "" { return nil, status.Errorf( codes.InvalidArgument, "partition scoped resource %s cannot have a namespace. got: %s", resource.ToGVK(req.Resource.Id.Type), req.Resource.Id.Tenancy.Namespace, ) } return reg, nil }