package plugin import ( "context" "errors" "math" "sync/atomic" "google.golang.org/grpc" log "github.com/hashicorp/go-hclog" plugin "github.com/hashicorp/go-plugin" "github.com/hashicorp/vault/sdk/helper/pluginutil" "github.com/hashicorp/vault/sdk/logical" "github.com/hashicorp/vault/sdk/plugin/pb" ) var ErrPluginShutdown = errors.New("plugin is shut down") var ErrClientInMetadataMode = errors.New("plugin client can not perform action while in metadata mode") // Validate backendGRPCPluginClient satisfies the logical.Backend interface var _ logical.Backend = &backendGRPCPluginClient{} // backendPluginClient implements logical.Backend and is the // go-plugin client. type backendGRPCPluginClient struct { broker *plugin.GRPCBroker client pb.BackendClient metadataMode bool system logical.SystemView logger log.Logger // This is used to signal to the Cleanup function that it can proceed // because we have a defined server cleanupCh chan struct{} // server is the grpc server used for serving storage and sysview requests. server *atomic.Value // clientConn is the underlying grpc connection to the server, we store it // so it can be cleaned up. clientConn *grpc.ClientConn doneCtx context.Context } func (b *backendGRPCPluginClient) HandleRequest(ctx context.Context, req *logical.Request) (*logical.Response, error) { if b.metadataMode { return nil, ErrClientInMetadataMode } ctx, cancel := context.WithCancel(ctx) quitCh := pluginutil.CtxCancelIfCanceled(cancel, b.doneCtx) defer close(quitCh) defer cancel() protoReq, err := pb.LogicalRequestToProtoRequest(req) if err != nil { return nil, err } reply, err := b.client.HandleRequest(ctx, &pb.HandleRequestArgs{ Request: protoReq, }, largeMsgGRPCCallOpts...) if err != nil { if b.doneCtx.Err() != nil { return nil, ErrPluginShutdown } return nil, err } resp, err := pb.ProtoResponseToLogicalResponse(reply.Response) if err != nil { return nil, err } if reply.Err != nil { return resp, pb.ProtoErrToErr(reply.Err) } return resp, nil } func (b *backendGRPCPluginClient) SpecialPaths() *logical.Paths { reply, err := b.client.SpecialPaths(b.doneCtx, &pb.Empty{}) if err != nil { return nil } if reply.Paths == nil { return nil } return &logical.Paths{ Root: reply.Paths.Root, Unauthenticated: reply.Paths.Unauthenticated, LocalStorage: reply.Paths.LocalStorage, SealWrapStorage: reply.Paths.SealWrapStorage, } } // System returns vault's system view. The backend client stores the view during // Setup, so there is no need to shim the system just to get it back. func (b *backendGRPCPluginClient) System() logical.SystemView { return b.system } // Logger returns vault's logger. The backend client stores the logger during // Setup, so there is no need to shim the logger just to get it back. func (b *backendGRPCPluginClient) Logger() log.Logger { return b.logger } func (b *backendGRPCPluginClient) HandleExistenceCheck(ctx context.Context, req *logical.Request) (bool, bool, error) { if b.metadataMode { return false, false, ErrClientInMetadataMode } protoReq, err := pb.LogicalRequestToProtoRequest(req) if err != nil { return false, false, err } ctx, cancel := context.WithCancel(ctx) quitCh := pluginutil.CtxCancelIfCanceled(cancel, b.doneCtx) defer close(quitCh) defer cancel() reply, err := b.client.HandleExistenceCheck(ctx, &pb.HandleExistenceCheckArgs{ Request: protoReq, }, largeMsgGRPCCallOpts...) if err != nil { if b.doneCtx.Err() != nil { return false, false, ErrPluginShutdown } return false, false, err } if reply.Err != nil { return false, false, pb.ProtoErrToErr(reply.Err) } return reply.CheckFound, reply.Exists, nil } func (b *backendGRPCPluginClient) Cleanup(ctx context.Context) { ctx, cancel := context.WithCancel(ctx) quitCh := pluginutil.CtxCancelIfCanceled(cancel, b.doneCtx) defer close(quitCh) defer cancel() b.client.Cleanup(ctx, &pb.Empty{}) // This will block until Setup has run the function to create a new server // in b.server. If we stop here before it has a chance to actually start // listening, when it starts listening it will immediately error out and // exit, which is fine. Overall this ensures that we do not miss stopping // the server if it ends up being created after Cleanup is called. <-b.cleanupCh server := b.server.Load() if server != nil { server.(*grpc.Server).GracefulStop() } b.clientConn.Close() } func (b *backendGRPCPluginClient) InvalidateKey(ctx context.Context, key string) { if b.metadataMode { return } ctx, cancel := context.WithCancel(ctx) quitCh := pluginutil.CtxCancelIfCanceled(cancel, b.doneCtx) defer close(quitCh) defer cancel() b.client.InvalidateKey(ctx, &pb.InvalidateKeyArgs{ Key: key, }) } func (b *backendGRPCPluginClient) Setup(ctx context.Context, config *logical.BackendConfig) error { // Shim logical.Storage storageImpl := config.StorageView if b.metadataMode { storageImpl = &NOOPStorage{} } storage := &GRPCStorageServer{ impl: storageImpl, } // Shim logical.SystemView sysViewImpl := config.System if b.metadataMode { sysViewImpl = &logical.StaticSystemView{} } sysView := &gRPCSystemViewServer{ impl: sysViewImpl, } // Register the server in this closure. serverFunc := func(opts []grpc.ServerOption) *grpc.Server { opts = append(opts, grpc.MaxRecvMsgSize(math.MaxInt32)) opts = append(opts, grpc.MaxSendMsgSize(math.MaxInt32)) s := grpc.NewServer(opts...) pb.RegisterSystemViewServer(s, sysView) pb.RegisterStorageServer(s, storage) b.server.Store(s) close(b.cleanupCh) return s } brokerID := b.broker.NextId() go b.broker.AcceptAndServe(brokerID, serverFunc) args := &pb.SetupArgs{ BrokerID: brokerID, Config: config.Config, BackendUUID: config.BackendUUID, } ctx, cancel := context.WithCancel(ctx) quitCh := pluginutil.CtxCancelIfCanceled(cancel, b.doneCtx) defer close(quitCh) defer cancel() reply, err := b.client.Setup(ctx, args) if err != nil { return err } if reply.Err != "" { return errors.New(reply.Err) } // Set system and logger for getter methods b.system = config.System b.logger = config.Logger return nil } func (b *backendGRPCPluginClient) Type() logical.BackendType { reply, err := b.client.Type(b.doneCtx, &pb.Empty{}) if err != nil { return logical.TypeUnknown } return logical.BackendType(reply.Type) }