package rpc import ( "context" "errors" "fmt" "io" "net" "sync" "sync/atomic" "time" "google.golang.org/grpc" "github.com/zrepl/zrepl/internal/daemon/logging/trace" "github.com/google/uuid" "github.com/zrepl/zrepl/internal/replication/logic" "github.com/zrepl/zrepl/internal/replication/logic/pdu" "github.com/zrepl/zrepl/internal/rpc/dataconn" "github.com/zrepl/zrepl/internal/rpc/grpcclientidentity/grpchelper" "github.com/zrepl/zrepl/internal/rpc/versionhandshake" "github.com/zrepl/zrepl/internal/transport" "github.com/zrepl/zrepl/internal/util/envconst" ) // Client implements the active side of a replication setup. // It satisfies the Endpoint, Sender and Receiver interface defined by package replication. type Client struct { dataClient *dataconn.Client controlClient pdu.ReplicationClient // this the grpc client instance, see constructor controlConn *grpc.ClientConn loggers Loggers closed chan struct{} } var _ logic.Endpoint = &Client{} var _ logic.Sender = &Client{} var _ logic.Receiver = &Client{} type DialContextFunc = func(ctx context.Context, network string, addr string) (net.Conn, error) // config must be validated, NewClient will panic if it is not valid func NewClient(cn transport.Connecter, loggers Loggers) *Client { cn = versionhandshake.Connecter(cn, envconst.Duration("ZREPL_RPC_CLIENT_VERSIONHANDSHAKE_TIMEOUT", 10*time.Second)) muxedConnecter := mux(cn) c := &Client{ loggers: loggers, closed: make(chan struct{}), } grpcConn := grpchelper.ClientConn(muxedConnecter.control, loggers.Control) go func() { ctx, cancel := context.WithCancel(context.Background()) go func() { <-c.closed cancel() }() defer cancel() for ctx.Err() == nil { state := grpcConn.GetState() loggers.General.WithField("grpc_state", state.String()).Debug("grpc state change") grpcConn.WaitForStateChange(ctx, state) } }() c.controlClient = pdu.NewReplicationClient(grpcConn) c.controlConn = grpcConn c.dataClient = dataconn.NewClient(muxedConnecter.data, loggers.Data) return c } func (c *Client) Close() { close(c.closed) if err := c.controlConn.Close(); err != nil { c.loggers.General.WithError(err).Error("cannot close control connection") } // TODO c.dataClient should have Close() } // callers must ensure that the returned io.ReadCloser is closed // TODO expose dataClient interface to the outside world func (c *Client) Send(ctx context.Context, r *pdu.SendReq) (*pdu.SendRes, io.ReadCloser, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.Send") defer endSpan() // TODO the returned sendStream may return a read error created by the remote side res, stream, err := c.dataClient.ReqSend(ctx, r) if err != nil { return nil, nil, err } if stream == nil { return res, nil, nil } return res, stream, nil } func (c *Client) Receive(ctx context.Context, req *pdu.ReceiveReq, stream io.ReadCloser) (*pdu.ReceiveRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.Receive") defer endSpan() return c.dataClient.ReqRecv(ctx, req, stream) } func (c *Client) SendDry(ctx context.Context, in *pdu.SendReq) (*pdu.SendRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.SendDry") defer endSpan() return c.controlClient.SendDry(ctx, in) } func (c *Client) ListFilesystems(ctx context.Context, in *pdu.ListFilesystemReq) (*pdu.ListFilesystemRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.ListFilesystems") defer endSpan() return c.controlClient.ListFilesystems(ctx, in) } func (c *Client) ListFilesystemVersions(ctx context.Context, in *pdu.ListFilesystemVersionsReq) (*pdu.ListFilesystemVersionsRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.ListFilesystemVersions") defer endSpan() return c.controlClient.ListFilesystemVersions(ctx, in) } func (c *Client) DestroySnapshots(ctx context.Context, in *pdu.DestroySnapshotsReq) (*pdu.DestroySnapshotsRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.DestroySnapshots") defer endSpan() return c.controlClient.DestroySnapshots(ctx, in) } func (c *Client) ReplicationCursor(ctx context.Context, in *pdu.ReplicationCursorReq) (*pdu.ReplicationCursorRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.ReplicationCursor") defer endSpan() return c.controlClient.ReplicationCursor(ctx, in) } func (c *Client) SendCompleted(ctx context.Context, in *pdu.SendCompletedReq) (*pdu.SendCompletedRes, error) { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.SendCompleted") defer endSpan() return c.controlClient.SendCompleted(ctx, in) } func (c *Client) WaitForConnectivity(ctx context.Context) error { ctx, endSpan := trace.WithSpan(ctx, "rpc.client.WaitForConnectivity") defer endSpan() ctx, cancel := context.WithCancel(ctx) defer cancel() msg := uuid.New().String() req := pdu.PingReq{Message: msg} var ctrlOk, dataOk int32 loggers := GetLoggersOrPanic(ctx) var wg sync.WaitGroup wg.Add(2) checkRes := func(res *pdu.PingRes, err error, logger Logger, okVar *int32) { if err == nil && res.GetEcho() != req.GetMessage() { err = errors.New("pilot message not echoed correctly") } if err == context.Canceled { err = nil } if err != nil { logger.WithError(err).Error("ping failed") atomic.StoreInt32(okVar, 0) cancel() } else { atomic.StoreInt32(okVar, 1) } } go func() { defer wg.Done() ctrl, ctrlErr := c.controlClient.Ping(ctx, &req, grpc.WaitForReady(true)) checkRes(ctrl, ctrlErr, loggers.Control, &ctrlOk) }() go func() { defer wg.Done() for ctx.Err() == nil { data, dataErr := c.dataClient.ReqPing(ctx, &req) // dataClient uses transport.Connecter, which doesn't expose WaitForReady(true) // => we need to mask dial timeouts if err, ok := dataErr.(interface{ Timeout() bool }); ok && err.Timeout() { // Rate-limit pings here in case Timeout() == true is a mis-classification // or returns immediately (this is a tight loop in that case) // TODO keep this in lockstep with controlClient // => don't use FailFast for control, but check that both control and data worked time.Sleep(envconst.Duration("ZREPL_RPC_DATACONN_PING_SLEEP", 1*time.Second)) continue } // it's not a dial timeout, checkRes(data, dataErr, loggers.Data, &dataOk) return } }() wg.Wait() var what string if ctrlOk == 1 && dataOk == 1 { return nil } if ctrlOk == 0 { what += "control" } if dataOk == 0 { if len(what) > 0 { what += " and data" } else { what += "data" } } return fmt.Errorf("%s rpc failed to respond to ping rpcs", what) } func (c *Client) ResetConnectBackoff() { c.controlConn.ResetConnectBackoff() }