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package abciclient
import (
"context"
"errors"
"fmt"
"net"
"sync"
"time"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials/insecure"
"github.com/tendermint/tendermint/abci/types"
"github.com/tendermint/tendermint/libs/log"
tmnet "github.com/tendermint/tendermint/libs/net"
"github.com/tendermint/tendermint/libs/service"
)
// A gRPC client.
type grpcClient struct {
service.BaseService
logger log.Logger
mustConnect bool
client types.ABCIApplicationClient
conn *grpc.ClientConn
chReqRes chan *ReqRes // dispatches "async" responses to callbacks *in order*, needed by mempool
mtx sync.Mutex
addr string
err error
}
var _ Client = (*grpcClient)(nil)
// NewGRPCClient creates a gRPC client, which will connect to addr upon the
// start. Note Client#Start returns an error if connection is unsuccessful and
// mustConnect is true.
//
// GRPC calls are synchronous, but some callbacks expect to be called
// asynchronously (eg. the mempool expects to be able to lock to remove bad txs
// from cache). To accommodate, we finish each call in its own go-routine,
// which is expensive, but easy - if you want something better, use the socket
// protocol! maybe one day, if people really want it, we use grpc streams, but
// hopefully not :D
func NewGRPCClient(logger log.Logger, addr string, mustConnect bool) Client {
cli := &grpcClient{
logger: logger,
addr: addr,
mustConnect: mustConnect,
// Buffering the channel is needed to make calls appear asynchronous,
// which is required when the caller makes multiple async calls before
// processing callbacks (e.g. due to holding locks). 64 means that a
// caller can make up to 64 async calls before a callback must be
// processed (otherwise it deadlocks). It also means that we can make 64
// gRPC calls while processing a slow callback at the channel head.
chReqRes: make(chan *ReqRes, 64),
}
cli.BaseService = *service.NewBaseService(logger, "grpcClient", cli)
return cli
}
func dialerFunc(ctx context.Context, addr string) (net.Conn, error) {
return tmnet.Connect(addr)
}
func (cli *grpcClient) OnStart(ctx context.Context) error {
// This processes asynchronous request/response messages and dispatches
// them to callbacks.
go func() {
// Use a separate function to use defer for mutex unlocks (this handles panics)
callCb := func(reqres *ReqRes) {
cli.mtx.Lock()
defer cli.mtx.Unlock()
reqres.SetDone()
// Notify reqRes listener if set
reqres.InvokeCallback()
}
for {
select {
case reqres := <-cli.chReqRes:
if reqres != nil {
callCb(reqres)
} else {
cli.logger.Error("Received nil reqres")
}
case <-ctx.Done():
return
}
}
}()
RETRY_LOOP:
for {
conn, err := grpc.Dial(cli.addr,
grpc.WithTransportCredentials(insecure.NewCredentials()),
grpc.WithContextDialer(dialerFunc),
)
if err != nil {
if cli.mustConnect {
return err
}
cli.logger.Error(fmt.Sprintf("abci.grpcClient failed to connect to %v. Retrying...\n", cli.addr), "err", err)
time.Sleep(time.Second * dialRetryIntervalSeconds)
continue RETRY_LOOP
}
cli.logger.Info("Dialed server. Waiting for echo.", "addr", cli.addr)
client := types.NewABCIApplicationClient(conn)
cli.conn = conn
ENSURE_CONNECTED:
for {
_, err := client.Echo(ctx, &types.RequestEcho{Message: "hello"}, grpc.WaitForReady(true))
if err == nil {
break ENSURE_CONNECTED
}
if errors.Is(err, context.Canceled) || errors.Is(err, context.DeadlineExceeded) {
return err
}
cli.logger.Error("Echo failed", "err", err)
time.Sleep(time.Second * echoRetryIntervalSeconds)
}
cli.client = client
return nil
}
}
func (cli *grpcClient) OnStop() {
if cli.conn != nil {
cli.conn.Close()
}
close(cli.chReqRes)
}
func (cli *grpcClient) StopForError(err error) {
if !cli.IsRunning() {
return
}
cli.mtx.Lock()
if cli.err == nil {
cli.err = err
}
cli.mtx.Unlock()
cli.logger.Error("Stopping abci.grpcClient for error", "err", err)
cli.Stop()
}
func (cli *grpcClient) Error() error {
cli.mtx.Lock()
defer cli.mtx.Unlock()
return cli.err
}
//----------------------------------------
// NOTE: call is synchronous, use ctx to break early if needed
func (cli *grpcClient) FlushAsync(ctx context.Context) (*ReqRes, error) {
req := types.ToRequestFlush()
res, err := cli.client.Flush(ctx, req.GetFlush(), grpc.WaitForReady(true))
if err != nil {
return nil, err
}
return cli.finishAsyncCall(ctx, req, &types.Response{Value: &types.Response_Flush{Flush: res}})
}
// NOTE: call is synchronous, use ctx to break early if needed
func (cli *grpcClient) CheckTxAsync(ctx context.Context, params types.RequestCheckTx) (*ReqRes, error) {
req := types.ToRequestCheckTx(params)
res, err := cli.client.CheckTx(ctx, req.GetCheckTx(), grpc.WaitForReady(true))
if err != nil {
return nil, err
}
return cli.finishAsyncCall(ctx, req, &types.Response{Value: &types.Response_CheckTx{CheckTx: res}})
}
// finishAsyncCall creates a ReqRes for an async call, and immediately populates it
// with the response. We don't complete it until it's been ordered via the channel.
func (cli *grpcClient) finishAsyncCall(ctx context.Context, req *types.Request, res *types.Response) (*ReqRes, error) {
reqres := NewReqRes(req)
reqres.Response = res
select {
case cli.chReqRes <- reqres: // use channel for async responses, since they must be ordered
return reqres, nil
case <-ctx.Done():
return nil, ctx.Err()
}
}
// finishSyncCall waits for an async call to complete. It is necessary to call all
// sync calls asynchronously as well, to maintain call and response ordering via
// the channel, and this method will wait until the async call completes.
func (cli *grpcClient) finishSyncCall(reqres *ReqRes) *types.Response {
// It's possible that the callback is called twice, since the callback can
// be called immediately on SetCallback() in addition to after it has been
// set. This is because completing the ReqRes happens in a separate critical
// section from the one where the callback is called: there is a race where
// SetCallback() is called between completing the ReqRes and dispatching the
// callback.
//
// We also buffer the channel with 1 response, since SetCallback() will be
// called synchronously if the reqres is already completed, in which case
// it will block on sending to the channel since it hasn't gotten around to
// receiving from it yet.
//
// ReqRes should really handle callback dispatch internally, to guarantee
// that it's only called once and avoid the above race conditions.
var once sync.Once
ch := make(chan *types.Response, 1)
reqres.SetCallback(func(res *types.Response) {
once.Do(func() {
ch <- res
})
})
return <-ch
}
//----------------------------------------
func (cli *grpcClient) Flush(ctx context.Context) error { return nil }
func (cli *grpcClient) Echo(ctx context.Context, msg string) (*types.ResponseEcho, error) {
req := types.ToRequestEcho(msg)
return cli.client.Echo(ctx, req.GetEcho(), grpc.WaitForReady(true))
}
func (cli *grpcClient) Info(
ctx context.Context,
params types.RequestInfo,
) (*types.ResponseInfo, error) {
req := types.ToRequestInfo(params)
return cli.client.Info(ctx, req.GetInfo(), grpc.WaitForReady(true))
}
func (cli *grpcClient) CheckTx(
ctx context.Context,
params types.RequestCheckTx,
) (*types.ResponseCheckTx, error) {
reqres, err := cli.CheckTxAsync(ctx, params)
if err != nil {
return nil, err
}
return cli.finishSyncCall(reqres).GetCheckTx(), cli.Error()
}
func (cli *grpcClient) Query(
ctx context.Context,
params types.RequestQuery,
) (*types.ResponseQuery, error) {
req := types.ToRequestQuery(params)
return cli.client.Query(ctx, req.GetQuery(), grpc.WaitForReady(true))
}
func (cli *grpcClient) Commit(ctx context.Context) (*types.ResponseCommit, error) {
req := types.ToRequestCommit()
return cli.client.Commit(ctx, req.GetCommit(), grpc.WaitForReady(true))
}
func (cli *grpcClient) InitChain(
ctx context.Context,
params types.RequestInitChain,
) (*types.ResponseInitChain, error) {
req := types.ToRequestInitChain(params)
return cli.client.InitChain(ctx, req.GetInitChain(), grpc.WaitForReady(true))
}
func (cli *grpcClient) ListSnapshots(
ctx context.Context,
params types.RequestListSnapshots,
) (*types.ResponseListSnapshots, error) {
req := types.ToRequestListSnapshots(params)
return cli.client.ListSnapshots(ctx, req.GetListSnapshots(), grpc.WaitForReady(true))
}
func (cli *grpcClient) OfferSnapshot(
ctx context.Context,
params types.RequestOfferSnapshot,
) (*types.ResponseOfferSnapshot, error) {
req := types.ToRequestOfferSnapshot(params)
return cli.client.OfferSnapshot(ctx, req.GetOfferSnapshot(), grpc.WaitForReady(true))
}
func (cli *grpcClient) LoadSnapshotChunk(
ctx context.Context,
params types.RequestLoadSnapshotChunk) (*types.ResponseLoadSnapshotChunk, error) {
req := types.ToRequestLoadSnapshotChunk(params)
return cli.client.LoadSnapshotChunk(ctx, req.GetLoadSnapshotChunk(), grpc.WaitForReady(true))
}
func (cli *grpcClient) ApplySnapshotChunk(
ctx context.Context,
params types.RequestApplySnapshotChunk) (*types.ResponseApplySnapshotChunk, error) {
req := types.ToRequestApplySnapshotChunk(params)
return cli.client.ApplySnapshotChunk(ctx, req.GetApplySnapshotChunk(), grpc.WaitForReady(true))
}
func (cli *grpcClient) PrepareProposal(
ctx context.Context,
params types.RequestPrepareProposal) (*types.ResponsePrepareProposal, error) {
req := types.ToRequestPrepareProposal(params)
return cli.client.PrepareProposal(ctx, req.GetPrepareProposal(), grpc.WaitForReady(true))
}
func (cli *grpcClient) ProcessProposal(
ctx context.Context,
params types.RequestProcessProposal) (*types.ResponseProcessProposal, error) {
req := types.ToRequestProcessProposal(params)
return cli.client.ProcessProposal(ctx, req.GetProcessProposal(), grpc.WaitForReady(true))
}
func (cli *grpcClient) ExtendVote(
ctx context.Context,
params types.RequestExtendVote) (*types.ResponseExtendVote, error) {
req := types.ToRequestExtendVote(params)
return cli.client.ExtendVote(ctx, req.GetExtendVote(), grpc.WaitForReady(true))
}
func (cli *grpcClient) VerifyVoteExtension(
ctx context.Context,
params types.RequestVerifyVoteExtension) (*types.ResponseVerifyVoteExtension, error) {
req := types.ToRequestVerifyVoteExtension(params)
return cli.client.VerifyVoteExtension(ctx, req.GetVerifyVoteExtension(), grpc.WaitForReady(true))
}
func (cli *grpcClient) FinalizeBlock(
ctx context.Context,
params types.RequestFinalizeBlock) (*types.ResponseFinalizeBlock, error) {
req := types.ToRequestFinalizeBlock(params)
return cli.client.FinalizeBlock(ctx, req.GetFinalizeBlock(), grpc.WaitForReady(true))
}