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server.go
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server.go
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// Copyright 2014 The Cockroach Authors.
//
// Use of this software is governed by the Business Source License
// included in the file licenses/BSL.txt.
//
// As of the Change Date specified in that file, in accordance with
// the Business Source License, use of this software will be governed
// by the Apache License, Version 2.0, included in the file
// licenses/APL.txt.
package server
import (
"compress/gzip"
"context"
"crypto/tls"
"fmt"
"github.com/cockroachdb/cockroach/pkg/migration/fflag"
"io"
"io/ioutil"
"math"
"net"
"net/http"
"os"
"path/filepath"
"runtime"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/cockroachdb/cmux"
"github.com/cockroachdb/cockroach/pkg/base"
"github.com/cockroachdb/cockroach/pkg/blobs"
"github.com/cockroachdb/cockroach/pkg/blobs/blobspb"
"github.com/cockroachdb/cockroach/pkg/gossip"
"github.com/cockroachdb/cockroach/pkg/internal/client"
"github.com/cockroachdb/cockroach/pkg/jobs"
"github.com/cockroachdb/cockroach/pkg/keys"
"github.com/cockroachdb/cockroach/pkg/kv"
"github.com/cockroachdb/cockroach/pkg/migration/connect"
"github.com/cockroachdb/cockroach/pkg/migration/everynode"
"github.com/cockroachdb/cockroach/pkg/roachpb"
"github.com/cockroachdb/cockroach/pkg/rpc"
"github.com/cockroachdb/cockroach/pkg/rpc/nodedialer"
"github.com/cockroachdb/cockroach/pkg/server/debug"
"github.com/cockroachdb/cockroach/pkg/server/goroutinedumper"
"github.com/cockroachdb/cockroach/pkg/server/heapprofiler"
"github.com/cockroachdb/cockroach/pkg/server/serverpb"
"github.com/cockroachdb/cockroach/pkg/server/status"
"github.com/cockroachdb/cockroach/pkg/server/telemetry"
"github.com/cockroachdb/cockroach/pkg/settings"
"github.com/cockroachdb/cockroach/pkg/settings/cluster"
"github.com/cockroachdb/cockroach/pkg/sql"
"github.com/cockroachdb/cockroach/pkg/sql/distsql"
"github.com/cockroachdb/cockroach/pkg/sql/execinfra"
"github.com/cockroachdb/cockroach/pkg/sql/execinfrapb"
"github.com/cockroachdb/cockroach/pkg/sql/pgwire"
"github.com/cockroachdb/cockroach/pkg/sql/querycache"
"github.com/cockroachdb/cockroach/pkg/sql/sem/tree"
"github.com/cockroachdb/cockroach/pkg/sql/sessiondata"
"github.com/cockroachdb/cockroach/pkg/sql/sqlutil"
"github.com/cockroachdb/cockroach/pkg/sql/stats"
"github.com/cockroachdb/cockroach/pkg/sqlmigrations"
"github.com/cockroachdb/cockroach/pkg/storage"
"github.com/cockroachdb/cockroach/pkg/storage/bulk"
"github.com/cockroachdb/cockroach/pkg/storage/closedts/container"
"github.com/cockroachdb/cockroach/pkg/storage/cloud"
"github.com/cockroachdb/cockroach/pkg/storage/engine"
"github.com/cockroachdb/cockroach/pkg/storage/engine/enginepb"
"github.com/cockroachdb/cockroach/pkg/storage/reports"
"github.com/cockroachdb/cockroach/pkg/storage/storagebase"
"github.com/cockroachdb/cockroach/pkg/ts"
"github.com/cockroachdb/cockroach/pkg/ui"
"github.com/cockroachdb/cockroach/pkg/util"
"github.com/cockroachdb/cockroach/pkg/util/envutil"
"github.com/cockroachdb/cockroach/pkg/util/hlc"
"github.com/cockroachdb/cockroach/pkg/util/httputil"
"github.com/cockroachdb/cockroach/pkg/util/log"
"github.com/cockroachdb/cockroach/pkg/util/metric"
"github.com/cockroachdb/cockroach/pkg/util/mon"
"github.com/cockroachdb/cockroach/pkg/util/netutil"
"github.com/cockroachdb/cockroach/pkg/util/protoutil"
"github.com/cockroachdb/cockroach/pkg/util/retry"
"github.com/cockroachdb/cockroach/pkg/util/stop"
"github.com/cockroachdb/cockroach/pkg/util/syncutil"
"github.com/cockroachdb/cockroach/pkg/util/timeutil"
"github.com/cockroachdb/cockroach/pkg/util/tracing"
"github.com/cockroachdb/cockroach/pkg/util/uuid"
"github.com/cockroachdb/logtags"
raven "github.com/getsentry/raven-go"
gwruntime "github.com/grpc-ecosystem/grpc-gateway/runtime"
"github.com/opentracing/opentracing-go"
"github.com/pkg/errors"
"google.golang.org/grpc"
)
var (
// Allocation pool for gzipResponseWriters.
gzipResponseWriterPool sync.Pool
// GracefulDrainModes is the standard succession of drain modes entered
// for a graceful shutdown.
GracefulDrainModes = []serverpb.DrainMode{serverpb.DrainMode_CLIENT, serverpb.DrainMode_LEASES}
queryWait = settings.RegisterPublicDurationSetting(
"server.shutdown.query_wait",
"the server will wait for at least this amount of time for active queries to finish",
10*time.Second,
)
drainWait = settings.RegisterPublicDurationSetting(
"server.shutdown.drain_wait",
"the amount of time a server waits in an unready state before proceeding with the rest "+
"of the shutdown process",
0*time.Second,
)
forwardClockJumpCheckEnabled = settings.RegisterPublicBoolSetting(
"server.clock.forward_jump_check_enabled",
"if enabled, forward clock jumps > max_offset/2 will cause a panic",
false,
)
persistHLCUpperBoundInterval = settings.RegisterPublicDurationSetting(
"server.clock.persist_upper_bound_interval",
"the interval between persisting the wall time upper bound of the clock. The clock "+
"does not generate a wall time greater than the persisted timestamp and will panic if "+
"it sees a wall time greater than this value. When cockroach starts, it waits for the "+
"wall time to catch-up till this persisted timestamp. This guarantees monotonic wall "+
"time across server restarts. Not setting this or setting a value of 0 disables this "+
"feature.",
0,
)
)
// TODO(peter): Until go1.11, ServeMux.ServeHTTP was not safe to call
// concurrently with ServeMux.Handle. So we provide our own wrapper with proper
// locking. Slightly less efficient because it locks unnecessarily, but
// safe. See TestServeMuxConcurrency. Should remove once we've upgraded to
// go1.11.
type safeServeMux struct {
mu syncutil.RWMutex
mux http.ServeMux
}
func (mux *safeServeMux) Handle(pattern string, handler http.Handler) {
mux.mu.Lock()
mux.mux.Handle(pattern, handler)
mux.mu.Unlock()
}
func (mux *safeServeMux) ServeHTTP(w http.ResponseWriter, r *http.Request) {
mux.mu.RLock()
mux.mux.ServeHTTP(w, r)
mux.mu.RUnlock()
}
// Server is the cockroach server node.
type Server struct {
nodeIDContainer base.NodeIDContainer
cfg Config
st *cluster.Settings
mux safeServeMux
clock *hlc.Clock
startTime time.Time
rpcContext *rpc.Context
// The gRPC server on which the different RPC handlers will be registered.
grpc *grpcServer
gossip *gossip.Gossip
nodeDialer *nodedialer.Dialer
nodeLiveness *storage.NodeLiveness
storePool *storage.StorePool
tcsFactory *kv.TxnCoordSenderFactory
distSender *kv.DistSender
db *client.DB
pgServer *pgwire.Server
distSQLServer *distsql.ServerImpl
node *Node
registry *metric.Registry
recorder *status.MetricsRecorder
runtime *status.RuntimeStatSampler
admin *adminServer
status *statusServer
authentication *authenticationServer
initServer *initServer
tsDB *ts.DB
tsServer ts.Server
raftTransport *storage.RaftTransport
stopper *stop.Stopper
execCfg *sql.ExecutorConfig
internalExecutor *sql.InternalExecutor
leaseMgr *sql.LeaseManager
blobService *blobs.Service
debug *debug.Server
// sessionRegistry can be queried for info on running SQL sessions. It is
// shared between the sql.Server and the statusServer.
sessionRegistry *sql.SessionRegistry
jobRegistry *jobs.Registry
statsRefresher *stats.Refresher
replicationReporter *reports.Reporter
engines Engines
internalMemMetrics sql.MemoryMetrics
adminMemMetrics sql.MemoryMetrics
// sqlMemMetrics are used to track memory usage of sql sessions.
sqlMemMetrics sql.MemoryMetrics
}
// NewServer creates a Server from a server.Config.
func NewServer(cfg Config, stopper *stop.Stopper) (*Server, error) {
// WIP do we know way up here whether this node is bootstrapping the cluster
// or not?
connectRes, err := connect.Connect(context.Background(), cfg.JoinList)
if err != nil {
return nil, err
}
version := fflag.GetHandle(connectRes.BootVersion)
if err := cfg.ValidateAddrs(context.Background()); err != nil {
return nil, err
}
st := cfg.Settings
st.Version = version
if cfg.AmbientCtx.Tracer == nil {
panic(errors.New("no tracer set in AmbientCtx"))
}
clock := hlc.NewClock(hlc.UnixNano, time.Duration(cfg.MaxOffset))
s := &Server{
st: st,
clock: clock,
stopper: stopper,
cfg: cfg,
registry: metric.NewRegistry(),
}
// If the tracer has a Close function, call it after the server stops.
if tr, ok := cfg.AmbientCtx.Tracer.(stop.Closer); ok {
stopper.AddCloser(tr)
}
// Attempt to load TLS configs right away, failures are permanent.
if certMgr, err := cfg.InitializeNodeTLSConfigs(stopper); err != nil {
return nil, err
} else if certMgr != nil {
// The certificate manager is non-nil in secure mode.
s.registry.AddMetricStruct(certMgr.Metrics())
}
// Add a dynamic log tag value for the node ID.
//
// We need to pass an ambient context to the various server components, but we
// won't know the node ID until we Start(). At that point it's too late to
// change the ambient contexts in the components (various background processes
// will have already started using them).
//
// NodeIDContainer allows us to add the log tag to the context now and update
// the value asynchronously. It's not significantly more expensive than a
// regular tag since it's just doing an (atomic) load when a log/trace message
// is constructed. The node ID is set by the Store if this host was
// bootstrapped; otherwise a new one is allocated in Node.
s.cfg.AmbientCtx.AddLogTag("n", &s.nodeIDContainer)
ctx := s.AnnotateCtx(context.Background())
// Check the compatibility between the configured addresses and that
// provided in certificates. This also logs the certificate
// addresses in all cases to aid troubleshooting.
// This must be called after the certificate manager was initialized
// and after ValidateAddrs().
s.cfg.CheckCertificateAddrs(ctx)
if knobs := s.cfg.TestingKnobs.Server; knobs != nil {
serverKnobs := knobs.(*TestingKnobs)
s.rpcContext = rpc.NewContextWithTestingKnobs(
s.cfg.AmbientCtx, s.cfg.Config, s.clock, s.stopper, cfg.Settings,
serverKnobs.ContextTestingKnobs,
)
} else {
s.rpcContext = rpc.NewContext(s.cfg.AmbientCtx, s.cfg.Config, s.clock, s.stopper,
cfg.Settings)
}
s.rpcContext.HeartbeatCB = func() {
if err := s.rpcContext.RemoteClocks.VerifyClockOffset(ctx); err != nil {
log.Fatal(ctx, err)
}
}
s.registry.AddMetricStruct(s.rpcContext.Metrics())
s.grpc = newGRPCServer(s.rpcContext)
s.gossip = gossip.New(
s.cfg.AmbientCtx,
&s.rpcContext.ClusterID,
&s.nodeIDContainer,
s.rpcContext,
s.grpc.Server,
s.stopper,
s.registry,
s.cfg.Locality,
&s.cfg.DefaultZoneConfig,
)
s.nodeDialer = nodedialer.New(s.rpcContext, gossip.AddressResolver(s.gossip))
// Create blob service for inter-node file sharing.
if blobService, err := blobs.NewBlobService(s.ClusterSettings().ExternalIODir); err != nil {
log.Fatal(ctx, err)
} else {
s.blobService = blobService
}
blobspb.RegisterBlobServer(s.grpc.Server, s.blobService)
// A custom RetryOptions is created which uses stopper.ShouldQuiesce() as
// the Closer. This prevents infinite retry loops from occurring during
// graceful server shutdown
//
// Such a loop occurs when the DistSender attempts a connection to the
// local server during shutdown, and receives an internal server error (HTTP
// Code 5xx). This is the correct error for a server to return when it is
// shutting down, and is normally retryable in a cluster environment.
// However, on a single-node setup (such as a test), retries will never
// succeed because the only server has been shut down; thus, the
// DistSender needs to know that it should not retry in this situation.
var clientTestingKnobs kv.ClientTestingKnobs
if kvKnobs := s.cfg.TestingKnobs.KVClient; kvKnobs != nil {
clientTestingKnobs = *kvKnobs.(*kv.ClientTestingKnobs)
}
retryOpts := s.cfg.RetryOptions
if retryOpts == (retry.Options{}) {
retryOpts = base.DefaultRetryOptions()
}
retryOpts.Closer = s.stopper.ShouldQuiesce()
distSenderCfg := kv.DistSenderConfig{
AmbientCtx: s.cfg.AmbientCtx,
Settings: st,
Clock: s.clock,
RPCContext: s.rpcContext,
RPCRetryOptions: &retryOpts,
TestingKnobs: clientTestingKnobs,
NodeDialer: s.nodeDialer,
}
s.distSender = kv.NewDistSender(distSenderCfg, s.gossip)
s.registry.AddMetricStruct(s.distSender.Metrics())
txnMetrics := kv.MakeTxnMetrics(s.cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(txnMetrics)
txnCoordSenderFactoryCfg := kv.TxnCoordSenderFactoryConfig{
AmbientCtx: s.cfg.AmbientCtx,
Settings: st,
Clock: s.clock,
Stopper: s.stopper,
Linearizable: s.cfg.Linearizable,
Metrics: txnMetrics,
TestingKnobs: clientTestingKnobs,
}
s.tcsFactory = kv.NewTxnCoordSenderFactory(txnCoordSenderFactoryCfg, s.distSender)
dbCtx := client.DefaultDBContext()
dbCtx.NodeID = &s.nodeIDContainer
dbCtx.Stopper = s.stopper
s.db = client.NewDBWithContext(s.cfg.AmbientCtx, s.tcsFactory, s.clock, dbCtx)
nlActive, nlRenewal := s.cfg.NodeLivenessDurations()
s.nodeLiveness = storage.NewNodeLiveness(
s.cfg.AmbientCtx,
s.clock,
s.db,
s.engines,
s.gossip,
nlActive,
nlRenewal,
s.st,
s.cfg.HistogramWindowInterval(),
)
s.registry.AddMetricStruct(s.nodeLiveness.Metrics())
s.storePool = storage.NewStorePool(
s.cfg.AmbientCtx,
s.st,
s.gossip,
s.clock,
s.nodeLiveness.GetNodeCount,
storage.MakeStorePoolNodeLivenessFunc(s.nodeLiveness),
/* deterministic */ false,
)
s.raftTransport = storage.NewRaftTransport(
s.cfg.AmbientCtx, st, s.nodeDialer, s.grpc.Server, s.stopper,
)
// Set up internal memory metrics for use by internal SQL executors.
s.internalMemMetrics = sql.MakeMemMetrics("internal", cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(s.internalMemMetrics)
// We do not set memory monitors or a noteworthy limit because the children of
// this monitor will be setting their own noteworthy limits.
rootSQLMemoryMonitor := mon.MakeMonitor(
"root",
mon.MemoryResource,
nil, /* curCount */
nil, /* maxHist */
-1, /* increment: use default increment */
math.MaxInt64, /* noteworthy */
st,
)
rootSQLMemoryMonitor.Start(context.Background(), nil, mon.MakeStandaloneBudget(s.cfg.SQLMemoryPoolSize))
// bulkMemoryMonitor is the parent to all child SQL monitors tracking bulk
// operations (IMPORT, index backfill). It is itself a child of the
// ParentMemoryMonitor.
bulkMemoryMonitor := mon.MakeMonitorInheritWithLimit("bulk-mon", 0 /* limit */, &rootSQLMemoryMonitor)
bulkMetrics := bulk.MakeBulkMetrics(cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(bulkMetrics)
bulkMemoryMonitor.SetMetrics(bulkMetrics.CurBytesCount, bulkMetrics.MaxBytesHist)
bulkMemoryMonitor.Start(context.Background(), &rootSQLMemoryMonitor, mon.BoundAccount{})
// Set up the DistSQL temp engine.
useStoreSpec := cfg.Stores.Specs[s.cfg.TempStorageConfig.SpecIdx]
tempEngine, err := engine.NewTempEngine(s.cfg.StorageEngine, s.cfg.TempStorageConfig, useStoreSpec)
if err != nil {
return nil, errors.Wrap(err, "could not create temp storage")
}
s.stopper.AddCloser(tempEngine)
// Remove temporary directory linked to tempEngine after closing
// tempEngine.
s.stopper.AddCloser(stop.CloserFn(func() {
firstStore := cfg.Stores.Specs[s.cfg.TempStorageConfig.SpecIdx]
var err error
if firstStore.InMemory {
// First store is in-memory so we remove the temp
// directory directly since there is no record file.
err = os.RemoveAll(s.cfg.TempStorageConfig.Path)
} else {
// If record file exists, we invoke CleanupTempDirs to
// also remove the record after the temp directory is
// removed.
recordPath := filepath.Join(firstStore.Path, TempDirsRecordFilename)
err = engine.CleanupTempDirs(recordPath)
}
if err != nil {
log.Errorf(context.TODO(), "could not remove temporary store directory: %v", err.Error())
}
}))
// Set up admin memory metrics for use by admin SQL executors.
s.adminMemMetrics = sql.MakeMemMetrics("admin", cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(s.adminMemMetrics)
s.tsDB = ts.NewDB(s.db, s.cfg.Settings)
s.registry.AddMetricStruct(s.tsDB.Metrics())
nodeCountFn := func() int64 {
return s.nodeLiveness.Metrics().LiveNodes.Value()
}
s.tsServer = ts.MakeServer(s.cfg.AmbientCtx, s.tsDB, nodeCountFn, s.cfg.TimeSeriesServerConfig, s.stopper)
// The InternalExecutor will be further initialized later, as we create more
// of the server's components. There's a circular dependency - many things
// need an InternalExecutor, but the InternalExecutor needs an ExecutorConfig,
// which in turn needs many things. That's why everybody that needs an
// InternalExecutor uses this one instance.
internalExecutor := &sql.InternalExecutor{}
// This function defines how ExternalStorage objects are created.
externalStorage := func(ctx context.Context, dest roachpb.ExternalStorage) (cloud.ExternalStorage, error) {
return cloud.MakeExternalStorage(
ctx, dest, st,
blobs.NewBlobClientFactory(
s.nodeIDContainer.Get(),
s.nodeDialer,
st.ExternalIODir,
),
)
}
externalStorageFromURI := func(ctx context.Context, uri string) (cloud.ExternalStorage, error) {
return cloud.ExternalStorageFromURI(
ctx, uri, st,
blobs.NewBlobClientFactory(
s.nodeIDContainer.Get(),
s.nodeDialer,
st.ExternalIODir,
),
)
}
// Similarly for execCfg.
var execCfg sql.ExecutorConfig
// TODO(bdarnell): make StoreConfig configurable.
storeCfg := storage.StoreConfig{
DefaultZoneConfig: &s.cfg.DefaultZoneConfig,
Settings: st,
AmbientCtx: s.cfg.AmbientCtx,
RaftConfig: s.cfg.RaftConfig,
Clock: s.clock,
DB: s.db,
Gossip: s.gossip,
NodeLiveness: s.nodeLiveness,
Transport: s.raftTransport,
NodeDialer: s.nodeDialer,
RPCContext: s.rpcContext,
ScanInterval: s.cfg.ScanInterval,
ScanMinIdleTime: s.cfg.ScanMinIdleTime,
ScanMaxIdleTime: s.cfg.ScanMaxIdleTime,
TimestampCachePageSize: s.cfg.TimestampCachePageSize,
HistogramWindowInterval: s.cfg.HistogramWindowInterval(),
StorePool: s.storePool,
SQLExecutor: internalExecutor,
LogRangeEvents: s.cfg.EventLogEnabled,
RangeDescriptorCache: s.distSender.RangeDescriptorCache(),
TimeSeriesDataStore: s.tsDB,
// Initialize the closed timestamp subsystem. Note that it won't
// be ready until it is .Start()ed, but the grpc server can be
// registered early.
ClosedTimestamp: container.NewContainer(container.Config{
Settings: st,
Stopper: s.stopper,
Clock: s.nodeLiveness.AsLiveClock(),
// NB: s.node is not defined at this point, but it will be
// before this is ever called.
Refresh: func(rangeIDs ...roachpb.RangeID) {
for _, rangeID := range rangeIDs {
repl, err := s.node.stores.GetReplicaForRangeID(rangeID)
if err != nil || repl == nil {
continue
}
repl.EmitMLAI()
}
},
Dialer: s.nodeDialer.CTDialer(),
}),
EnableEpochRangeLeases: true,
ExternalStorage: externalStorage,
ExternalStorageFromURI: externalStorageFromURI,
}
if storeTestingKnobs := s.cfg.TestingKnobs.Store; storeTestingKnobs != nil {
storeCfg.TestingKnobs = *storeTestingKnobs.(*storage.StoreTestingKnobs)
}
s.recorder = status.NewMetricsRecorder(s.clock, s.nodeLiveness, s.rpcContext, s.gossip, st)
s.registry.AddMetricStruct(s.rpcContext.RemoteClocks.Metrics())
s.runtime = status.NewRuntimeStatSampler(ctx, s.clock)
s.registry.AddMetricStruct(s.runtime)
s.node = NewNode(
storeCfg, s.recorder, s.registry, s.stopper,
txnMetrics, nil /* execCfg */, &s.rpcContext.ClusterID)
// WIP is this too late in the boot process?
if err := everynode.RunHooksOnThisNode(ctx, s.node, connectRes.EveryNodeHooks...); err != nil {
return nil, err
}
roachpb.RegisterInternalServer(s.grpc.Server, s.node)
storage.RegisterPerReplicaServer(s.grpc.Server, s.node.perReplicaServer)
s.node.storeCfg.ClosedTimestamp.RegisterClosedTimestampServer(s.grpc.Server)
s.replicationReporter = reports.NewReporter(
s.db, s.node.stores, s.storePool,
s.ClusterSettings(), s.nodeLiveness, internalExecutor)
s.sessionRegistry = sql.NewSessionRegistry()
s.jobRegistry = jobs.MakeRegistry(
s.cfg.AmbientCtx,
s.stopper,
s.clock,
s.db,
internalExecutor,
&s.nodeIDContainer,
st,
s.cfg.HistogramWindowInterval(),
func(opName, user string) (interface{}, func()) {
// This is a hack to get around a Go package dependency cycle. See comment
// in sql/jobs/registry.go on planHookMaker.
return sql.NewInternalPlanner(opName, nil, user, &sql.MemoryMetrics{}, &execCfg)
},
)
s.registry.AddMetricStruct(s.jobRegistry.MetricsStruct())
distSQLMetrics := execinfra.MakeDistSQLMetrics(cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(distSQLMetrics)
// Set up Lease Manager
var lmKnobs sql.LeaseManagerTestingKnobs
if leaseManagerTestingKnobs := cfg.TestingKnobs.SQLLeaseManager; leaseManagerTestingKnobs != nil {
lmKnobs = *leaseManagerTestingKnobs.(*sql.LeaseManagerTestingKnobs)
}
s.leaseMgr = sql.NewLeaseManager(
s.cfg.AmbientCtx,
&s.nodeIDContainer,
s.db,
s.clock,
nil, /* internalExecutor - will be set later because of circular dependencies */
st,
lmKnobs,
s.stopper,
s.cfg.LeaseManagerConfig,
)
// Set up the DistSQL server.
distSQLCfg := execinfra.ServerConfig{
AmbientContext: s.cfg.AmbientCtx,
Settings: st,
RuntimeStats: s.runtime,
DB: s.db,
Executor: internalExecutor,
FlowDB: client.NewDB(s.cfg.AmbientCtx, s.tcsFactory, s.clock),
RPCContext: s.rpcContext,
Stopper: s.stopper,
NodeID: &s.nodeIDContainer,
ClusterID: &s.rpcContext.ClusterID,
ClusterName: s.cfg.ClusterName,
TempStorage: tempEngine,
DiskMonitor: s.cfg.TempStorageConfig.Mon,
ParentMemoryMonitor: &rootSQLMemoryMonitor,
BulkAdder: func(
ctx context.Context, db *client.DB, ts hlc.Timestamp, opts storagebase.BulkAdderOptions,
) (storagebase.BulkAdder, error) {
// Attach a child memory monitor to enable control over the BulkAdder's
// memory usage.
bulkMon := execinfra.NewMonitor(ctx, &bulkMemoryMonitor, fmt.Sprintf("bulk-adder-monitor"))
return bulk.MakeBulkAdder(ctx, db, s.distSender.RangeDescriptorCache(), s.st, ts, opts, bulkMon)
},
Metrics: &distSQLMetrics,
JobRegistry: s.jobRegistry,
Gossip: s.gossip,
NodeDialer: s.nodeDialer,
LeaseManager: s.leaseMgr,
ExternalStorage: externalStorage,
ExternalStorageFromURI: externalStorageFromURI,
}
if distSQLTestingKnobs := s.cfg.TestingKnobs.DistSQL; distSQLTestingKnobs != nil {
distSQLCfg.TestingKnobs = *distSQLTestingKnobs.(*execinfra.TestingKnobs)
}
s.distSQLServer = distsql.NewServer(ctx, distSQLCfg)
execinfrapb.RegisterDistSQLServer(s.grpc.Server, s.distSQLServer)
s.admin = newAdminServer(s)
s.status = newStatusServer(
s.cfg.AmbientCtx,
st,
s.cfg.Config,
s.admin,
s.db,
s.gossip,
s.recorder,
s.nodeLiveness,
s.storePool,
s.rpcContext,
s.node.stores,
s.stopper,
s.sessionRegistry,
)
s.authentication = newAuthenticationServer(s)
for _, gw := range []grpcGatewayServer{s.admin, s.status, s.authentication, &s.tsServer} {
gw.RegisterService(s.grpc.Server)
}
// TODO(andrei): We're creating an initServer even through the inspection of
// our engines in Server.Start() might reveal that we're already bootstrapped
// and so we don't need to accept a Bootstrap RPC. The creation of this server
// early means that a Bootstrap RPC might erroneously succeed. We should
// figure out early if our engines are bootstrapped and, if they are, create a
// dummy implementation of the InitServer that rejects all RPCs.
s.initServer = newInitServer(s.gossip.Connected, s.stopper.ShouldStop())
serverpb.RegisterInitServer(s.grpc.Server, s.initServer)
nodeInfo := sql.NodeInfo{
AdminURL: cfg.AdminURL,
PGURL: cfg.PGURL,
ClusterID: s.ClusterID,
NodeID: &s.nodeIDContainer,
}
virtualSchemas, err := sql.NewVirtualSchemaHolder(ctx, st)
if err != nil {
log.Fatal(ctx, err)
}
// Set up Executor
var sqlExecutorTestingKnobs sql.ExecutorTestingKnobs
if k := s.cfg.TestingKnobs.SQLExecutor; k != nil {
sqlExecutorTestingKnobs = *k.(*sql.ExecutorTestingKnobs)
} else {
sqlExecutorTestingKnobs = sql.ExecutorTestingKnobs{}
}
loggerCtx, _ := s.stopper.WithCancelOnStop(ctx)
execCfg = sql.ExecutorConfig{
Settings: s.st,
NodeInfo: nodeInfo,
DefaultZoneConfig: &s.cfg.DefaultZoneConfig,
Locality: s.cfg.Locality,
AmbientCtx: s.cfg.AmbientCtx,
DB: s.db,
Gossip: s.gossip,
MetricsRecorder: s.recorder,
DistSender: s.distSender,
RPCContext: s.rpcContext,
LeaseManager: s.leaseMgr,
Clock: s.clock,
DistSQLSrv: s.distSQLServer,
StatusServer: s.status,
SessionRegistry: s.sessionRegistry,
JobRegistry: s.jobRegistry,
VirtualSchemas: virtualSchemas,
HistogramWindowInterval: s.cfg.HistogramWindowInterval(),
RangeDescriptorCache: s.distSender.RangeDescriptorCache(),
LeaseHolderCache: s.distSender.LeaseHolderCache(),
RoleMemberCache: &sql.MembershipCache{},
TestingKnobs: sqlExecutorTestingKnobs,
DistSQLPlanner: sql.NewDistSQLPlanner(
ctx,
execinfra.Version,
s.st,
// The node descriptor will be set later, once it is initialized.
roachpb.NodeDescriptor{},
s.rpcContext,
s.distSQLServer,
s.distSender,
s.gossip,
s.stopper,
s.nodeLiveness,
s.nodeDialer,
),
TableStatsCache: stats.NewTableStatisticsCache(
s.cfg.SQLTableStatCacheSize,
s.gossip,
s.db,
internalExecutor,
),
ExecLogger: log.NewSecondaryLogger(
loggerCtx, nil /* dirName */, "sql-exec",
true /* enableGc */, false /*forceSyncWrites*/, true, /* enableMsgCount */
),
AuditLogger: log.NewSecondaryLogger(
loggerCtx, s.cfg.SQLAuditLogDirName, "sql-audit",
true /*enableGc*/, true /*forceSyncWrites*/, true, /* enableMsgCount */
),
QueryCache: querycache.New(s.cfg.SQLQueryCacheSize),
}
if sqlSchemaChangerTestingKnobs := s.cfg.TestingKnobs.SQLSchemaChanger; sqlSchemaChangerTestingKnobs != nil {
execCfg.SchemaChangerTestingKnobs = sqlSchemaChangerTestingKnobs.(*sql.SchemaChangerTestingKnobs)
} else {
execCfg.SchemaChangerTestingKnobs = new(sql.SchemaChangerTestingKnobs)
}
if distSQLRunTestingKnobs := s.cfg.TestingKnobs.DistSQL; distSQLRunTestingKnobs != nil {
execCfg.DistSQLRunTestingKnobs = distSQLRunTestingKnobs.(*execinfra.TestingKnobs)
} else {
execCfg.DistSQLRunTestingKnobs = new(execinfra.TestingKnobs)
}
if sqlEvalContext := s.cfg.TestingKnobs.SQLEvalContext; sqlEvalContext != nil {
execCfg.EvalContextTestingKnobs = *sqlEvalContext.(*tree.EvalContextTestingKnobs)
}
if pgwireKnobs := s.cfg.TestingKnobs.PGWireTestingKnobs; pgwireKnobs != nil {
execCfg.PGWireTestingKnobs = pgwireKnobs.(*sql.PGWireTestingKnobs)
}
s.statsRefresher = stats.MakeRefresher(
s.st,
internalExecutor,
execCfg.TableStatsCache,
stats.DefaultAsOfTime,
)
execCfg.StatsRefresher = s.statsRefresher
// Set up internal memory metrics for use by internal SQL executors.
s.sqlMemMetrics = sql.MakeMemMetrics("sql", cfg.HistogramWindowInterval())
s.registry.AddMetricStruct(s.sqlMemMetrics)
s.pgServer = pgwire.MakeServer(
s.cfg.AmbientCtx,
s.cfg.Config,
s.ClusterSettings(),
s.sqlMemMetrics,
&rootSQLMemoryMonitor,
s.cfg.HistogramWindowInterval(),
&execCfg,
)
// Now that we have a pgwire.Server (which has a sql.Server), we can close a
// circular dependency between the rowexec.Server and sql.Server and set
// SessionBoundInternalExecutorFactory.
s.distSQLServer.ServerConfig.SessionBoundInternalExecutorFactory =
func(
ctx context.Context, sessionData *sessiondata.SessionData,
) sqlutil.InternalExecutor {
ie := sql.NewSessionBoundInternalExecutor(
ctx,
sessionData,
s.pgServer.SQLServer,
s.sqlMemMetrics,
s.st,
)
return ie
}
for _, m := range s.pgServer.Metrics() {
s.registry.AddMetricStruct(m)
}
*internalExecutor = sql.MakeInternalExecutor(
ctx, s.pgServer.SQLServer, s.internalMemMetrics, s.ClusterSettings(),
)
s.internalExecutor = internalExecutor
execCfg.InternalExecutor = internalExecutor
s.execCfg = &execCfg
s.leaseMgr.SetInternalExecutor(execCfg.InternalExecutor)
s.leaseMgr.RefreshLeases(s.stopper, s.db, s.gossip)
s.leaseMgr.PeriodicallyRefreshSomeLeases()
s.node.InitLogger(&execCfg)
s.cfg.DefaultZoneConfig = cfg.DefaultZoneConfig
s.debug = debug.NewServer(s.ClusterSettings(), s.pgServer.HBADebugFn())
return s, nil
}
// ClusterSettings returns the cluster settings.
func (s *Server) ClusterSettings() *cluster.Settings {
return s.st
}
// AnnotateCtx is a convenience wrapper; see AmbientContext.
func (s *Server) AnnotateCtx(ctx context.Context) context.Context {
return s.cfg.AmbientCtx.AnnotateCtx(ctx)
}
// AnnotateCtxWithSpan is a convenience wrapper; see AmbientContext.
func (s *Server) AnnotateCtxWithSpan(
ctx context.Context, opName string,
) (context.Context, opentracing.Span) {
return s.cfg.AmbientCtx.AnnotateCtxWithSpan(ctx, opName)
}
// ClusterID returns the ID of the cluster this server is a part of.
func (s *Server) ClusterID() uuid.UUID {
return s.rpcContext.ClusterID.Get()
}
// NodeID returns the ID of this node within its cluster.
func (s *Server) NodeID() roachpb.NodeID {
return s.node.Descriptor.NodeID
}
// InitialBoot returns whether this is the first time the node has booted.
// Only intended to help print debugging info during server startup.
func (s *Server) InitialBoot() bool {
return s.node.initialBoot
}
// grpcGatewayServer represents a grpc service with HTTP endpoints through GRPC
// gateway.
type grpcGatewayServer interface {
RegisterService(g *grpc.Server)
RegisterGateway(
ctx context.Context,
mux *gwruntime.ServeMux,
conn *grpc.ClientConn,
) error
}
// ListenError is returned from Start when we fail to start listening on either
// the main Cockroach port or the HTTP port, so that the CLI can instruct the
// user on what might have gone wrong.
type ListenError struct {
error
Addr string
}
// inspectEngines goes through engines and checks which ones are bootstrapped
// and which ones are empty.
// It also calls SynthesizeClusterVersionFromEngines to get the cluster version,
// or to set it if no engines have a version in them already.
func inspectEngines(
ctx context.Context,
engines []engine.Engine,
minVersion, serverVersion roachpb.Version,
clusterIDContainer *base.ClusterIDContainer,
) (
bootstrappedEngines []engine.Engine,
emptyEngines []engine.Engine,
_ cluster.ClusterVersion,
_ error,
) {
for _, engine := range engines {
storeIdent, err := storage.ReadStoreIdent(ctx, engine)
if _, notBootstrapped := err.(*storage.NotBootstrappedError); notBootstrapped {
emptyEngines = append(emptyEngines, engine)
continue
} else if err != nil {
return nil, nil, cluster.ClusterVersion{}, err
}
clusterID := clusterIDContainer.Get()
if storeIdent.ClusterID != uuid.Nil {
if clusterID == uuid.Nil {
clusterIDContainer.Set(ctx, storeIdent.ClusterID)
} else if storeIdent.ClusterID != clusterID {
return nil, nil, cluster.ClusterVersion{},
errors.Errorf("conflicting store cluster IDs: %s, %s", storeIdent.ClusterID, clusterID)
}
}
bootstrappedEngines = append(bootstrappedEngines, engine)
}
cv, err := storage.SynthesizeClusterVersionFromEngines(ctx, bootstrappedEngines, minVersion, serverVersion)
if err != nil {
return nil, nil, cluster.ClusterVersion{}, err
}
return bootstrappedEngines, emptyEngines, cv, nil
}
// listenerInfo is a helper used to write files containing various listener
// information to the store directories. In contrast to the "listening url
// file", these are written once the listeners are available, before the server
// is necessarily ready to serve.
type listenerInfo struct {
listenRPC string // the (RPC) listen address, rewritten after name resolution and port allocation
advertiseRPC string // contains the original addr part of --listen/--advertise, with actual port number after port allocation if original was 0
listenHTTP string // the HTTP endpoint
listenSQL string // the SQL endpoint, rewritten after name resolution and port allocation
advertiseSQL string // contains the original addr part of --sql-addr, with actual port number after port allocation if original was 0
}
// Iter returns a mapping of file names to desired contents.
func (li listenerInfo) Iter() map[string]string {
return map[string]string{
"cockroach.advertise-addr": li.advertiseRPC,
"cockroach.http-addr": li.listenHTTP,
"cockroach.listen-addr": li.listenRPC,
"cockroach.sql-addr": li.listenSQL,
"cockroach.advertise-sql-addr": li.advertiseSQL,
}
}
type singleListener struct {
conn net.Conn
}
func (s *singleListener) Accept() (net.Conn, error) {
if c := s.conn; c != nil {
s.conn = nil
return c, nil
}
return nil, io.EOF
}
func (s *singleListener) Close() error {
return nil
}
func (s *singleListener) Addr() net.Addr {
return s.conn.LocalAddr()
}
// startMonitoringForwardClockJumps starts a background task to monitor forward
// clock jumps based on a cluster setting
func (s *Server) startMonitoringForwardClockJumps(ctx context.Context) {
forwardJumpCheckEnabled := make(chan bool, 1)
s.stopper.AddCloser(stop.CloserFn(func() { close(forwardJumpCheckEnabled) }))
forwardClockJumpCheckEnabled.SetOnChange(&s.st.SV, func() {
forwardJumpCheckEnabled <- forwardClockJumpCheckEnabled.Get(&s.st.SV)
})
if err := s.clock.StartMonitoringForwardClockJumps(
forwardJumpCheckEnabled,
time.NewTicker,
nil, /* tick callback */
); err != nil {
log.Fatal(ctx, err)
}
log.Info(ctx, "monitoring forward clock jumps based on server.clock.forward_jump_check_enabled")
}
// ensureClockMonotonicity sleeps till the wall time reaches
// prevHLCUpperBound. prevHLCUpperBound > 0 implies we need to guarantee HLC
// monotonicity across server restarts. prevHLCUpperBound is the last