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store.go
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// Copyright 2014 The Cockroach Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
// implied. See the License for the specific language governing
// permissions and limitations under the License.
//
// Author: Spencer Kimball (spencer.kimball@gmail.com)
package storage
import (
"bytes"
"fmt"
"io"
"math"
"runtime"
"sync"
"sync/atomic"
"time"
"github.com/coreos/etcd/raft"
"github.com/coreos/etcd/raft/raftpb"
"github.com/google/btree"
"github.com/opentracing/opentracing-go"
"github.com/pkg/errors"
"golang.org/x/net/context"
"golang.org/x/time/rate"
"github.com/cockroachdb/cockroach/pkg/base"
"github.com/cockroachdb/cockroach/pkg/config"
"github.com/cockroachdb/cockroach/pkg/gossip"
"github.com/cockroachdb/cockroach/pkg/internal/client"
"github.com/cockroachdb/cockroach/pkg/keys"
"github.com/cockroachdb/cockroach/pkg/roachpb"
"github.com/cockroachdb/cockroach/pkg/rpc"
"github.com/cockroachdb/cockroach/pkg/settings"
"github.com/cockroachdb/cockroach/pkg/sql/sqlutil"
"github.com/cockroachdb/cockroach/pkg/storage/engine"
"github.com/cockroachdb/cockroach/pkg/storage/engine/enginepb"
"github.com/cockroachdb/cockroach/pkg/storage/storagebase"
"github.com/cockroachdb/cockroach/pkg/util/bufalloc"
"github.com/cockroachdb/cockroach/pkg/util/envutil"
"github.com/cockroachdb/cockroach/pkg/util/hlc"
"github.com/cockroachdb/cockroach/pkg/util/humanizeutil"
"github.com/cockroachdb/cockroach/pkg/util/log"
"github.com/cockroachdb/cockroach/pkg/util/metric"
"github.com/cockroachdb/cockroach/pkg/util/retry"
"github.com/cockroachdb/cockroach/pkg/util/shuffle"
"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"
)
const (
// rangeIDAllocCount is the number of Range IDs to allocate per allocation.
rangeIDAllocCount = 10
defaultHeartbeatIntervalTicks = 5
// ttlStoreGossip is time-to-live for store-related info.
ttlStoreGossip = 2 * time.Minute
// preemptiveSnapshotRaftGroupID is a bogus ID for which a Raft group is
// temporarily created during the application of a preemptive snapshot.
preemptiveSnapshotRaftGroupID = math.MaxUint64
// defaultRaftEntryCacheSize is the default size in bytes for a
// store's Raft log entry cache.
defaultRaftEntryCacheSize = 1 << 24 // 16M
// rangeLeaseRaftElectionTimeoutMultiplier specifies what multiple the leader
// lease active duration should be of the raft election timeout.
rangeLeaseRaftElectionTimeoutMultiplier = 3
// rangeLeaseRenewalFraction specifies what fraction the range lease renewal
// duration should be of the range lease active time.
rangeLeaseRenewalFraction = 0.8
// livenessRenewalFraction specifies what fraction the node liveness renewal
// duration should be of the node liveness duration.
livenessRenewalFraction = 0.5
// replicaRequestQueueSize specifies the maximum number of requests to queue
// for a replica.
replicaRequestQueueSize = 100
defaultGossipWhenCapacityDeltaExceedsFraction = 0.01
// systemDataGossipInterval is the interval at which range lease
// holders verify that the most recent system data is gossiped.
// This ensures that system data is always eventually gossiped, even
// if a range lease holder experiences a failure causing a missed
// gossip update.
systemDataGossipInterval = 1 * time.Minute
// prohibitRebalancesBehindThreshold is the maximum number of log entries a
// store allows its replicas to be behind before it starts declining incoming
// rebalances. We prohibit rebalances in this situation to avoid adding
// additional work to a store that is either not keeping up or is undergoing
// recovery because it is on a recently restarted node.
prohibitRebalancesBehindThreshold = 1000
// IntersectingSnapshotMsg is part of the error message returned from
// canApplySnapshotLocked and is exposed here so testing can rely on it.
IntersectingSnapshotMsg = "snapshot intersects existing range"
)
var changeTypeInternalToRaft = map[roachpb.ReplicaChangeType]raftpb.ConfChangeType{
roachpb.ADD_REPLICA: raftpb.ConfChangeAddNode,
roachpb.REMOVE_REPLICA: raftpb.ConfChangeRemoveNode,
}
var defaultRaftElectionTimeoutTicks = envutil.EnvOrDefaultInt(
"COCKROACH_RAFT_ELECTION_TIMEOUT_TICKS", 15)
var storeSchedulerConcurrency = envutil.EnvOrDefaultInt(
"COCKROACH_SCHEDULER_CONCURRENCY", 8*runtime.NumCPU())
var enablePreVote = envutil.EnvOrDefaultBool(
"COCKROACH_ENABLE_PREVOTE", false)
// RaftElectionTimeout returns the raft election timeout, as computed
// from the specified tick interval and number of election timeout
// ticks. If raftElectionTimeoutTicks is 0, uses the value of
// defaultRaftElectionTimeoutTicks.
func RaftElectionTimeout(
raftTickInterval time.Duration, raftElectionTimeoutTicks int,
) time.Duration {
if raftTickInterval == 0 {
raftTickInterval = base.DefaultRaftTickInterval
}
if raftElectionTimeoutTicks == 0 {
raftElectionTimeoutTicks = defaultRaftElectionTimeoutTicks
}
return time.Duration(raftElectionTimeoutTicks) * raftTickInterval
}
// RangeLeaseDurations computes durations for range lease expiration
// and renewal based on a default multiple of Raft election timeout.
func RangeLeaseDurations(
raftElectionTimeout time.Duration,
) (rangeLeaseActive time.Duration, rangeLeaseRenewal time.Duration) {
rangeLeaseActive = rangeLeaseRaftElectionTimeoutMultiplier * raftElectionTimeout
rangeLeaseRenewal = time.Duration(float64(rangeLeaseActive) * (1 - rangeLeaseRenewalFraction))
return
}
// NodeLivenessDurations computes durations for node liveness expiration
// and renewal based on a default multiple of Raft election timeout.
func NodeLivenessDurations(
raftElectionTimeout time.Duration,
) (livenessActive time.Duration, livenessRenewal time.Duration) {
livenessActive, _ = RangeLeaseDurations(raftElectionTimeout)
livenessRenewal = time.Duration(float64(livenessActive) * livenessRenewalFraction)
return
}
// TestStoreConfig has some fields initialized with values relevant in tests.
func TestStoreConfig(clock *hlc.Clock) StoreConfig {
if clock == nil {
clock = hlc.NewClock(hlc.UnixNano, time.Nanosecond)
}
sc := StoreConfig{
AmbientCtx: log.AmbientContext{Tracer: tracing.NewTracer()},
Clock: clock,
RaftTickInterval: 100 * time.Millisecond,
CoalescedHeartbeatsInterval: 50 * time.Millisecond,
RaftHeartbeatIntervalTicks: 1,
RaftElectionTimeoutTicks: 3,
ScanInterval: 10 * time.Minute,
ConsistencyCheckInterval: 10 * time.Minute,
ConsistencyCheckPanicOnFailure: true,
MetricsSampleInterval: metric.TestSampleInterval,
HistogramWindowInterval: metric.TestSampleInterval,
EnableEpochRangeLeases: true,
}
sc.SetDefaults()
return sc
}
var (
raftMaxSizePerMsg = envutil.EnvOrDefaultInt("COCKROACH_RAFT_MAX_SIZE_PER_MSG", 16*1024)
raftMaxInflightMsgs = envutil.EnvOrDefaultInt("COCKROACH_RAFT_MAX_INFLIGHT_MSGS", 64)
)
func newRaftConfig(
strg raft.Storage, id uint64, appliedIndex uint64, storeCfg StoreConfig, logger raft.Logger,
) *raft.Config {
return &raft.Config{
ID: id,
Applied: appliedIndex,
ElectionTick: storeCfg.RaftElectionTimeoutTicks,
HeartbeatTick: storeCfg.RaftHeartbeatIntervalTicks,
Storage: strg,
Logger: logger,
// TODO(bdarnell): PreVote and CheckQuorum are two ways of
// achieving the same thing. PreVote is more compatible with
// quiesced ranges, so we want to switch to it once we've worked
// out the bugs.
PreVote: enablePreVote,
CheckQuorum: !enablePreVote,
// MaxSizePerMsg controls how many Raft log entries the leader will send to
// followers in a single MsgApp.
MaxSizePerMsg: uint64(raftMaxSizePerMsg),
// MaxInflightMsgs controls how many "inflight" messages Raft will send to
// a follower without hearing a response. The total number of Raft log
// entries is a combination of this setting and MaxSizePerMsg. The current
// settings provide for up to 1 MB of raft log to be sent without
// acknowledgement. With an average entry size of 1 KB that translates to
// ~1024 commands that might be executed in the handling of a single
// raft.Ready operation.
MaxInflightMsgs: raftMaxInflightMsgs,
}
}
// verifyKeys verifies keys. If checkEndKey is true, then the end key
// is verified to be non-nil and greater than start key. If
// checkEndKey is false, end key is verified to be nil. Additionally,
// verifies that start key is less than KeyMax and end key is less
// than or equal to KeyMax. It also verifies that a key range that
// contains range-local keys is completely range-local.
func verifyKeys(start, end roachpb.Key, checkEndKey bool) error {
if bytes.Compare(start, roachpb.KeyMax) >= 0 {
return errors.Errorf("start key %q must be less than KeyMax", start)
}
if !checkEndKey {
if len(end) != 0 {
return errors.Errorf("end key %q should not be specified for this operation", end)
}
return nil
}
if end == nil {
return errors.Errorf("end key must be specified")
}
if bytes.Compare(roachpb.KeyMax, end) < 0 {
return errors.Errorf("end key %q must be less than or equal to KeyMax", end)
}
{
sAddr, err := keys.Addr(start)
if err != nil {
return err
}
eAddr, err := keys.Addr(end)
if err != nil {
return err
}
if !sAddr.Less(eAddr) {
return errors.Errorf("end key %q must be greater than start %q", end, start)
}
if !bytes.Equal(sAddr, start) {
if bytes.Equal(eAddr, end) {
return errors.Errorf("start key is range-local, but end key is not")
}
} else if bytes.Compare(start, keys.LocalMax) < 0 {
// It's a range op, not local but somehow plows through local data -
// not cool.
return errors.Errorf("start key in [%q,%q) must be greater than LocalMax", start, end)
}
}
return nil
}
// rangeKeyItem is a common interface for roachpb.Key and Range.
type rangeKeyItem interface {
endKey() roachpb.RKey
}
// rangeBTreeKey is a type alias of roachpb.RKey that implements the
// rangeKeyItem interface and the btree.Item interface.
type rangeBTreeKey roachpb.RKey
var _ rangeKeyItem = rangeBTreeKey{}
func (k rangeBTreeKey) endKey() roachpb.RKey {
return (roachpb.RKey)(k)
}
var _ btree.Item = rangeBTreeKey{}
func (k rangeBTreeKey) Less(i btree.Item) bool {
return k.endKey().Less(i.(rangeKeyItem).endKey())
}
// A NotBootstrappedError indicates that an engine has not yet been
// bootstrapped due to a store identifier not being present.
type NotBootstrappedError struct{}
// Error formats error.
func (e *NotBootstrappedError) Error() string {
return "store has not been bootstrapped"
}
// A storeReplicaVisitor calls a visitor function for each of a store's
// initialized Replicas (in unspecified order).
type storeReplicaVisitor struct {
store *Store
repls []*Replica // Replicas to be visited.
visited int // Number of visited ranges, -1 before first call to Visit()
}
// Len implements shuffle.Interface.
func (rs storeReplicaVisitor) Len() int { return len(rs.repls) }
// Swap implements shuffle.Interface.
func (rs storeReplicaVisitor) Swap(i, j int) { rs.repls[i], rs.repls[j] = rs.repls[j], rs.repls[i] }
// newStoreReplicaVisitor constructs a storeReplicaVisitor.
func newStoreReplicaVisitor(store *Store) *storeReplicaVisitor {
return &storeReplicaVisitor{
store: store,
visited: -1,
}
}
// Visit calls the visitor with each Replica until false is returned.
func (rs *storeReplicaVisitor) Visit(visitor func(*Replica) bool) {
// Copy the range IDs to a slice so that we iterate over some (possibly
// stale) consistent view of all Replicas without holding the Store lock.
// In particular, no locks are acquired during the copy process.
rs.store.mu.RLock()
rs.repls = make([]*Replica, 0, len(rs.store.mu.replicas))
for _, repl := range rs.store.mu.replicas {
rs.repls = append(rs.repls, repl)
}
rs.store.mu.RUnlock()
// The Replicas are already in "unspecified order" due to map iteration,
// but we want to make sure it's completely random to prevent issues in
// tests where stores are scanning replicas in lock-step and one store is
// winning the race and getting a first crack at processing the replicas on
// its queues.
//
// TODO(peter): Re-evaluate whether this is necessary after we allow
// rebalancing away from the leaseholder. See TestRebalance_3To5Small.
shuffle.Shuffle(rs)
rs.visited = 0
for _, repl := range rs.repls {
// TODO(tschottdorf): let the visitor figure out if something's been
// destroyed once we return errors from mutexes (#9190). After all, it
// can still happen with this code.
rs.visited++
repl.mu.RLock()
destroyed := repl.mu.destroyed
initialized := repl.isInitializedRLocked()
repl.mu.RUnlock()
if initialized && destroyed == nil && !visitor(repl) {
break
}
}
rs.visited = 0
}
// EstimatedCount returns an estimated count of the underlying store's
// replicas.
//
// TODO(tschottdorf): this method has highly doubtful semantics.
func (rs *storeReplicaVisitor) EstimatedCount() int {
if rs.visited <= 0 {
rs.store.mu.RLock()
defer rs.store.mu.RUnlock()
return len(rs.store.mu.replicas)
}
return len(rs.repls) - rs.visited
}
type raftRequestInfo struct {
req *RaftMessageRequest
respStream RaftMessageResponseStream
}
type raftRequestQueue []raftRequestInfo
// A Store maintains a map of ranges by start key. A Store corresponds
// to one physical device.
type Store struct {
Ident roachpb.StoreIdent
cfg StoreConfig
db *client.DB
engine engine.Engine // The underlying key-value store
allocator Allocator // Makes allocation decisions
rangeIDAlloc *idAllocator // Range ID allocator
gcQueue *gcQueue // Garbage collection queue
splitQueue *splitQueue // Range splitting queue
replicateQueue *replicateQueue // Replication queue
replicaGCQueue *replicaGCQueue // Replica GC queue
raftLogQueue *raftLogQueue // Raft log truncation queue
raftSnapshotQueue *raftSnapshotQueue // Raft repair queue
tsMaintenanceQueue *timeSeriesMaintenanceQueue // Time series maintenance queue
scanner *replicaScanner // Replica scanner
consistencyQueue *consistencyQueue // Replica consistency check queue
metrics *StoreMetrics
intentResolver *intentResolver
raftEntryCache *raftEntryCache
// gossipRangeCountdown and leaseRangeCountdown are countdowns of
// changes to range and leaseholder counts, after which the store
// descriptor will be re-gossiped earlier than the normal periodic
// gossip interval. Updated atomically.
gossipRangeCountdown int32
gossipLeaseCountdown int32
coalescedMu struct {
syncutil.Mutex
heartbeats map[roachpb.StoreIdent][]RaftHeartbeat
heartbeatResponses map[roachpb.StoreIdent][]RaftHeartbeat
}
// 1 if the store was started, 0 if it wasn't. To be accessed using atomic
// ops.
started int32
stopper *stop.Stopper
// The time when the store was Start()ed, in nanos.
startedAt int64
nodeDesc *roachpb.NodeDescriptor
initComplete sync.WaitGroup // Signaled by async init tasks
idleReplicaElectionTime struct {
syncutil.Mutex
at time.Time
}
// Semaphore to limit concurrent snapshot application and replica data
// destruction.
snapshotApplySem chan struct{}
// Are rebalances to this store allowed or prohibited. Rebalances are
// prohibited while a store is catching up replicas (i.e. recovering) after
// being restarted.
rebalancesDisabled int32
// draining holds a bool which indicates whether this store is draining. See
// SetDraining() for a more detailed explanation of behavior changes.
//
// TODO(bdarnell,tschottdorf): Would look better inside of `mu`, which at
// the time of its creation was riddled with deadlock (but that situation
// has likely improved).
draining atomic.Value
// Locking notes: To avoid deadlocks, the following lock order must be
// obeyed: Replica.raftMu < Replica.readOnlyCmdMu < Store.mu < Replica.mu
// < Replica.unreachablesMu < Store.coalescedMu < Store.scheduler.mu.
// (It is not required to acquire every lock in sequence, but when multiple
// locks are held at the same time, it is incorrect to acquire a lock with
// "lesser" value in this sequence after one with "greater" value).
//
// Methods of Store with a "Locked" suffix require that
// Store.mu.Mutex be held. Other locking requirements are indicated
// in comments.
//
// The locking structure here is complex because A) Store is a
// container of Replicas, so it must generally be consulted before
// doing anything with any Replica, B) some Replica operations
// (including splits) modify the Store. Therefore we generally lock
// Store.mu to find a Replica, release it, then call a method on the
// Replica. These short-lived locks of Store.mu and Replica.mu are
// often surrounded by a long-lived lock of Replica.raftMu as
// described below.
//
// There are two major entry points to this stack of locks:
// Store.Send (which handles incoming RPCs) and raft-related message
// processing (including handleRaftReady on the processRaft
// goroutine and HandleRaftRequest on GRPC goroutines). Reads are
// processed solely through Store.Send; writes start out on
// Store.Send until they propose their raft command and then they
// finish on the raft goroutines.
//
// TODO(bdarnell): a Replica could be destroyed immediately after
// Store.Send finds the Replica and releases the lock. We need
// another RWMutex to be held by anything using a Replica to ensure
// that everything is finished before releasing it. #7169
//
// Detailed description of the locks:
//
// * Replica.raftMu: Held while any raft messages are being processed
// (including handleRaftReady and HandleRaftRequest) or while the set of
// Replicas in the Store is being changed (which may happen outside of raft
// via the replica GC queue).
//
// * Replica.readOnlyCmdMu (RWMutex): Held in read mode while any
// read-only command is in progress on the replica; held in write
// mode while executing a commit trigger. This is necessary
// because read-only commands mutate the Replica's timestamp cache
// (while holding Replica.mu in addition to readOnlyCmdMu). The
// RWMutex ensures that no reads are being executed during a split
// (which copies the timestamp cache) while still allowing
// multiple reads in parallel (#3148). TODO(bdarnell): this lock
// only needs to be held during splitTrigger, not all triggers.
//
// * Store.mu: Protects the Store's map of its Replicas. Acquired and
// released briefly at the start of each request; metadata operations like
// splits acquire it again to update the map. Even though these lock
// acquisitions do not make up a single critical section, it is safe thanks
// to Replica.raftMu which prevents any concurrent modifications.
//
// * Replica.mu: Protects the Replica's in-memory state. Acquired
// and released briefly as needed (note that while the lock is
// held "briefly" in that it is not held for an entire request, we
// do sometimes do I/O while holding the lock, as in
// Replica.Entries). This lock should be held when calling any
// methods on the raft group. Raft may call back into the Replica
// via the methods of the raft.Storage interface, which assume the
// lock is held even though they do not follow our convention of
// the "Locked" suffix.
//
// * Store.scheduler.mu: Protects the Raft scheduler internal
// state. Callbacks from the scheduler are performed while not holding this
// mutex in order to observe the above ordering constraints.
//
// Splits (and merges, but they're not finished and so will not be discussed
// here) deserve special consideration: they operate on two ranges. Naively,
// this is fine because the right-hand range is brand new, but an
// uninitialized version may have been created by a raft message before we
// process the split (see commentary on Replica.splitTrigger). We make this
// safe by locking the right-hand range for the duration of the Raft command
// containing the split/merge trigger.
//
// Note that because we acquire and release Store.mu and Replica.mu
// repeatedly rather than holding a lock for an entire request, we are
// actually relying on higher-level locks to ensure that things don't change
// out from under us. In particular, handleRaftReady accesses the replicaID
// more than once, and we rely on Replica.raftMu to ensure that this is not
// modified by a concurrent HandleRaftRequest. (#4476)
mu struct {
syncutil.RWMutex
// Map of replicas by Range ID. This includes `uninitReplicas`.
replicas map[roachpb.RangeID]*Replica
// A btree key containing objects of type *Replica or
// *ReplicaPlaceholder (both of which have an associated key range, on
// the EndKey of which the btree is keyed)
replicasByKey *btree.BTree
uninitReplicas map[roachpb.RangeID]*Replica // Map of uninitialized replicas by Range ID
// replicaPlaceholders is a map to access all placeholders, so they can
// be directly accessed and cleared after stepping all raft groups.
replicaPlaceholders map[roachpb.RangeID]*ReplicaPlaceholder
// replicaQueues is a map of per-Replica incoming request queues. These
// queues might more naturally belong in Replica, but are kept separate to
// avoid reworking the locking in getOrCreateReplica which requires
// Replica.raftMu to be held while a replica is being inserted into
// Store.mu.replicas.
replicaQueues map[roachpb.RangeID]raftRequestQueue
}
tsCacheMu struct {
// Protects all fields in the tsCacheMu struct.
syncutil.Mutex
// Most recent timestamps for keys / key ranges.
cache *timestampCache
}
scheduler *raftScheduler
counts struct {
// Number of placeholders removed due to error.
removedPlaceholders int32
// Number of placeholders successfully filled by a snapshot.
filledPlaceholders int32
// Number of placeholders removed due to a snapshot that was dropped by
// raft.
droppedPlaceholders int32
}
}
var _ client.Sender = &Store{}
// A StoreConfig encompasses the auxiliary objects and configuration
// required to create a store.
// All fields holding a pointer or an interface are required to create
// a store; the rest will have sane defaults set if omitted.
type StoreConfig struct {
AmbientCtx log.AmbientContext
Clock *hlc.Clock
DB *client.DB
Gossip *gossip.Gossip
NodeLiveness *NodeLiveness
StorePool *StorePool
Transport *RaftTransport
RPCContext *rpc.Context
// SQLExecutor is used by the store to execute SQL statements in a way that
// is more direct than using a sql.Executor.
SQLExecutor sqlutil.InternalExecutor
// TimeSeriesDataStore is an interface used by the store's time series
// maintenance queue to dispatch individual maintenance tasks.
TimeSeriesDataStore TimeSeriesDataStore
// RangeRetryOptions are the retry options when retryable errors are
// encountered sending commands to ranges.
RangeRetryOptions retry.Options
// DontRetryPushTxnFailures will propagate a push txn failure immediately
// instead of utilizing the push txn queue to wait for the transaction to
// finish or be pushed by a higher priority contender.
DontRetryPushTxnFailures bool
// RaftTickInterval is the resolution of the Raft timer; other raft timeouts
// are defined in terms of multiples of this value.
RaftTickInterval time.Duration
// CoalescedHeartbeatsInterval is the interval for which heartbeat messages
// are queued and then sent as a single coalesced heartbeat; it is a
// fraction of the RaftTickInterval so that heartbeats don't get delayed by
// an entire tick. Delaying coalescing heartbeat responses has a bad
// interaction with quiescence because the coalesced (delayed) heartbeat
// response can unquiesce the leader. Consider:
//
// T+0: leader queues MsgHeartbeat
// T+1: leader sends MsgHeartbeat
// follower receives MsgHeartbeat
// follower queues MsgHeartbeatResp
// T+2: leader queues quiesce message
// follower sends MsgHeartbeatResp
// leader receives MsgHeartbeatResp
// T+3: leader sends quiesce message
//
// Thus we want to make sure that heartbeats are responded to faster than
// the quiesce cadence.
CoalescedHeartbeatsInterval time.Duration
// RaftHeartbeatIntervalTicks is the number of ticks that pass between heartbeats.
RaftHeartbeatIntervalTicks int
// RaftElectionTimeoutTicks is the number of ticks that must pass before a follower
// considers a leader to have failed and calls a new election. Should be significantly
// higher than RaftHeartbeatIntervalTicks. The raft paper recommends a value of 150ms
// for local networks.
RaftElectionTimeoutTicks int
// ScanInterval is the default value for the scan interval
ScanInterval time.Duration
// ScanMaxIdleTime is the maximum time the scanner will be idle between ranges.
// If enabled (> 0), the scanner may complete in less than ScanInterval for small
// stores.
ScanMaxIdleTime time.Duration
// ConsistencyCheckInterval is the default time period in between consecutive
// consistency checks on a range.
ConsistencyCheckInterval time.Duration
// ConsistencyCheckPanicOnFailure causes the node to panic when it detects a
// replication consistency check failure.
ConsistencyCheckPanicOnFailure bool
// If LogRangeEvents is true, major changes to ranges will be logged into
// the range event log.
LogRangeEvents bool
// RaftEntryCacheSize is the size in bytes of the Raft log entry cache
// shared by all Raft groups managed by the store.
RaftEntryCacheSize uint64
TestingKnobs StoreTestingKnobs
// concurrentSnapshotApplyLimit is the maximum number of snapshots that are
// permitted to be applied concurrently.
concurrentSnapshotApplyLimit int
// RangeLeaseActiveDuration is the duration of the active period of leader
// leases requested.
RangeLeaseActiveDuration time.Duration
// RangeLeaseRenewalDuration specifies a time interval at the end of the
// active lease interval (i.e. bounded to the right by the start of the stasis
// period) during which operations will trigger an asynchronous renewal of the
// lease.
RangeLeaseRenewalDuration time.Duration
// MetricsSampleInterval is (server.Context).MetricsSampleInterval
MetricsSampleInterval time.Duration
// HistogramWindowInterval is (server.Context).HistogramWindowInterval
HistogramWindowInterval time.Duration
// EnableEpochRangeLeases controls whether epoch-based range leases are used.
EnableEpochRangeLeases bool
// GossipWhenCapacityDeltaExceedsFraction specifies the fraction from the last
// gossiped store capacity values which need be exceeded before the store will
// gossip immediately without waiting for the periodic gossip interval.
GossipWhenCapacityDeltaExceedsFraction float64
}
// StoreTestingKnobs is a part of the context used to control parts of
// the system. The Testing*Filter functions are called at various
// points in the request pipeline if they are non-nil. These can be
// used either for synchronization (e.g. to write to a channel when a
// particular point is reached) or to change the behavior by returning
// an error (which aborts all further processing for the command).
type StoreTestingKnobs struct {
// TestingProposalFilter is called before proposing each command.
// TODO(bdarnell): Implement this when a test needs it.
//TestingProposalFilter storagebase.ReplicaCommandFilter
// TestingEvalFilter is called before evaluating each command. The
// number of times this callback is run depends on the propEvalKV
// setting, and it is therefore deprecated in favor of either
// TestingProposalFilter (which runs only on the lease holder) or
// TestingApplyFilter (which runs on each replica). If your filter is
// not idempotent, consider wrapping it in a
// ReplayProtectionFilterWrapper.
// TODO(bdarnell,tschottdorf): Migrate existing tests which use this
// to one of the other filters. See #10493
TestingEvalFilter storagebase.ReplicaCommandFilter
// TestingApplyFilter is called before applying the results of a
// command on each replica. If it returns an error, the command will
// not be applied. If it returns an error on some replicas but not
// others, the behavior is poorly defined unless that error is a
// ReplicaCorruptionError.
TestingApplyFilter storagebase.ReplicaApplyFilter
// TestingPostApplyFilter is called after a command is applied to
// rocksdb but before in-memory side effects have been processed.
TestingPostApplyFilter storagebase.ReplicaApplyFilter
// TestingResponseFilter is called after the replica processes a
// command in order for unittests to modify the batch response,
// error returned to the client, or to simulate network failures.
TestingResponseFilter storagebase.ReplicaResponseFilter
// If non-nil, BadChecksumPanic is called by CheckConsistency() instead of
// panicking on a checksum mismatch.
BadChecksumPanic func(roachpb.StoreIdent)
// If non-nil, BadChecksumReportDiff is called by CheckConsistency() on a
// checksum mismatch to report the diff between snapshots.
BadChecksumReportDiff func(roachpb.StoreIdent, []ReplicaSnapshotDiff)
// Disables the use of one phase commits.
DisableOnePhaseCommits bool
// A hack to manipulate the clock before sending a batch request to a replica.
// TODO(kaneda): This hook is not encouraged to use. Get rid of it once
// we make TestServer take a ManualClock.
ClockBeforeSend func(*hlc.Clock, roachpb.BatchRequest)
// OnCampaign is called if the replica campaigns for Raft leadership
// when initializing the Raft group. Note that this method is invoked
// with both Replica.raftMu and Replica.mu locked.
OnCampaign func(*Replica)
// MaxOffset, if set, overrides the server clock's MaxOffset at server
// creation time.
// See also DisableMaxOffsetCheck.
MaxOffset time.Duration
// DisableMaxOffsetCheck disables the rejection (in Store.Send) of requests
// with the timestamp too much in the future. Normally, this rejection is a
// good sanity check, but certain tests unfortunately insert a "message from
// the future" into the system to advance the clock of a TestServer. We
// should get rid of such practices once we make TestServer take a
// ManualClock.
DisableMaxOffsetCheck bool
// DontPreventUseOfOldLeaseOnStart disables the initialization of
// replica.mu.minLeaseProposedTS on replica.Init(). This has the effect of
// allowing the replica to use the lease that it had in a previous life (in
// case the tests persisted the engine used in said previous life).
DontPreventUseOfOldLeaseOnStart bool
// LeaseRequestEvent, if set, is called when replica.requestLeaseLocked() is
// called to acquire a new lease. This can be used to assert that a request
// triggers a lease acquisition.
LeaseRequestEvent func(ts hlc.Timestamp)
// LeaseTransferBlockedOnExtensionEvent, if set, is called when
// replica.TransferLease() encounters an in-progress lease extension.
// nextLeader is the replica that we're trying to transfer the lease to.
LeaseTransferBlockedOnExtensionEvent func(nextLeader roachpb.ReplicaDescriptor)
// DisableReplicaGCQueue disables the replica GC queue.
DisableReplicaGCQueue bool
// DisableReplicateQueue disables the replication queue.
DisableReplicateQueue bool
// DisableSplitQueue disables the split queue.
DisableSplitQueue bool
// DisableTimeSeriesMaintenanceQueue disables the time series maintenance
// queue.
DisableTimeSeriesMaintenanceQueue bool
// DisableScanner disables the replica scanner.
DisableScanner bool
// DisablePeriodicGossips disables periodic gossiping.
DisablePeriodicGossips bool
// DisableRefreshReasonTicks disables refreshing pending commands when a new
// leader is discovered.
DisableRefreshReasonNewLeader bool
// DisableRefreshReasonTicks disables refreshing pending commands when a
// snapshot is applied.
DisableRefreshReasonSnapshotApplied bool
// DisableRefreshReasonTicks disables refreshing pending commands
// periodically.
DisableRefreshReasonTicks bool
// DisableProcessRaft disables the process raft loop.
DisableProcessRaft bool
// DisableLastProcessedCheck disables checking on replica queue last processed times.
DisableLastProcessedCheck bool
// ReplicateQueueAcceptsUnsplit allows the replication queue to
// process ranges that need to be split, for use in tests that use
// the replication queue but disable the split queue.
ReplicateQueueAcceptsUnsplit bool
// NumKeysEvaluatedForRangeIntentResolution is set by the stores to the
// number of keys evaluated for range intent resolution.
NumKeysEvaluatedForRangeIntentResolution *int64
// SkipMinSizeCheck, if set, makes the store creation process skip the check
// for a minimum size.
SkipMinSizeCheck bool
// DisableAsyncIntentResolution disables the async intent resolution
// path (but leaves synchronous resolution). This can avoid some
// edge cases in tests that start and stop servers.
DisableAsyncIntentResolution bool
}
var _ base.ModuleTestingKnobs = &StoreTestingKnobs{}
// ModuleTestingKnobs is part of the base.ModuleTestingKnobs interface.
func (*StoreTestingKnobs) ModuleTestingKnobs() {}
// Valid returns true if the StoreConfig is populated correctly.
// We don't check for Gossip and DB since some of our tests pass
// that as nil.
func (sc *StoreConfig) Valid() bool {
return sc.Clock != nil && sc.Transport != nil &&
sc.RaftTickInterval != 0 && sc.RaftHeartbeatIntervalTicks > 0 &&
sc.RaftElectionTimeoutTicks > 0 && sc.ScanInterval >= 0 &&
sc.ConsistencyCheckInterval >= 0 &&
sc.AmbientCtx.Tracer != nil
}
// SetDefaults initializes unset fields in StoreConfig to values
// suitable for use on a local network.
// TODO(tschottdorf): see if this ought to be configurable via flags.
func (sc *StoreConfig) SetDefaults() {
if (sc.RangeRetryOptions == retry.Options{}) {
sc.RangeRetryOptions = base.DefaultRetryOptions()
}
if sc.RaftTickInterval == 0 {
sc.RaftTickInterval = base.DefaultRaftTickInterval
}
if sc.CoalescedHeartbeatsInterval == 0 {
sc.CoalescedHeartbeatsInterval = sc.RaftTickInterval / 2
}
if sc.RaftHeartbeatIntervalTicks == 0 {
sc.RaftHeartbeatIntervalTicks = defaultHeartbeatIntervalTicks
}
if sc.RaftElectionTimeoutTicks == 0 {
sc.RaftElectionTimeoutTicks = defaultRaftElectionTimeoutTicks
}
if sc.RaftEntryCacheSize == 0 {
sc.RaftEntryCacheSize = defaultRaftEntryCacheSize
}
if sc.concurrentSnapshotApplyLimit == 0 {
// NB: setting this value higher than 1 is likely to degrade client
// throughput.
sc.concurrentSnapshotApplyLimit =
envutil.EnvOrDefaultInt("COCKROACH_CONCURRENT_SNAPSHOT_APPLY_LIMIT", 1)
}
rangeLeaseActiveDuration, rangeLeaseRenewalDuration :=
RangeLeaseDurations(RaftElectionTimeout(sc.RaftTickInterval, sc.RaftElectionTimeoutTicks))
if sc.RangeLeaseActiveDuration == 0 {
sc.RangeLeaseActiveDuration = rangeLeaseActiveDuration
}
if sc.RangeLeaseRenewalDuration == 0 {
sc.RangeLeaseRenewalDuration = rangeLeaseRenewalDuration
}
if sc.GossipWhenCapacityDeltaExceedsFraction == 0 {
sc.GossipWhenCapacityDeltaExceedsFraction = defaultGossipWhenCapacityDeltaExceedsFraction
}
}
// LeaseExpiration returns an int64 to increment a manual clock with to
// make sure that all active range leases expire.
func (sc *StoreConfig) LeaseExpiration() int64 {
// Due to lease extensions, the remaining interval can be longer than just
// the sum of the offset (=length of stasis period) and the active
// duration, but definitely not by 2x.
return 2 * int64(sc.RangeLeaseActiveDuration+sc.Clock.MaxOffset())
}
// NewStore returns a new instance of a store.
func NewStore(cfg StoreConfig, eng engine.Engine, nodeDesc *roachpb.NodeDescriptor) *Store {
// TODO(tschottdorf): find better place to set these defaults.
cfg.SetDefaults()
if !cfg.Valid() {
panic(fmt.Sprintf("invalid store configuration: %+v", &cfg))
}
s := &Store{
cfg: cfg,
db: cfg.DB, // TODO(tschottdorf): remove redundancy.
engine: eng,
nodeDesc: nodeDesc,
metrics: newStoreMetrics(cfg.HistogramWindowInterval),
}
if cfg.RPCContext != nil {
s.allocator = MakeAllocator(cfg.StorePool, cfg.RPCContext.RemoteClocks.Latency)
} else {
s.allocator = MakeAllocator(cfg.StorePool, func(string) (time.Duration, bool) {
return 0, false
})
}
s.intentResolver = newIntentResolver(s)
s.raftEntryCache = newRaftEntryCache(cfg.RaftEntryCacheSize)
s.draining.Store(false)
s.scheduler = newRaftScheduler(s.cfg.AmbientCtx, s.metrics, s, storeSchedulerConcurrency)
s.coalescedMu.Lock()
s.coalescedMu.heartbeats = map[roachpb.StoreIdent][]RaftHeartbeat{}
s.coalescedMu.heartbeatResponses = map[roachpb.StoreIdent][]RaftHeartbeat{}
s.coalescedMu.Unlock()
s.mu.Lock()
s.mu.replicas = map[roachpb.RangeID]*Replica{}
s.mu.replicaPlaceholders = map[roachpb.RangeID]*ReplicaPlaceholder{}
s.mu.replicaQueues = map[roachpb.RangeID]raftRequestQueue{}
s.mu.replicasByKey = btree.New(64 /* degree */)
s.mu.uninitReplicas = map[roachpb.RangeID]*Replica{}
s.mu.Unlock()
s.tsCacheMu.Lock()
s.tsCacheMu.cache = newTimestampCache(s.cfg.Clock)
s.tsCacheMu.Unlock()
s.snapshotApplySem = make(chan struct{}, cfg.concurrentSnapshotApplyLimit)
if s.cfg.Gossip != nil {
// Add range scanner and configure with queues.
s.scanner = newReplicaScanner(
s.cfg.AmbientCtx, cfg.ScanInterval, cfg.ScanMaxIdleTime, newStoreReplicaVisitor(s),
)
s.gcQueue = newGCQueue(s, s.cfg.Gossip)
s.splitQueue = newSplitQueue(s, s.db, s.cfg.Gossip)
s.replicateQueue = newReplicateQueue(s, s.cfg.Gossip, s.allocator, s.cfg.Clock)
s.replicaGCQueue = newReplicaGCQueue(s, s.db, s.cfg.Gossip)
s.raftLogQueue = newRaftLogQueue(s, s.db, s.cfg.Gossip)
s.raftSnapshotQueue = newRaftSnapshotQueue(s, s.cfg.Gossip, s.cfg.Clock)
s.consistencyQueue = newConsistencyQueue(s, s.cfg.Gossip)
s.scanner.AddQueues(
s.gcQueue, s.splitQueue, s.replicateQueue, s.replicaGCQueue,
s.raftLogQueue, s.raftSnapshotQueue, s.consistencyQueue)
if s.cfg.TimeSeriesDataStore != nil {
s.tsMaintenanceQueue = newTimeSeriesMaintenanceQueue(
s, s.db, s.cfg.Gossip, s.cfg.TimeSeriesDataStore,
)
s.scanner.AddQueues(s.tsMaintenanceQueue)
}
}
if cfg.TestingKnobs.DisableReplicaGCQueue {
s.setReplicaGCQueueActive(false)
}
if cfg.TestingKnobs.DisableReplicateQueue {
s.setReplicateQueueActive(false)
}
if cfg.TestingKnobs.DisableSplitQueue {
s.setSplitQueueActive(false)
}
if cfg.TestingKnobs.DisableTimeSeriesMaintenanceQueue {
s.setTimeSeriesMaintenanceQueueActive(false)
}
if cfg.TestingKnobs.DisableScanner {
s.setScannerActive(false)
}
return s
}
// String formats a store for debug output.
func (s *Store) String() string {
return fmt.Sprintf("[n%d,s%d]", s.Ident.NodeID, s.Ident.StoreID)
}
// AnnotateCtx is a convenience wrapper; see AmbientContext.
func (s *Store) AnnotateCtx(ctx context.Context) context.Context {
return s.cfg.AmbientCtx.AnnotateCtx(ctx)
}
// SetDraining (when called with 'true') causes incoming lease transfers to be
// rejected, prevents all of the Store's Replicas from acquiring or extending
// range leases, and attempts to transfer away any leases owned.
// When called with 'false', returns to the normal mode of operation.
func (s *Store) SetDraining(drain bool) {
s.draining.Store(drain)
if !drain {
return
}
var wg sync.WaitGroup
ctx := log.WithLogTag(context.Background(), "drain", nil)
// Limit the number of concurrent lease transfers.
sem := make(chan struct{}, 100)
sysCfg, sysCfgSet := s.cfg.Gossip.GetSystemConfig()
newStoreReplicaVisitor(s).Visit(func(r *Replica) bool {