zrepl/daemon/job/active.go
2023-12-22 14:40:53 +00:00

581 lines
16 KiB
Go

package job
import (
"context"
"fmt"
"sync"
"time"
"github.com/pkg/errors"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/common/log"
"github.com/zrepl/zrepl/daemon/logging/trace"
"github.com/zrepl/zrepl/util/envconst"
"github.com/zrepl/zrepl/config"
"github.com/zrepl/zrepl/daemon/job/reset"
"github.com/zrepl/zrepl/daemon/job/trigger"
"github.com/zrepl/zrepl/daemon/job/wakeup"
"github.com/zrepl/zrepl/daemon/pruner"
"github.com/zrepl/zrepl/daemon/snapper"
"github.com/zrepl/zrepl/endpoint"
"github.com/zrepl/zrepl/replication"
"github.com/zrepl/zrepl/replication/driver"
"github.com/zrepl/zrepl/replication/logic"
"github.com/zrepl/zrepl/replication/report"
"github.com/zrepl/zrepl/rpc"
"github.com/zrepl/zrepl/transport"
"github.com/zrepl/zrepl/transport/fromconfig"
"github.com/zrepl/zrepl/zfs"
)
type ActiveSide struct {
mode activeMode
name endpoint.JobID
connecter transport.Connecter
replicationDriverConfig driver.Config
prunerFactory *pruner.PrunerFactory
promRepStateSecs *prometheus.HistogramVec // labels: state
promPruneSecs *prometheus.HistogramVec // labels: prune_side
promBytesReplicated *prometheus.CounterVec // labels: filesystem
promReplicationErrors prometheus.Gauge
promLastSuccessful prometheus.Gauge
triggers *trigger.Triggers
tasksMtx sync.Mutex
tasks activeSideTasks
}
//go:generate enumer -type=ActiveSideState
type ActiveSideState int
const (
ActiveSideReplicating ActiveSideState = 1 << iota
ActiveSidePruneSender
ActiveSidePruneReceiver
ActiveSideDone // also errors
)
type activeSideTasks struct {
state ActiveSideState
// valid for state ActiveSideReplicating, ActiveSidePruneSender, ActiveSidePruneReceiver, ActiveSideDone
replicationReport driver.ReportFunc
replicationCancel context.CancelFunc
// valid for state ActiveSidePruneSender, ActiveSidePruneReceiver, ActiveSideDone
prunerSender, prunerReceiver *pruner.Pruner
// valid for state ActiveSidePruneReceiver, ActiveSideDone
prunerSenderCancel, prunerReceiverCancel context.CancelFunc
}
func (a *ActiveSide) updateTasks(u func(*activeSideTasks)) activeSideTasks {
a.tasksMtx.Lock()
defer a.tasksMtx.Unlock()
copy := a.tasks
if u == nil {
return copy
}
u(&copy)
a.tasks = copy
return copy
}
type activeMode interface {
ConnectEndpoints(ctx context.Context, connecter transport.Connecter)
DisconnectEndpoints()
SenderReceiver() (logic.Sender, logic.Receiver)
Type() Type
PlannerPolicy() logic.PlannerPolicy
RunPeriodic(ctx context.Context, wakeReplication trigger.Trigger
SnapperReport() *snapper.Report
ResetConnectBackoff()
}
type modePush struct {
setupMtx sync.Mutex
sender *endpoint.Sender
receiver *rpc.Client
senderConfig *endpoint.SenderConfig
plannerPolicy *logic.PlannerPolicy
snapper snapper.Snapper
}
func (m *modePush) ConnectEndpoints(ctx context.Context, connecter transport.Connecter) {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
if m.receiver != nil || m.sender != nil {
panic("inconsistent use of ConnectEndpoints and DisconnectEndpoints")
}
m.sender = endpoint.NewSender(*m.senderConfig)
m.receiver = rpc.NewClient(connecter, rpc.GetLoggersOrPanic(ctx))
}
func (m *modePush) DisconnectEndpoints() {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
m.receiver.Close()
m.sender = nil
m.receiver = nil
}
func (m *modePush) SenderReceiver() (logic.Sender, logic.Receiver) {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
return m.sender, m.receiver
}
func (m *modePush) Type() Type { return TypePush }
func (m *modePush) PlannerPolicy() logic.PlannerPolicy { return *m.plannerPolicy }
func (m *modePush) RunPeriodic(ctx context.Context, trigger trigger.Trigger {
m.snapper.Run(ctx, trigger)
}
func (m *modePush) SnapperReport() *snapper.Report {
r := m.snapper.Report()
return &r
}
func (m *modePush) ResetConnectBackoff() {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
if m.receiver != nil {
m.receiver.ResetConnectBackoff()
}
}
func modePushFromConfig(g *config.Global, in *config.PushJob, jobID endpoint.JobID) (*modePush, error) {
m := &modePush{}
var err error
m.senderConfig, err = buildSenderConfig(in, jobID)
if err != nil {
return nil, errors.Wrap(err, "sender config")
}
replicationConfig, err := logic.ReplicationConfigFromConfig(in.Replication)
if err != nil {
return nil, errors.Wrap(err, "field `replication`")
}
conflictResolution, err := logic.ConflictResolutionFromConfig(in.ConflictResolution)
if err != nil {
return nil, errors.Wrap(err, "field `conflict_resolution`")
}
m.plannerPolicy = &logic.PlannerPolicy{
ConflictResolution: conflictResolution,
ReplicationConfig: replicationConfig,
SizeEstimationConcurrency: in.Replication.Concurrency.SizeEstimates,
}
if err := m.plannerPolicy.Validate(); err != nil {
return nil, errors.Wrap(err, "cannot build planner policy")
}
if m.snapper, err = snapper.FromConfig(g, m.senderConfig.FSF, in.Snapshotting); err != nil {
return nil, errors.Wrap(err, "cannot build snapper")
}
return m, nil
}
type modePull struct {
setupMtx sync.Mutex
receiver *endpoint.Receiver
receiverConfig endpoint.ReceiverConfig
sender *rpc.Client
plannerPolicy *logic.PlannerPolicy
interval config.PositiveDurationOrManual
}
func (m *modePull) ConnectEndpoints(ctx context.Context, connecter transport.Connecter) {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
if m.receiver != nil || m.sender != nil {
panic("inconsistent use of ConnectEndpoints and DisconnectEndpoints")
}
m.receiver = endpoint.NewReceiver(m.receiverConfig)
m.sender = rpc.NewClient(connecter, rpc.GetLoggersOrPanic(ctx))
}
func (m *modePull) DisconnectEndpoints() {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
m.sender.Close()
m.sender = nil
m.receiver = nil
}
func (m *modePull) SenderReceiver() (logic.Sender, logic.Receiver) {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
return m.sender, m.receiver
}
func (*modePull) Type() Type { return TypePull }
func (m *modePull) PlannerPolicy() logic.PlannerPolicy { return *m.plannerPolicy }
func (m *modePull) RunPeriodic(ctx context.Context, wakeReplication trigger.Trigger {
if m.interval.Manual {
GetLogger(ctx).Info("manual pull configured, periodic pull disabled")
// "waiting for wakeups" is printed in common ActiveSide.do
return
}
t := time.NewTicker(m.interval.Interval)
defer t.Stop()
for {
select {
case <-t.C:
wakeReplication.Fire()
case <-ctx.Done():
return
}
}
}
func (m *modePull) SnapperReport() *snapper.Report {
return nil
}
func (m *modePull) ResetConnectBackoff() {
m.setupMtx.Lock()
defer m.setupMtx.Unlock()
if m.sender != nil {
m.sender.ResetConnectBackoff()
}
}
func modePullFromConfig(g *config.Global, in *config.PullJob, jobID endpoint.JobID) (m *modePull, err error) {
m = &modePull{}
m.interval = in.Interval
replicationConfig, err := logic.ReplicationConfigFromConfig(in.Replication)
if err != nil {
return nil, errors.Wrap(err, "field `replication`")
}
conflictResolution, err := logic.ConflictResolutionFromConfig(in.ConflictResolution)
if err != nil {
return nil, errors.Wrap(err, "field `conflict_resolution`")
}
m.plannerPolicy = &logic.PlannerPolicy{
ConflictResolution: conflictResolution,
ReplicationConfig: replicationConfig,
SizeEstimationConcurrency: in.Replication.Concurrency.SizeEstimates,
}
if err := m.plannerPolicy.Validate(); err != nil {
return nil, errors.Wrap(err, "cannot build planner policy")
}
m.receiverConfig, err = buildReceiverConfig(in, jobID)
if err != nil {
return nil, err
}
return m, nil
}
func replicationDriverConfigFromConfig(in *config.Replication) (c driver.Config, err error) {
c = driver.Config{
StepQueueConcurrency: in.Concurrency.Steps,
MaxAttempts: envconst.Int("ZREPL_REPLICATION_MAX_ATTEMPTS", 3),
ReconnectHardFailTimeout: envconst.Duration("ZREPL_REPLICATION_RECONNECT_HARD_FAIL_TIMEOUT", 10*time.Minute),
}
err = c.Validate()
return c, err
}
func activeSide(g *config.Global, in *config.ActiveJob, configJob interface{}, parseFlags config.ParseFlags) (j *ActiveSide, err error) {
j = &ActiveSide{}
j.name, err = endpoint.MakeJobID(in.Name)
if err != nil {
return nil, errors.Wrap(err, "invalid job name")
}
switch v := configJob.(type) {
case *config.PushJob:
j.mode, err = modePushFromConfig(g, v, j.name) // shadow
case *config.PullJob:
j.mode, err = modePullFromConfig(g, v, j.name) // shadow
default:
panic(fmt.Sprintf("implementation error: unknown job type %T", v))
}
if err != nil {
return nil, err // no wrapping required
}
j.promRepStateSecs = prometheus.NewHistogramVec(prometheus.HistogramOpts{
Namespace: "zrepl",
Subsystem: "replication",
Name: "state_time",
Help: "seconds spent during replication",
ConstLabels: prometheus.Labels{"zrepl_job": j.name.String()},
}, []string{"state"})
j.promBytesReplicated = prometheus.NewCounterVec(prometheus.CounterOpts{
Namespace: "zrepl",
Subsystem: "replication",
Name: "bytes_replicated",
Help: "number of bytes replicated from sender to receiver per filesystem",
ConstLabels: prometheus.Labels{"zrepl_job": j.name.String()},
}, []string{"filesystem"})
j.promReplicationErrors = prometheus.NewGauge(prometheus.GaugeOpts{
Namespace: "zrepl",
Subsystem: "replication",
Name: "filesystem_errors",
Help: "number of filesystems that failed replication in the latest replication attempt, or -1 if the job failed before enumerating the filesystems",
ConstLabels: prometheus.Labels{"zrepl_job": j.name.String()},
})
j.promLastSuccessful = prometheus.NewGauge(prometheus.GaugeOpts{
Namespace: "zrepl",
Subsystem: "replication",
Name: "last_successful",
Help: "timestamp of last successful replication",
ConstLabels: prometheus.Labels{"zrepl_job": j.name.String()},
})
j.connecter, err = fromconfig.ConnecterFromConfig(g, in.Connect, parseFlags)
if err != nil {
return nil, errors.Wrap(err, "cannot build client")
}
j.promPruneSecs = prometheus.NewHistogramVec(prometheus.HistogramOpts{
Namespace: "zrepl",
Subsystem: "pruning",
Name: "time",
Help: "seconds spent in pruner",
ConstLabels: prometheus.Labels{"zrepl_job": j.name.String()},
}, []string{"prune_side"})
j.prunerFactory, err = pruner.NewPrunerFactory(in.Pruning, j.promPruneSecs)
if err != nil {
return nil, err
}
j.replicationDriverConfig, err = replicationDriverConfigFromConfig(in.Replication)
if err != nil {
return nil, errors.Wrap(err, "cannot build replication driver config")
}
j.triggers, err = trigger.FromConfig(in.Replication.Triggers)
if err != nil {
return nil, errors.Wrap(err, "cannot build triggers")
}
return j, nil
}
func (j *ActiveSide) RegisterMetrics(registerer prometheus.Registerer) {
registerer.MustRegister(j.promRepStateSecs)
registerer.MustRegister(j.promPruneSecs)
registerer.MustRegister(j.promBytesReplicated)
registerer.MustRegister(j.promReplicationErrors)
registerer.MustRegister(j.promLastSuccessful)
}
func (j *ActiveSide) Name() string { return j.name.String() }
type ActiveSideStatus struct {
Replication *report.Report
PruningSender, PruningReceiver *pruner.Report
Snapshotting *snapper.Report
}
func (j *ActiveSide) Status() *Status {
tasks := j.updateTasks(nil)
s := &ActiveSideStatus{}
t := j.mode.Type()
if tasks.replicationReport != nil {
s.Replication = tasks.replicationReport()
}
if tasks.prunerSender != nil {
s.PruningSender = tasks.prunerSender.Report()
}
if tasks.prunerReceiver != nil {
s.PruningReceiver = tasks.prunerReceiver.Report()
}
s.Snapshotting = j.mode.SnapperReport()
return &Status{Type: t, JobSpecific: s}
}
func (j *ActiveSide) OwnedDatasetSubtreeRoot() (rfs *zfs.DatasetPath, ok bool) {
pull, ok := j.mode.(*modePull)
if !ok {
_ = j.mode.(*modePush) // make sure we didn't introduce a new job type
return nil, false
}
return pull.receiverConfig.RootWithoutClientComponent.Copy(), true
}
func (j *ActiveSide) SenderConfig() *endpoint.SenderConfig {
push, ok := j.mode.(*modePush)
if !ok {
_ = j.mode.(*modePull) // make sure we didn't introduce a new job type
return nil
}
return push.senderConfig
}
// The active side of a replication uses one end (sender or receiver)
// directly by method invocation, without going through a transport that
// provides a client identity.
// However, in order to avoid the need to distinguish between direct-method-invocating
// clients and RPC client, we use an invalid client identity as a sentinel value.
func FakeActiveSideDirectMethodInvocationClientIdentity(jobId endpoint.JobID) string {
return fmt.Sprintf("<local><active><job><client><identity><job=%q>", jobId.String())
}
func (j *ActiveSide) Run(ctx context.Context) {
ctx, endTask := trace.WithTaskAndSpan(ctx, "active-side-job", j.Name())
defer endTask()
ctx = context.WithValue(ctx, endpoint.ClientIdentityKey, FakeActiveSideDirectMethodInvocationClientIdentity(j.name))
log := GetLogger(ctx)
defer log.Info("job exiting")
ctx, cancel := context.WithCancel(ctx)
defer cancel()
periodicTrigger := trigger.New("periodic")
periodCtx, endTask := trace.WithTask(ctx, "periodic")
defer endTask()
go j.mode.RunPeriodic(periodCtx, periodicTrigger)
wakeupTrigger := wakeup.Trigger(ctx)
triggered, endTask := j.triggers.Spawn(ctx, []*trigger.Trigger{periodicTrigger, wakeupTrigger})
defer endTask()
invocationCount := 0
outer:
for {
log.Info("wait for wakeups")
select {
case <-ctx.Done():
log.WithError(ctx.Err()).Info("context")
break outer
case trigger := <-triggered:
log :=
log.WithField("trigger_id", trigger.ID())
log.Info("triggered")
switch trigger {
case wakeupTrigger:
log.Info("trigger is wakeup command, resetting connection backoff")
j.mode.ResetConnectBackoff()
}
}
invocationCount++
invocationCtx, endSpan := trace.WithSpan(ctx, fmt.Sprintf("invocation-%d", invocationCount))
j.do(invocationCtx)
endSpan()
}
}
func (j *ActiveSide) do(ctx context.Context) {
j.mode.ConnectEndpoints(ctx, j.connecter)
defer j.mode.DisconnectEndpoints()
// allow cancellation of an invocation (this function)
ctx, cancelThisRun := context.WithCancel(ctx)
defer cancelThisRun()
go func() {
select {
case <-reset.Wait(ctx):
log.Info("reset received, cancelling current invocation")
cancelThisRun()
case <-ctx.Done():
}
}()
sender, receiver := j.mode.SenderReceiver()
{
select {
case <-ctx.Done():
return
default:
}
ctx, endSpan := trace.WithSpan(ctx, "replication")
ctx, repCancel := context.WithCancel(ctx)
var repWait driver.WaitFunc
j.updateTasks(func(tasks *activeSideTasks) {
// reset it
*tasks = activeSideTasks{}
tasks.replicationCancel = func() { repCancel(); endSpan() }
tasks.replicationReport, repWait = replication.Do(
ctx, j.replicationDriverConfig, logic.NewPlanner(j.promRepStateSecs, j.promBytesReplicated, sender, receiver, j.mode.PlannerPolicy()),
)
tasks.state = ActiveSideReplicating
})
GetLogger(ctx).Info("start replication")
repWait(true) // wait blocking
repCancel() // always cancel to free up context resources
replicationReport := j.tasks.replicationReport()
var numErrors = replicationReport.GetFailedFilesystemsCountInLatestAttempt()
j.promReplicationErrors.Set(float64(numErrors))
if numErrors == 0 {
j.promLastSuccessful.SetToCurrentTime()
}
endSpan()
}
{
select {
case <-ctx.Done():
return
default:
}
ctx, endSpan := trace.WithSpan(ctx, "prune_sender")
ctx, senderCancel := context.WithCancel(ctx)
tasks := j.updateTasks(func(tasks *activeSideTasks) {
tasks.prunerSender = j.prunerFactory.BuildSenderPruner(ctx, sender, sender)
tasks.prunerSenderCancel = func() { senderCancel(); endSpan() }
tasks.state = ActiveSidePruneSender
})
GetLogger(ctx).Info("start pruning sender")
tasks.prunerSender.Prune()
GetLogger(ctx).Info("finished pruning sender")
senderCancel()
endSpan()
}
{
select {
case <-ctx.Done():
return
default:
}
ctx, endSpan := trace.WithSpan(ctx, "prune_recever")
ctx, receiverCancel := context.WithCancel(ctx)
tasks := j.updateTasks(func(tasks *activeSideTasks) {
tasks.prunerReceiver = j.prunerFactory.BuildReceiverPruner(ctx, receiver, sender)
tasks.prunerReceiverCancel = func() { receiverCancel(); endSpan() }
tasks.state = ActiveSidePruneReceiver
})
GetLogger(ctx).Info("start pruning receiver")
tasks.prunerReceiver.Prune()
GetLogger(ctx).Info("finished pruning receiver")
receiverCancel()
endSpan()
}
j.updateTasks(func(tasks *activeSideTasks) {
tasks.state = ActiveSideDone
})
}