storj/satellite/metainfo/loop.go
Egon Elbre 93e39a6b33 satellite/metainfo: support co-joining the loop
This adds support for observers to join the loop together. This allows
to ensure that when multiple observers join, they will be part of the
same loop iteration.

Change-Id: Ie887d4cedfb074b65c782690a2c09c1704f56dfe
2020-04-16 13:31:17 +03:00

375 lines
9.9 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package metainfo
import (
"context"
"fmt"
"time"
"github.com/spacemonkeygo/monkit/v3"
"github.com/zeebo/errs"
"golang.org/x/time/rate"
"storj.io/common/pb"
"storj.io/common/storj"
"storj.io/common/uuid"
"storj.io/storj/storage"
)
var (
// LoopError is a standard error class for this component.
LoopError = errs.Class("metainfo loop error")
// LoopClosedError is a loop closed error.
LoopClosedError = LoopError.New("loop closed")
)
// Observer is an interface defining an observer that can subscribe to the metainfo loop.
//
// architecture: Observer
type Observer interface {
Object(context.Context, ScopedPath, *pb.Pointer) error
RemoteSegment(context.Context, ScopedPath, *pb.Pointer) error
InlineSegment(context.Context, ScopedPath, *pb.Pointer) error
}
// NullObserver is an observer that does nothing. This is useful for joining
// and ensuring the metainfo loop runs once before you use a real observer
type NullObserver struct{}
// Object implements the Observer interface
func (NullObserver) Object(context.Context, ScopedPath, *pb.Pointer) error {
return nil
}
// RemoteSegment implements the Observer interface
func (NullObserver) RemoteSegment(context.Context, ScopedPath, *pb.Pointer) error {
return nil
}
// InlineSegment implements the Observer interface
func (NullObserver) InlineSegment(context.Context, ScopedPath, *pb.Pointer) error {
return nil
}
// ScopedPath contains full expanded information about the path.
type ScopedPath struct {
ProjectID uuid.UUID
ProjectIDString string
Segment string
BucketName string
EncryptedObjectPath string
// TODO: should these be a []byte?
// Raw is the same path as pointerDB is using.
Raw storj.Path
}
type observerContext struct {
observer Observer
ctx context.Context
done chan error
object *monkit.DurationDist
remote *monkit.DurationDist
inline *monkit.DurationDist
}
func newObserverContext(ctx context.Context, obs Observer) *observerContext {
name := fmt.Sprintf("%T", obs)
key := monkit.NewSeriesKey("observer").WithTag("name", name)
return &observerContext{
observer: obs,
ctx: ctx,
done: make(chan error),
object: monkit.NewDurationDist(key.WithTag("pointer_type", "object")),
inline: monkit.NewDurationDist(key.WithTag("pointer_type", "inline")),
remote: monkit.NewDurationDist(key.WithTag("pointer_type", "remote")),
}
}
func (observer *observerContext) Object(ctx context.Context, path ScopedPath, pointer *pb.Pointer) error {
start := time.Now()
defer func() { observer.object.Insert(time.Since(start)) }()
return observer.observer.Object(ctx, path, pointer)
}
func (observer *observerContext) RemoteSegment(ctx context.Context, path ScopedPath, pointer *pb.Pointer) error {
start := time.Now()
defer func() { observer.remote.Insert(time.Since(start)) }()
return observer.observer.RemoteSegment(ctx, path, pointer)
}
func (observer *observerContext) InlineSegment(ctx context.Context, path ScopedPath, pointer *pb.Pointer) error {
start := time.Now()
defer func() { observer.inline.Insert(time.Since(start)) }()
return observer.observer.InlineSegment(ctx, path, pointer)
}
func (observer *observerContext) HandleError(err error) bool {
if err != nil {
observer.done <- err
observer.Finish()
return true
}
return false
}
func (observer *observerContext) Finish() {
close(observer.done)
name := fmt.Sprintf("%T", observer.observer)
stats := allObserverStatsCollectors.GetStats(name)
stats.Observe(observer)
}
func (observer *observerContext) Wait() error {
return <-observer.done
}
// LoopConfig contains configurable values for the metainfo loop.
type LoopConfig struct {
CoalesceDuration time.Duration `help:"how long to wait for new observers before starting iteration" releaseDefault:"5s" devDefault:"5s"`
RateLimit float64 `help:"metainfo loop rate limit (default is 0 which is unlimited segments per second)" default:"0"`
}
// Loop is a metainfo loop service.
//
// architecture: Service
type Loop struct {
config LoopConfig
db PointerDB
join chan []*observerContext
done chan struct{}
}
// NewLoop creates a new metainfo loop service.
func NewLoop(config LoopConfig, db PointerDB) *Loop {
return &Loop{
db: db,
config: config,
join: make(chan []*observerContext),
done: make(chan struct{}),
}
}
// Join will join the looper for one full cycle until completion and then returns.
// On ctx cancel the observer will return without completely finishing.
// Only on full complete iteration it will return nil.
// Safe to be called concurrently.
func (loop *Loop) Join(ctx context.Context, observers ...Observer) (err error) {
defer mon.Task()(&ctx)(&err)
obsContexts := make([]*observerContext, len(observers))
for i, obs := range observers {
obsContexts[i] = newObserverContext(ctx, obs)
}
select {
case loop.join <- obsContexts:
case <-ctx.Done():
return ctx.Err()
case <-loop.done:
return LoopClosedError
}
var errList errs.Group
for _, ctx := range obsContexts {
errList.Add(ctx.Wait())
}
return errList.Err()
}
// Run starts the looping service.
// It can only be called once, otherwise a panic will occur.
func (loop *Loop) Run(ctx context.Context) (err error) {
defer mon.Task()(&ctx)(&err)
for {
err := loop.runOnce(ctx)
if err != nil {
return err
}
}
}
// Close closes the looping services.
func (loop *Loop) Close() (err error) {
close(loop.done)
return nil
}
// runOnce goes through metainfo one time and sends information to observers.
func (loop *Loop) runOnce(ctx context.Context) (err error) {
defer mon.Task()(&ctx)(&err)
var observers []*observerContext
// wait for the first observer, or exit because context is canceled
select {
case list := <-loop.join:
observers = append(observers, list...)
case <-ctx.Done():
return ctx.Err()
}
// after the first observer is found, set timer for CoalesceDuration and add any observers that try to join before the timer is up
timer := time.NewTimer(loop.config.CoalesceDuration)
waitformore:
for {
select {
case list := <-loop.join:
observers = append(observers, list...)
case <-timer.C:
break waitformore
case <-ctx.Done():
finishObservers(observers)
return ctx.Err()
}
}
return iterateDatabase(ctx, loop.db, observers, rate.NewLimiter(rate.Limit(loop.config.RateLimit), 1))
}
// IterateDatabase iterates over PointerDB and notifies specified observers about results.
func IterateDatabase(ctx context.Context, rateLimit float64, db PointerDB, observers ...Observer) error {
obsContexts := make([]*observerContext, len(observers))
for i, observer := range observers {
obsContexts[i] = newObserverContext(ctx, observer)
}
return iterateDatabase(ctx, db, obsContexts, rate.NewLimiter(rate.Limit(rateLimit), 1))
}
// handlePointer deals with a pointer for a single observer
// if there is some error on the observer, handles the error and returns false. Otherwise, returns true.
func handlePointer(ctx context.Context, observer *observerContext, path ScopedPath, isLastSegment bool, pointer *pb.Pointer) bool {
switch pointer.GetType() {
case pb.Pointer_REMOTE:
if observer.HandleError(observer.RemoteSegment(ctx, path, pointer)) {
return false
}
case pb.Pointer_INLINE:
if observer.HandleError(observer.InlineSegment(ctx, path, pointer)) {
return false
}
default:
return false
}
if isLastSegment {
if observer.HandleError(observer.Object(ctx, path, pointer)) {
return false
}
}
select {
case <-observer.ctx.Done():
observer.HandleError(observer.ctx.Err())
return false
default:
}
return true
}
// Wait waits for run to be finished.
// Safe to be called concurrently.
func (loop *Loop) Wait() {
<-loop.done
}
func iterateDatabase(ctx context.Context, db PointerDB, observers []*observerContext, rateLimiter *rate.Limiter) (err error) {
defer func() {
if err != nil {
for _, observer := range observers {
observer.HandleError(err)
}
return
}
finishObservers(observers)
}()
err = db.Iterate(ctx, storage.IterateOptions{Recurse: true},
func(ctx context.Context, it storage.Iterator) error {
var item storage.ListItem
// iterate over every segment in metainfo
nextSegment:
for it.Next(ctx, &item) {
if err := rateLimiter.Wait(ctx); err != nil {
// We don't really execute concurrent batches so we should never
// exceed the burst size of 1 and this should never happen.
// We can also enter here if the context is cancelled.
return LoopError.Wrap(err)
}
rawPath := item.Key.String()
pointer := &pb.Pointer{}
err := pb.Unmarshal(item.Value, pointer)
if err != nil {
return LoopError.New("unexpected error unmarshalling pointer %s", err)
}
pathElements := storj.SplitPath(rawPath)
if len(pathElements) < 4 {
// We skip this path because it belongs to bucket metadata, not to an
// actual object
continue nextSegment
}
isLastSegment := pathElements[1] == "l"
path := ScopedPath{
Raw: rawPath,
ProjectIDString: pathElements[0],
Segment: pathElements[1],
BucketName: pathElements[2],
EncryptedObjectPath: storj.JoinPaths(pathElements[3:]...),
}
path.ProjectID, err = uuid.FromString(path.ProjectIDString)
if err != nil {
return LoopError.Wrap(err)
}
nextObservers := observers[:0]
for _, observer := range observers {
keepObserver := handlePointer(ctx, observer, path, isLastSegment, pointer)
if keepObserver {
nextObservers = append(nextObservers, observer)
}
}
observers = nextObservers
if len(observers) == 0 {
return nil
}
// if context has been canceled exit. Otherwise, continue
select {
case <-ctx.Done():
return ctx.Err()
default:
}
}
return nil
})
return err
}
func finishObservers(observers []*observerContext) {
for _, observer := range observers {
observer.Finish()
}
}