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minio/cmd/bucket-replication.go

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// Copyright (c) 2015-2021 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cmd
import (
"context"
"encoding/binary"
"errors"
"fmt"
"io"
"math"
"net/http"
"path"
"reflect"
"strings"
"sync"
"time"
"github.com/dustin/go-humanize"
"github.com/minio/madmin-go"
"github.com/minio/minio-go/v7"
miniogo "github.com/minio/minio-go/v7"
"github.com/minio/minio-go/v7/pkg/encrypt"
"github.com/minio/minio-go/v7/pkg/tags"
"github.com/minio/minio/internal/bucket/bandwidth"
"github.com/minio/minio/internal/bucket/replication"
"github.com/minio/minio/internal/config/storageclass"
"github.com/minio/minio/internal/crypto"
"github.com/minio/minio/internal/event"
"github.com/minio/minio/internal/hash"
xhttp "github.com/minio/minio/internal/http"
"github.com/minio/minio/internal/logger"
)
const (
throttleDeadline = 1 * time.Hour
// ReplicationReset has reset id and timestamp of last reset operation
ReplicationReset = "replication-reset"
// ReplicationStatus has internal replication status - stringified representation of target's replication status for all replication
// activity initiated from this cluster
ReplicationStatus = "replication-status"
// ReplicationTimestamp - the last time replication was initiated on this cluster for this object version
ReplicationTimestamp = "replication-timestamp"
// ReplicaStatus - this header is present if a replica was received by this cluster for this object version
ReplicaStatus = "replica-status"
// ReplicaTimestamp - the last time a replica was received by this cluster for this object version
ReplicaTimestamp = "replica-timestamp"
// TaggingTimestamp - the last time a tag metadata modification happened on this cluster for this object version
TaggingTimestamp = "tagging-timestamp"
// ObjectLockRetentionTimestamp - the last time a object lock metadata modification happened on this cluster for this object version
ObjectLockRetentionTimestamp = "objectlock-retention-timestamp"
// ObjectLockLegalHoldTimestamp - the last time a legal hold metadata modification happened on this cluster for this object version
ObjectLockLegalHoldTimestamp = "objectlock-legalhold-timestamp"
// ReplicationWorkerMultiplier is suggested worker multiplier if traffic exceeds replication worker capacity
ReplicationWorkerMultiplier = 1.5
)
// gets replication config associated to a given bucket name.
func getReplicationConfig(ctx context.Context, bucketName string) (rc *replication.Config, err error) {
if globalIsGateway {
objAPI := newObjectLayerFn()
if objAPI == nil {
return rc, errServerNotInitialized
}
return rc, BucketReplicationConfigNotFound{Bucket: bucketName}
}
rCfg, _, err := globalBucketMetadataSys.GetReplicationConfig(ctx, bucketName)
return rCfg, err
}
// validateReplicationDestination returns error if replication destination bucket missing or not configured
// It also returns true if replication destination is same as this server.
func validateReplicationDestination(ctx context.Context, bucket string, rCfg *replication.Config, checkRemote bool) (bool, APIError) {
var arns []string
if rCfg.RoleArn != "" {
arns = append(arns, rCfg.RoleArn)
} else {
for _, rule := range rCfg.Rules {
arns = append(arns, rule.Destination.String())
}
}
var sameTarget bool
for _, arnStr := range arns {
arn, err := madmin.ParseARN(arnStr)
if err != nil {
return sameTarget, errorCodes.ToAPIErrWithErr(ErrBucketRemoteArnInvalid, err)
}
if arn.Type != madmin.ReplicationService {
return sameTarget, toAPIError(ctx, BucketRemoteArnTypeInvalid{Bucket: bucket})
}
clnt := globalBucketTargetSys.GetRemoteTargetClient(ctx, arnStr)
if clnt == nil {
return sameTarget, toAPIError(ctx, BucketRemoteTargetNotFound{Bucket: bucket})
}
if checkRemote { // validate remote bucket
if found, err := clnt.BucketExists(ctx, arn.Bucket); !found {
return sameTarget, errorCodes.ToAPIErrWithErr(ErrRemoteDestinationNotFoundError, err)
}
if ret, err := globalBucketObjectLockSys.Get(bucket); err == nil {
if ret.LockEnabled {
lock, _, _, _, err := clnt.GetObjectLockConfig(ctx, arn.Bucket)
if err != nil || lock != "Enabled" {
return sameTarget, errorCodes.ToAPIErrWithErr(ErrReplicationDestinationMissingLock, err)
}
}
}
}
// validate replication ARN against target endpoint
c, ok := globalBucketTargetSys.arnRemotesMap[arnStr]
if ok {
if c.EndpointURL().String() == clnt.EndpointURL().String() {
selfTarget, _ := isLocalHost(clnt.EndpointURL().Hostname(), clnt.EndpointURL().Port(), globalMinioPort)
if !sameTarget {
sameTarget = selfTarget
}
continue
}
}
}
if len(arns) == 0 {
return false, toAPIError(ctx, BucketRemoteTargetNotFound{Bucket: bucket})
}
return sameTarget, toAPIError(ctx, nil)
}
type mustReplicateOptions struct {
meta map[string]string
status replication.StatusType
opType replication.Type
replicationRequest bool // incoming request is a replication request
}
func (o mustReplicateOptions) ReplicationStatus() (s replication.StatusType) {
if rs, ok := o.meta[xhttp.AmzBucketReplicationStatus]; ok {
return replication.StatusType(rs)
}
return s
}
func (o mustReplicateOptions) isExistingObjectReplication() bool {
return o.opType == replication.ExistingObjectReplicationType
}
func (o mustReplicateOptions) isMetadataReplication() bool {
return o.opType == replication.MetadataReplicationType
}
func getMustReplicateOptions(o ObjectInfo, op replication.Type, opts ObjectOptions) mustReplicateOptions {
if !op.Valid() {
op = replication.ObjectReplicationType
if o.metadataOnly {
op = replication.MetadataReplicationType
}
}
meta := cloneMSS(o.UserDefined)
if o.UserTags != "" {
meta[xhttp.AmzObjectTagging] = o.UserTags
}
return mustReplicateOptions{
meta: meta,
status: o.ReplicationStatus,
opType: op,
replicationRequest: opts.ReplicationRequest,
}
}
// mustReplicate returns 2 booleans - true if object meets replication criteria and true if replication is to be done in
// a synchronous manner.
func mustReplicate(ctx context.Context, bucket, object string, mopts mustReplicateOptions) (dsc ReplicateDecision) {
if globalIsGateway {
return
}
// object layer not initialized we return with no decision.
if newObjectLayerFn() == nil {
return
}
// Disable server-side replication on object prefixes which are excluded
// from versioning via the MinIO bucket versioning extension.
if globalBucketVersioningSys.PrefixSuspended(bucket, object) {
return
}
replStatus := mopts.ReplicationStatus()
if replStatus == replication.Replica && !mopts.isMetadataReplication() {
return
}
if mopts.replicationRequest { // incoming replication request on target cluster
return
}
cfg, err := getReplicationConfig(ctx, bucket)
if err != nil {
return
}
opts := replication.ObjectOpts{
Name: object,
SSEC: crypto.SSEC.IsEncrypted(mopts.meta),
Replica: replStatus == replication.Replica,
ExistingObject: mopts.isExistingObjectReplication(),
}
tagStr, ok := mopts.meta[xhttp.AmzObjectTagging]
if ok {
opts.UserTags = tagStr
}
tgtArns := cfg.FilterTargetArns(opts)
for _, tgtArn := range tgtArns {
tgt := globalBucketTargetSys.GetRemoteTargetClient(ctx, tgtArn)
// the target online status should not be used here while deciding
// whether to replicate as the target could be temporarily down
opts.TargetArn = tgtArn
replicate := cfg.Replicate(opts)
var synchronous bool
if tgt != nil {
synchronous = tgt.replicateSync
}
dsc.Set(newReplicateTargetDecision(tgtArn, replicate, synchronous))
}
return dsc
}
// Standard headers that needs to be extracted from User metadata.
var standardHeaders = []string{
xhttp.ContentType,
xhttp.CacheControl,
xhttp.ContentEncoding,
xhttp.ContentLanguage,
xhttp.ContentDisposition,
xhttp.AmzStorageClass,
xhttp.AmzObjectTagging,
xhttp.AmzBucketReplicationStatus,
xhttp.AmzObjectLockMode,
xhttp.AmzObjectLockRetainUntilDate,
xhttp.AmzObjectLockLegalHold,
xhttp.AmzTagCount,
xhttp.AmzServerSideEncryption,
}
// returns true if any of the objects being deleted qualifies for replication.
func hasReplicationRules(ctx context.Context, bucket string, objects []ObjectToDelete) bool {
c, err := getReplicationConfig(ctx, bucket)
if err != nil || c == nil {
return false
}
for _, obj := range objects {
if c.HasActiveRules(obj.ObjectName, true) {
return true
}
}
return false
}
// isStandardHeader returns true if header is a supported header and not a custom header
func isStandardHeader(matchHeaderKey string) bool {
return equals(matchHeaderKey, standardHeaders...)
}
// returns whether object version is a deletemarker and if object qualifies for replication
func checkReplicateDelete(ctx context.Context, bucket string, dobj ObjectToDelete, oi ObjectInfo, delOpts ObjectOptions, gerr error) (dsc ReplicateDecision) {
rcfg, err := getReplicationConfig(ctx, bucket)
if err != nil || rcfg == nil {
return
}
// If incoming request is a replication request, it does not need to be re-replicated.
if delOpts.ReplicationRequest {
return
}
// Skip replication if this object's prefix is excluded from being
// versioned.
if !delOpts.Versioned {
return
}
opts := replication.ObjectOpts{
Name: dobj.ObjectName,
SSEC: crypto.SSEC.IsEncrypted(oi.UserDefined),
UserTags: oi.UserTags,
DeleteMarker: oi.DeleteMarker,
VersionID: dobj.VersionID,
OpType: replication.DeleteReplicationType,
}
tgtArns := rcfg.FilterTargetArns(opts)
if len(tgtArns) > 0 {
dsc.targetsMap = make(map[string]replicateTargetDecision, len(tgtArns))
var sync, replicate bool
for _, tgtArn := range tgtArns {
opts.TargetArn = tgtArn
replicate = rcfg.Replicate(opts)
// when incoming delete is removal of a delete marker( a.k.a versioned delete),
// GetObjectInfo returns extra information even though it returns errFileNotFound
if gerr != nil {
validReplStatus := false
switch oi.TargetReplicationStatus(tgtArn) {
case replication.Pending, replication.Completed, replication.Failed:
validReplStatus = true
}
if oi.DeleteMarker && (validReplStatus || replicate) {
dsc.Set(newReplicateTargetDecision(tgtArn, replicate, sync))
continue
} else {
// can be the case that other cluster is down and duplicate `mc rm --vid`
// is issued - this still needs to be replicated back to the other target
replicate = oi.VersionPurgeStatus == Pending || oi.VersionPurgeStatus == Failed
dsc.Set(newReplicateTargetDecision(tgtArn, replicate, sync))
continue
}
}
tgt := globalBucketTargetSys.GetRemoteTargetClient(ctx, tgtArn)
// the target online status should not be used here while deciding
// whether to replicate deletes as the target could be temporarily down
tgtDsc := newReplicateTargetDecision(tgtArn, false, false)
if tgt != nil {
tgtDsc = newReplicateTargetDecision(tgtArn, replicate, tgt.replicateSync)
}
dsc.Set(tgtDsc)
}
}
return dsc
}
// replicate deletes to the designated replication target if replication configuration
// has delete marker replication or delete replication (MinIO extension to allow deletes where version id
// is specified) enabled.
// Similar to bucket replication for PUT operation, soft delete (a.k.a setting delete marker) and
// permanent deletes (by specifying a version ID in the delete operation) have three states "Pending", "Complete"
// and "Failed" to mark the status of the replication of "DELETE" operation. All failed operations can
// then be retried by healing. In the case of permanent deletes, until the replication is completed on the
// target cluster, the object version is marked deleted on the source and hidden from listing. It is permanently
// deleted from the source when the VersionPurgeStatus changes to "Complete", i.e after replication succeeds
// on target.
func replicateDelete(ctx context.Context, dobj DeletedObjectReplicationInfo, objectAPI ObjectLayer, trigger string) {
var replicationStatus replication.StatusType
bucket := dobj.Bucket
versionID := dobj.DeleteMarkerVersionID
if versionID == "" {
versionID = dobj.VersionID
}
defer func() {
replStatus := string(replicationStatus)
auditLogInternal(context.Background(), bucket, dobj.ObjectName, AuditLogOptions{
Trigger: trigger,
APIName: ReplicateDeleteAPI,
VersionID: versionID,
Status: replStatus,
})
}()
rcfg, err := getReplicationConfig(ctx, bucket)
if err != nil || rcfg == nil {
logger.LogIf(ctx, err)
sendEvent(eventArgs{
BucketName: bucket,
Object: ObjectInfo{
Bucket: bucket,
Name: dobj.ObjectName,
VersionID: versionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: event.ObjectReplicationNotTracked,
})
return
}
dsc, err := parseReplicateDecision(dobj.ReplicationState.ReplicateDecisionStr)
if err != nil {
logger.LogIf(ctx, err)
sendEvent(eventArgs{
BucketName: bucket,
Object: ObjectInfo{
Bucket: bucket,
Name: dobj.ObjectName,
VersionID: versionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: event.ObjectReplicationNotTracked,
})
return
}
// Lock the object name before starting replication operation.
// Use separate lock that doesn't collide with regular objects.
lk := objectAPI.NewNSLock(bucket, "/[replicate]/"+dobj.ObjectName)
lkctx, err := lk.GetLock(ctx, globalOperationTimeout)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("failed to get lock for object: %s bucket:%s arn:%s", dobj.ObjectName, bucket, rcfg.RoleArn))
sendEvent(eventArgs{
BucketName: bucket,
Object: ObjectInfo{
Bucket: bucket,
Name: dobj.ObjectName,
VersionID: versionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: event.ObjectReplicationNotTracked,
})
return
}
ctx = lkctx.Context()
defer lk.Unlock(lkctx.Cancel)
var wg sync.WaitGroup
var rinfos replicatedInfos
rinfos.Targets = make([]replicatedTargetInfo, len(dsc.targetsMap))
idx := -1
for tgtArn := range dsc.targetsMap {
idx++
tgt := globalBucketTargetSys.GetRemoteTargetClient(ctx, tgtArn)
if tgt == nil {
logger.LogIf(ctx, fmt.Errorf("failed to get target for bucket:%s arn:%s", bucket, tgtArn))
sendEvent(eventArgs{
BucketName: bucket,
Object: ObjectInfo{
Bucket: bucket,
Name: dobj.ObjectName,
VersionID: versionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: event.ObjectReplicationNotTracked,
})
continue
}
if tgt := dsc.targetsMap[tgtArn]; !tgt.Replicate {
continue
}
// if dobj.TargetArn is not empty string, this is a case of specific target being re-synced.
if dobj.TargetArn != "" && dobj.TargetArn != tgt.ARN {
continue
}
wg.Add(1)
go func(index int, tgt *TargetClient) {
defer wg.Done()
rinfo := replicateDeleteToTarget(ctx, dobj, tgt)
rinfos.Targets[index] = rinfo
}(idx, tgt)
}
wg.Wait()
replicationStatus = rinfos.ReplicationStatus()
prevStatus := dobj.DeleteMarkerReplicationStatus()
if dobj.VersionID != "" {
prevStatus = replication.StatusType(dobj.VersionPurgeStatus())
replicationStatus = replication.StatusType(rinfos.VersionPurgeStatus())
}
// to decrement pending count later.
for _, rinfo := range rinfos.Targets {
if rinfo.ReplicationStatus != rinfo.PrevReplicationStatus {
globalReplicationStats.Update(dobj.Bucket, rinfo.Arn, 0, 0, replicationStatus,
prevStatus, replication.DeleteReplicationType)
}
}
eventName := event.ObjectReplicationComplete
if replicationStatus == replication.Failed {
eventName = event.ObjectReplicationFailed
}
drs := getReplicationState(rinfos, dobj.ReplicationState, dobj.VersionID)
dobjInfo, err := objectAPI.DeleteObject(ctx, bucket, dobj.ObjectName, ObjectOptions{
VersionID: versionID,
MTime: dobj.DeleteMarkerMTime.Time,
DeleteReplication: drs,
Versioned: globalBucketVersioningSys.PrefixEnabled(bucket, dobj.ObjectName),
VersionSuspended: globalBucketVersioningSys.PrefixSuspended(bucket, dobj.ObjectName),
})
if err != nil && !isErrVersionNotFound(err) { // VersionNotFound would be reported by pool that object version is missing on.
logger.LogIf(ctx, fmt.Errorf("Unable to update replication metadata for %s/%s(%s): %s", bucket, dobj.ObjectName, versionID, err))
sendEvent(eventArgs{
BucketName: bucket,
Object: ObjectInfo{
Bucket: bucket,
Name: dobj.ObjectName,
VersionID: versionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: eventName,
})
} else {
sendEvent(eventArgs{
BucketName: bucket,
Object: dobjInfo,
Host: "Internal: [Replication]",
EventName: eventName,
})
}
}
func replicateDeleteToTarget(ctx context.Context, dobj DeletedObjectReplicationInfo, tgt *TargetClient) (rinfo replicatedTargetInfo) {
versionID := dobj.DeleteMarkerVersionID
if versionID == "" {
versionID = dobj.VersionID
}
rinfo = dobj.ReplicationState.targetState(tgt.ARN)
rinfo.OpType = dobj.OpType
defer func() {
if rinfo.ReplicationStatus == replication.Completed && tgt.ResetID != "" && dobj.OpType == replication.ExistingObjectReplicationType {
rinfo.ResyncTimestamp = fmt.Sprintf("%s;%s", UTCNow().Format(http.TimeFormat), tgt.ResetID)
}
}()
if dobj.VersionID == "" && rinfo.PrevReplicationStatus == replication.Completed && dobj.OpType != replication.ExistingObjectReplicationType {
rinfo.ReplicationStatus = rinfo.PrevReplicationStatus
return
}
if dobj.VersionID != "" && rinfo.VersionPurgeStatus == Complete {
return
}
if tgt.IsOffline() {
logger.LogIf(ctx, fmt.Errorf("remote target is offline for bucket:%s arn:%s", dobj.Bucket, tgt.ARN))
sendEvent(eventArgs{
BucketName: dobj.Bucket,
Object: ObjectInfo{
Bucket: dobj.Bucket,
Name: dobj.ObjectName,
VersionID: dobj.VersionID,
DeleteMarker: dobj.DeleteMarker,
},
Host: "Internal: [Replication]",
EventName: event.ObjectReplicationNotTracked,
})
if dobj.VersionID == "" {
rinfo.ReplicationStatus = replication.Failed
} else {
rinfo.VersionPurgeStatus = Failed
}
return
}
// early return if already replicated delete marker for existing object replication/ healing delete markers
if dobj.DeleteMarkerVersionID != "" && (dobj.OpType == replication.ExistingObjectReplicationType || dobj.OpType == replication.HealReplicationType) {
if _, err := tgt.StatObject(ctx, tgt.Bucket, dobj.ObjectName, miniogo.StatObjectOptions{
VersionID: versionID,
Internal: miniogo.AdvancedGetOptions{
ReplicationProxyRequest: "false",
},
}); isErrMethodNotAllowed(ErrorRespToObjectError(err, dobj.Bucket, dobj.ObjectName)) {
if dobj.VersionID == "" {
rinfo.ReplicationStatus = replication.Completed
return
}
}
}
rmErr := tgt.RemoveObject(ctx, tgt.Bucket, dobj.ObjectName, miniogo.RemoveObjectOptions{
VersionID: versionID,
Internal: miniogo.AdvancedRemoveOptions{
ReplicationDeleteMarker: dobj.DeleteMarkerVersionID != "",
ReplicationMTime: dobj.DeleteMarkerMTime.Time,
ReplicationStatus: miniogo.ReplicationStatusReplica,
ReplicationRequest: true, // always set this to distinguish between `mc mirror` replication and serverside
},
})
if rmErr != nil {
if dobj.VersionID == "" {
rinfo.ReplicationStatus = replication.Failed
} else {
rinfo.VersionPurgeStatus = Failed
}
logger.LogIf(ctx, fmt.Errorf("Unable to replicate delete marker to %s/%s(%s): %s", tgt.Bucket, dobj.ObjectName, versionID, rmErr))
} else {
if dobj.VersionID == "" {
rinfo.ReplicationStatus = replication.Completed
} else {
rinfo.VersionPurgeStatus = Complete
}
}
return
}
func getCopyObjMetadata(oi ObjectInfo, sc string) map[string]string {
meta := make(map[string]string, len(oi.UserDefined))
for k, v := range oi.UserDefined {
if strings.HasPrefix(strings.ToLower(k), ReservedMetadataPrefixLower) {
continue
}
if equals(k, xhttp.AmzBucketReplicationStatus) {
continue
}
// https://github.com/google/security-research/security/advisories/GHSA-76wf-9vgp-pj7w
if equals(k, xhttp.AmzMetaUnencryptedContentLength, xhttp.AmzMetaUnencryptedContentMD5) {
continue
}
meta[k] = v
}
if oi.ContentEncoding != "" {
meta[xhttp.ContentEncoding] = oi.ContentEncoding
}
if oi.ContentType != "" {
meta[xhttp.ContentType] = oi.ContentType
}
if oi.UserTags != "" {
meta[xhttp.AmzObjectTagging] = oi.UserTags
meta[xhttp.AmzTagDirective] = "REPLACE"
}
if sc == "" {
sc = oi.StorageClass
}
// drop non standard storage classes for tiering from replication
if sc != "" && (sc == storageclass.RRS || sc == storageclass.STANDARD) {
meta[xhttp.AmzStorageClass] = sc
}
meta[xhttp.MinIOSourceETag] = oi.ETag
meta[xhttp.MinIOSourceMTime] = oi.ModTime.Format(time.RFC3339Nano)
meta[xhttp.AmzBucketReplicationStatus] = replication.Replica.String()
return meta
}
type caseInsensitiveMap map[string]string
// Lookup map entry case insensitively.
func (m caseInsensitiveMap) Lookup(key string) (string, bool) {
if len(m) == 0 {
return "", false
}
for _, k := range []string{
key,
strings.ToLower(key),
http.CanonicalHeaderKey(key),
} {
v, ok := m[k]
if ok {
return v, ok
}
}
return "", false
}
func putReplicationOpts(ctx context.Context, sc string, objInfo ObjectInfo) (putOpts miniogo.PutObjectOptions, err error) {
meta := make(map[string]string)
for k, v := range objInfo.UserDefined {
if strings.HasPrefix(strings.ToLower(k), ReservedMetadataPrefixLower) {
continue
}
if isStandardHeader(k) {
continue
}
meta[k] = v
}
if sc == "" && (objInfo.StorageClass == storageclass.STANDARD || objInfo.StorageClass == storageclass.RRS) {
sc = objInfo.StorageClass
}
putOpts = miniogo.PutObjectOptions{
UserMetadata: meta,
ContentType: objInfo.ContentType,
ContentEncoding: objInfo.ContentEncoding,
StorageClass: sc,
Internal: miniogo.AdvancedPutOptions{
SourceVersionID: objInfo.VersionID,
ReplicationStatus: miniogo.ReplicationStatusReplica,
SourceMTime: objInfo.ModTime,
SourceETag: objInfo.ETag,
ReplicationRequest: true, // always set this to distinguish between `mc mirror` replication and serverside
},
}
if objInfo.UserTags != "" {
tag, _ := tags.ParseObjectTags(objInfo.UserTags)
if tag != nil {
putOpts.UserTags = tag.ToMap()
// set tag timestamp in opts
tagTimestamp := objInfo.ModTime
if tagTmstampStr, ok := objInfo.UserDefined[ReservedMetadataPrefixLower+TaggingTimestamp]; ok {
tagTimestamp, err = time.Parse(time.RFC3339Nano, tagTmstampStr)
if err != nil {
return putOpts, err
}
}
putOpts.Internal.TaggingTimestamp = tagTimestamp
}
}
lkMap := caseInsensitiveMap(objInfo.UserDefined)
if lang, ok := lkMap.Lookup(xhttp.ContentLanguage); ok {
putOpts.ContentLanguage = lang
}
if disp, ok := lkMap.Lookup(xhttp.ContentDisposition); ok {
putOpts.ContentDisposition = disp
}
if cc, ok := lkMap.Lookup(xhttp.CacheControl); ok {
putOpts.CacheControl = cc
}
if mode, ok := lkMap.Lookup(xhttp.AmzObjectLockMode); ok {
rmode := miniogo.RetentionMode(mode)
putOpts.Mode = rmode
}
if retainDateStr, ok := lkMap.Lookup(xhttp.AmzObjectLockRetainUntilDate); ok {
rdate, err := time.Parse(time.RFC3339, retainDateStr)
if err != nil {
return putOpts, err
}
putOpts.RetainUntilDate = rdate
// set retention timestamp in opts
retTimestamp := objInfo.ModTime
if retainTmstampStr, ok := objInfo.UserDefined[ReservedMetadataPrefixLower+ObjectLockRetentionTimestamp]; ok {
retTimestamp, err = time.Parse(time.RFC3339Nano, retainTmstampStr)
if err != nil {
return putOpts, err
}
}
putOpts.Internal.RetentionTimestamp = retTimestamp
}
if lhold, ok := lkMap.Lookup(xhttp.AmzObjectLockLegalHold); ok {
putOpts.LegalHold = miniogo.LegalHoldStatus(lhold)
// set legalhold timestamp in opts
lholdTimestamp := objInfo.ModTime
if lholdTmstampStr, ok := objInfo.UserDefined[ReservedMetadataPrefixLower+ObjectLockLegalHoldTimestamp]; ok {
lholdTimestamp, err = time.Parse(time.RFC3339Nano, lholdTmstampStr)
if err != nil {
return putOpts, err
}
}
putOpts.Internal.LegalholdTimestamp = lholdTimestamp
}
if crypto.S3.IsEncrypted(objInfo.UserDefined) {
putOpts.ServerSideEncryption = encrypt.NewSSE()
}
return
}
type replicationAction string
const (
replicateMetadata replicationAction = "metadata"
replicateNone replicationAction = "none"
replicateAll replicationAction = "all"
)
// matches k1 with all keys, returns 'true' if one of them matches
func equals(k1 string, keys ...string) bool {
for _, k2 := range keys {
if strings.EqualFold(k1, k2) {
return true
}
}
return false
}
// returns replicationAction by comparing metadata between source and target
func getReplicationAction(oi1 ObjectInfo, oi2 minio.ObjectInfo, opType replication.Type) replicationAction {
// Avoid resyncing null versions created prior to enabling replication if target has a newer copy
if opType == replication.ExistingObjectReplicationType &&
oi1.ModTime.Unix() > oi2.LastModified.Unix() && oi1.VersionID == nullVersionID {
return replicateNone
}
// needs full replication
if oi1.ETag != oi2.ETag ||
oi1.VersionID != oi2.VersionID ||
oi1.Size != oi2.Size ||
oi1.DeleteMarker != oi2.IsDeleteMarker ||
oi1.ModTime.Unix() != oi2.LastModified.Unix() {
return replicateAll
}
if oi1.ContentType != oi2.ContentType {
return replicateMetadata
}
if oi1.ContentEncoding != "" {
enc, ok := oi2.Metadata[xhttp.ContentEncoding]
if !ok {
enc, ok = oi2.Metadata[strings.ToLower(xhttp.ContentEncoding)]
if !ok {
return replicateMetadata
}
}
if strings.Join(enc, ",") != oi1.ContentEncoding {
return replicateMetadata
}
}
t, _ := tags.ParseObjectTags(oi1.UserTags)
if !reflect.DeepEqual(oi2.UserTags, t.ToMap()) || (oi2.UserTagCount != len(t.ToMap())) {
return replicateMetadata
}
// Compare only necessary headers
compareKeys := []string{
"Expires",
"Cache-Control",
"Content-Language",
"Content-Disposition",
"X-Amz-Object-Lock-Mode",
"X-Amz-Object-Lock-Retain-Until-Date",
"X-Amz-Object-Lock-Legal-Hold",
"X-Amz-Website-Redirect-Location",
"X-Amz-Meta-",
}
// compare metadata on both maps to see if meta is identical
compareMeta1 := make(map[string]string)
for k, v := range oi1.UserDefined {
var found bool
for _, prefix := range compareKeys {
if !strings.HasPrefix(strings.ToLower(k), strings.ToLower(prefix)) {
continue
}
found = true
break
}
if found {
compareMeta1[strings.ToLower(k)] = v
}
}
compareMeta2 := make(map[string]string)
for k, v := range oi2.Metadata {
var found bool
for _, prefix := range compareKeys {
if !strings.HasPrefix(strings.ToLower(k), strings.ToLower(prefix)) {
continue
}
found = true
break
}
if found {
compareMeta2[strings.ToLower(k)] = strings.Join(v, ",")
}
}
if !reflect.DeepEqual(compareMeta1, compareMeta2) {
return replicateMetadata
}
return replicateNone
}
// replicateObject replicates the specified version of the object to destination bucket
// The source object is then updated to reflect the replication status.
func replicateObject(ctx context.Context, ri ReplicateObjectInfo, objectAPI ObjectLayer, trigger string) {
var replicationStatus replication.StatusType
defer func() {
if replicationStatus.Empty() {
// replication status is empty means
// replication was not attempted for some
// reason, notify the state of the object
// on disk.
replicationStatus = ri.ReplicationStatus
}
auditLogInternal(ctx, ri.Bucket, ri.Name, AuditLogOptions{
Trigger: trigger,
APIName: ReplicateObjectAPI,
VersionID: ri.VersionID,
Status: replicationStatus.String(),
})
}()
objInfo := ri.ObjectInfo
bucket := objInfo.Bucket
object := objInfo.Name
cfg, err := getReplicationConfig(ctx, bucket)
if err != nil {
logger.LogIf(ctx, err)
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
return
}
tgtArns := cfg.FilterTargetArns(replication.ObjectOpts{
Name: object,
SSEC: crypto.SSEC.IsEncrypted(objInfo.UserDefined),
UserTags: objInfo.UserTags,
})
// Lock the object name before starting replication.
// Use separate lock that doesn't collide with regular objects.
lk := objectAPI.NewNSLock(bucket, "/[replicate]/"+object)
lkctx, err := lk.GetLock(ctx, globalOperationTimeout)
if err != nil {
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
logger.LogIf(ctx, fmt.Errorf("failed to get lock for object: %s bucket:%s arn:%s", object, bucket, cfg.RoleArn))
return
}
ctx = lkctx.Context()
defer lk.Unlock(lkctx.Cancel)
var wg sync.WaitGroup
var rinfos replicatedInfos
rinfos.Targets = make([]replicatedTargetInfo, len(tgtArns))
for i, tgtArn := range tgtArns {
tgt := globalBucketTargetSys.GetRemoteTargetClient(ctx, tgtArn)
if tgt == nil {
logger.LogIf(ctx, fmt.Errorf("failed to get target for bucket:%s arn:%s", bucket, tgtArn))
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
continue
}
wg.Add(1)
go func(index int, tgt *TargetClient) {
defer wg.Done()
rinfos.Targets[index] = replicateObjectToTarget(ctx, ri, objectAPI, tgt)
}(i, tgt)
}
wg.Wait()
// FIXME: add support for missing replication events
// - event.ObjectReplicationMissedThreshold
// - event.ObjectReplicationReplicatedAfterThreshold
eventName := event.ObjectReplicationComplete
if rinfos.ReplicationStatus() == replication.Failed {
eventName = event.ObjectReplicationFailed
}
newReplStatusInternal := rinfos.ReplicationStatusInternal()
// Note that internal replication status(es) may match for previously replicated objects - in such cases
// metadata should be updated with last resync timestamp.
if objInfo.ReplicationStatusInternal != newReplStatusInternal || rinfos.ReplicationResynced() {
popts := ObjectOptions{
MTime: objInfo.ModTime,
VersionID: objInfo.VersionID,
EvalMetadataFn: func(oi ObjectInfo) error {
oi.UserDefined[ReservedMetadataPrefixLower+ReplicationStatus] = newReplStatusInternal
oi.UserDefined[ReservedMetadataPrefixLower+ReplicationTimestamp] = UTCNow().Format(time.RFC3339Nano)
oi.UserDefined[xhttp.AmzBucketReplicationStatus] = string(rinfos.ReplicationStatus())
for _, rinfo := range rinfos.Targets {
if rinfo.ResyncTimestamp != "" {
oi.UserDefined[targetResetHeader(rinfo.Arn)] = rinfo.ResyncTimestamp
}
}
if objInfo.UserTags != "" {
oi.UserDefined[xhttp.AmzObjectTagging] = objInfo.UserTags
}
return nil
},
}
if _, err = objectAPI.PutObjectMetadata(ctx, bucket, object, popts); err != nil {
logger.LogIf(ctx, fmt.Errorf("Unable to update replication metadata for %s/%s(%s): %w",
bucket, objInfo.Name, objInfo.VersionID, err))
}
opType := replication.MetadataReplicationType
if rinfos.Action() == replicateAll {
opType = replication.ObjectReplicationType
}
for _, rinfo := range rinfos.Targets {
if rinfo.ReplicationStatus != rinfo.PrevReplicationStatus {
globalReplicationStats.Update(bucket, rinfo.Arn, rinfo.Size, rinfo.Duration, rinfo.ReplicationStatus, rinfo.PrevReplicationStatus, opType)
}
}
}
sendEvent(eventArgs{
EventName: eventName,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
// re-queue failures once more - keep a retry count to avoid flooding the queue if
// the target site is down. Leave it to scanner to catch up instead.
if rinfos.ReplicationStatus() != replication.Completed && ri.RetryCount < 1 {
ri.OpType = replication.HealReplicationType
ri.ReplicationStatusInternal = rinfos.ReplicationStatusInternal()
ri.RetryCount++
globalReplicationPool.queueReplicaFailedTask(ri)
}
}
// replicateObjectToTarget replicates the specified version of the object to destination bucket
// The source object is then updated to reflect the replication status.
func replicateObjectToTarget(ctx context.Context, ri ReplicateObjectInfo, objectAPI ObjectLayer, tgt *TargetClient) (rinfo replicatedTargetInfo) {
startTime := time.Now()
objInfo := ri.ObjectInfo.Clone()
bucket := objInfo.Bucket
object := objInfo.Name
var (
closeOnDefer bool
gr *GetObjectReader
size int64
err error
)
sz, _ := objInfo.GetActualSize()
// set defaults for replication action based on operation being performed - actual
// replication action can only be determined after stat on remote. This default is
// needed for updating replication metrics correctly when target is offline.
var rAction replicationAction
switch ri.OpType {
case replication.MetadataReplicationType:
rAction = replicateMetadata
default:
rAction = replicateAll
}
rinfo = replicatedTargetInfo{
Size: sz,
Arn: tgt.ARN,
PrevReplicationStatus: objInfo.TargetReplicationStatus(tgt.ARN),
ReplicationStatus: replication.Failed,
OpType: ri.OpType,
ReplicationAction: rAction,
}
if ri.ObjectInfo.TargetReplicationStatus(tgt.ARN) == replication.Completed && !ri.ExistingObjResync.Empty() && !ri.ExistingObjResync.mustResyncTarget(tgt.ARN) {
rinfo.ReplicationStatus = replication.Completed
rinfo.ReplicationResynced = true
return
}
if tgt.IsOffline() {
logger.LogIf(ctx, fmt.Errorf("remote target is offline for bucket:%s arn:%s", bucket, tgt.ARN))
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
return
}
gr, err = objectAPI.GetObjectNInfo(ctx, bucket, object, nil, http.Header{}, readLock, ObjectOptions{
VersionID: objInfo.VersionID,
})
if err != nil {
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
logger.LogIf(ctx, fmt.Errorf("Unable to update replicate for %s/%s(%s): %w", bucket, object, objInfo.VersionID, err))
return
}
defer func() {
if closeOnDefer {
gr.Close()
}
}()
closeOnDefer = true
objInfo = gr.ObjInfo
size, err = objInfo.GetActualSize()
if err != nil {
logger.LogIf(ctx, err)
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
return
}
if tgt.Bucket == "" {
logger.LogIf(ctx, fmt.Errorf("Unable to replicate object %s(%s), bucket is empty", objInfo.Name, objInfo.VersionID))
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
return rinfo
}
defer func() {
if rinfo.ReplicationStatus == replication.Completed && ri.OpType == replication.ExistingObjectReplicationType && tgt.ResetID != "" {
rinfo.ResyncTimestamp = fmt.Sprintf("%s;%s", UTCNow().Format(http.TimeFormat), tgt.ResetID)
rinfo.ReplicationResynced = true
}
rinfo.Duration = time.Since(startTime)
}()
rAction = replicateAll
oi, cerr := tgt.StatObject(ctx, tgt.Bucket, object, miniogo.StatObjectOptions{
VersionID: objInfo.VersionID,
Internal: miniogo.AdvancedGetOptions{
ReplicationProxyRequest: "false",
},
})
if cerr == nil {
rAction = getReplicationAction(objInfo, oi, ri.OpType)
rinfo.ReplicationStatus = replication.Completed
if rAction == replicateNone {
if ri.OpType == replication.ExistingObjectReplicationType &&
objInfo.ModTime.Unix() > oi.LastModified.Unix() && objInfo.VersionID == nullVersionID {
logger.LogIf(ctx, fmt.Errorf("Unable to replicate %s/%s (null). Newer version exists on target", bucket, object))
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
}
// object with same VersionID already exists, replication kicked off by
// PutObject might have completed
if objInfo.TargetReplicationStatus(tgt.ARN) == replication.Pending || objInfo.TargetReplicationStatus(tgt.ARN) == replication.Failed || ri.OpType == replication.ExistingObjectReplicationType {
// if metadata is not updated for some reason after replication, such as
// 503 encountered while updating metadata - make sure to set ReplicationStatus
// as Completed.
//
// Note: Replication Stats would have been updated despite metadata update failure.
gr.Close()
closeOnDefer = false
rinfo.ReplicationAction = rAction
rinfo.ReplicationStatus = replication.Completed
}
return
}
}
rinfo.ReplicationStatus = replication.Completed
rinfo.Size = size
rinfo.ReplicationAction = rAction
// use core client to avoid doing multipart on PUT
c := &miniogo.Core{Client: tgt.Client}
if rAction != replicateAll {
// replicate metadata for object tagging/copy with metadata replacement
srcOpts := miniogo.CopySrcOptions{
Bucket: tgt.Bucket,
Object: object,
VersionID: objInfo.VersionID,
}
dstOpts := miniogo.PutObjectOptions{
Internal: miniogo.AdvancedPutOptions{
SourceVersionID: objInfo.VersionID,
ReplicationRequest: true, // always set this to distinguish between `mc mirror` replication and serverside
},
}
if _, err = c.CopyObject(ctx, tgt.Bucket, object, tgt.Bucket, object, getCopyObjMetadata(objInfo, tgt.StorageClass), srcOpts, dstOpts); err != nil {
rinfo.ReplicationStatus = replication.Failed
logger.LogIf(ctx, fmt.Errorf("Unable to replicate metadata for object %s/%s(%s): %s", bucket, objInfo.Name, objInfo.VersionID, err))
}
} else {
var putOpts minio.PutObjectOptions
putOpts, err = putReplicationOpts(ctx, tgt.StorageClass, objInfo)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("failed to get target for replication bucket:%s err:%w", bucket, err))
sendEvent(eventArgs{
EventName: event.ObjectReplicationNotTracked,
BucketName: bucket,
Object: objInfo,
Host: "Internal: [Replication]",
})
return
}
var headerSize int
for k, v := range putOpts.Header() {
headerSize += len(k) + len(v)
}
opts := &bandwidth.MonitorReaderOptions{
Bucket: objInfo.Bucket,
HeaderSize: headerSize,
}
newCtx := ctx
if globalBucketMonitor.IsThrottled(bucket) {
var cancel context.CancelFunc
newCtx, cancel = context.WithTimeout(ctx, throttleDeadline)
defer cancel()
}
r := bandwidth.NewMonitoredReader(newCtx, globalBucketMonitor, gr, opts)
if objInfo.isMultipart() {
if err := replicateObjectWithMultipart(ctx, c, tgt.Bucket, object,
r, objInfo, putOpts); err != nil {
rinfo.ReplicationStatus = replication.Failed
logger.LogIf(ctx, fmt.Errorf("Unable to replicate for object %s/%s(%s): %s", bucket, objInfo.Name, objInfo.VersionID, err))
}
} else {
if _, err = c.PutObject(ctx, tgt.Bucket, object, r, size, "", "", putOpts); err != nil {
rinfo.ReplicationStatus = replication.Failed
logger.LogIf(ctx, fmt.Errorf("Unable to replicate for object %s/%s(%s): %s", bucket, objInfo.Name, objInfo.VersionID, err))
}
}
}
gr.Close()
closeOnDefer = false
return
}
func replicateObjectWithMultipart(ctx context.Context, c *miniogo.Core, bucket, object string, r io.Reader, objInfo ObjectInfo, opts miniogo.PutObjectOptions) (err error) {
var uploadedParts []miniogo.CompletePart
uploadID, err := c.NewMultipartUpload(context.Background(), bucket, object, opts)
if err != nil {
return err
}
defer func() {
if err != nil {
// block and abort remote upload upon failure.
attempts := 1
for attempts <= 3 {
aerr := c.AbortMultipartUpload(ctx, bucket, object, uploadID)
if aerr == nil {
return
}
logger.LogIf(ctx,
fmt.Errorf("Trying %s: Unable to cleanup failed multipart replication %s on remote %s/%s: %w - this may consume space on remote cluster",
humanize.Ordinal(attempts), uploadID, bucket, object, aerr))
attempts++
time.Sleep(time.Second)
}
}
}()
var (
hr *hash.Reader
pInfo miniogo.ObjectPart
)
for _, partInfo := range objInfo.Parts {
hr, err = hash.NewReader(r, partInfo.ActualSize, "", "", partInfo.ActualSize)
if err != nil {
return err
}
pInfo, err = c.PutObjectPart(ctx, bucket, object, uploadID, partInfo.Number, hr, partInfo.ActualSize, "", "", opts.ServerSideEncryption)
if err != nil {
return err
}
if pInfo.Size != partInfo.ActualSize {
return fmt.Errorf("Part size mismatch: got %d, want %d", pInfo.Size, partInfo.ActualSize)
}
uploadedParts = append(uploadedParts, miniogo.CompletePart{
PartNumber: pInfo.PartNumber,
ETag: pInfo.ETag,
})
}
_, err = c.CompleteMultipartUpload(ctx, bucket, object, uploadID, uploadedParts, miniogo.PutObjectOptions{
Internal: miniogo.AdvancedPutOptions{
SourceMTime: objInfo.ModTime,
// always set this to distinguish between `mc mirror` replication and serverside
ReplicationRequest: true,
},
})
return err
}
// filterReplicationStatusMetadata filters replication status metadata for COPY
func filterReplicationStatusMetadata(metadata map[string]string) map[string]string {
// Copy on write
dst := metadata
var copied bool
delKey := func(key string) {
if _, ok := metadata[key]; !ok {
return
}
if !copied {
dst = make(map[string]string, len(metadata))
for k, v := range metadata {
dst[k] = v
}
copied = true
}
delete(dst, key)
}
delKey(xhttp.AmzBucketReplicationStatus)
return dst
}
// DeletedObjectReplicationInfo has info on deleted object
type DeletedObjectReplicationInfo struct {
DeletedObject
Bucket string
OpType replication.Type
ResetID string
TargetArn string
}
// Replication specific APIName
const (
ReplicateObjectAPI = "ReplicateObject"
ReplicateDeleteAPI = "ReplicateDelete"
)
const (
// ReplicateQueued - replication being queued trail
ReplicateQueued = "replicate:queue"
// ReplicateExisting - audit trail for existing objects replication
ReplicateExisting = "replicate:existing"
// ReplicateExistingDelete - audit trail for delete replication triggered for existing delete markers
ReplicateExistingDelete = "replicate:existing:delete"
// ReplicateMRF - audit trail for replication from Most Recent Failures (MRF) queue
ReplicateMRF = "replicate:mrf"
// ReplicateIncoming - audit trail indicating replication started [could be from incoming/existing/heal activity]
ReplicateIncoming = "replicate:incoming"
// ReplicateHeal - audit trail for healing of failed/pending replications
ReplicateHeal = "replicate:heal"
// ReplicateDelete - audit trail for delete replication
ReplicateDelete = "replicate:delete"
)
var (
globalReplicationPool *ReplicationPool
globalReplicationStats *ReplicationStats
)
// ReplicationPool describes replication pool
type ReplicationPool struct {
objLayer ObjectLayer
ctx context.Context
mrfWorkerKillCh chan struct{}
workerKillCh chan struct{}
replicaCh chan ReplicateObjectInfo
replicaDeleteCh chan DeletedObjectReplicationInfo
mrfReplicaCh chan ReplicateObjectInfo
existingReplicaCh chan ReplicateObjectInfo
existingReplicaDeleteCh chan DeletedObjectReplicationInfo
workerSize int
mrfWorkerSize int
resyncState replicationResyncState
workerWg sync.WaitGroup
mrfWorkerWg sync.WaitGroup
once sync.Once
mu sync.Mutex
}
// NewReplicationPool creates a pool of replication workers of specified size
func NewReplicationPool(ctx context.Context, o ObjectLayer, opts replicationPoolOpts) *ReplicationPool {
pool := &ReplicationPool{
replicaCh: make(chan ReplicateObjectInfo, 100000),
replicaDeleteCh: make(chan DeletedObjectReplicationInfo, 100000),
mrfReplicaCh: make(chan ReplicateObjectInfo, 100000),
workerKillCh: make(chan struct{}, opts.Workers),
mrfWorkerKillCh: make(chan struct{}, opts.FailedWorkers),
existingReplicaCh: make(chan ReplicateObjectInfo, 100000),
existingReplicaDeleteCh: make(chan DeletedObjectReplicationInfo, 100000),
resyncState: replicationResyncState{statusMap: make(map[string]BucketReplicationResyncStatus)},
ctx: ctx,
objLayer: o,
}
pool.ResizeWorkers(opts.Workers)
pool.ResizeFailedWorkers(opts.FailedWorkers)
go pool.AddExistingObjectReplicateWorker()
go pool.periodicResyncMetaSave(ctx, o)
return pool
}
// AddMRFWorker adds a pending/failed replication worker to handle requests that could not be queued
// to the other workers
func (p *ReplicationPool) AddMRFWorker() {
for {
select {
case <-p.ctx.Done():
return
case oi, ok := <-p.mrfReplicaCh:
if !ok {
return
}
replicateObject(p.ctx, oi, p.objLayer, ReplicateMRF)
case <-p.mrfWorkerKillCh:
return
}
}
}
// AddWorker adds a replication worker to the pool
func (p *ReplicationPool) AddWorker() {
defer p.workerWg.Done()
for {
select {
case <-p.ctx.Done():
return
case oi, ok := <-p.replicaCh:
if !ok {
return
}
replicateObject(p.ctx, oi, p.objLayer, ReplicateIncoming)
case doi, ok := <-p.replicaDeleteCh:
if !ok {
return
}
replicateDelete(p.ctx, doi, p.objLayer, ReplicateDelete)
case <-p.workerKillCh:
return
}
}
}
// AddExistingObjectReplicateWorker adds a worker to queue existing objects that need to be sync'd
func (p *ReplicationPool) AddExistingObjectReplicateWorker() {
for {
select {
case <-p.ctx.Done():
return
case oi, ok := <-p.existingReplicaCh:
if !ok {
return
}
replicateObject(p.ctx, oi, p.objLayer, ReplicateExisting)
case doi, ok := <-p.existingReplicaDeleteCh:
if !ok {
return
}
replicateDelete(p.ctx, doi, p.objLayer, ReplicateExistingDelete)
}
}
}
// ResizeWorkers sets replication workers pool to new size
func (p *ReplicationPool) ResizeWorkers(n int) {
p.mu.Lock()
defer p.mu.Unlock()
for p.workerSize < n {
p.workerSize++
p.workerWg.Add(1)
go p.AddWorker()
}
for p.workerSize > n {
p.workerSize--
go func() { p.workerKillCh <- struct{}{} }()
}
}
// ResizeFailedWorkers sets replication failed workers pool size
func (p *ReplicationPool) ResizeFailedWorkers(n int) {
p.mu.Lock()
defer p.mu.Unlock()
for p.mrfWorkerSize < n {
p.mrfWorkerSize++
p.mrfWorkerWg.Add(1)
go p.AddMRFWorker()
}
for p.mrfWorkerSize > n {
p.mrfWorkerSize--
go func() { p.mrfWorkerKillCh <- struct{}{} }()
}
}
// suggestedWorkers recommends an increase in number of workers to meet replication load.
func (p *ReplicationPool) suggestedWorkers(failQueue bool) int {
if failQueue {
return int(float64(p.mrfWorkerSize) * ReplicationWorkerMultiplier)
}
return int(float64(p.workerSize) * ReplicationWorkerMultiplier)
}
func (p *ReplicationPool) queueReplicaFailedTask(ri ReplicateObjectInfo) {
if p == nil {
return
}
select {
case <-GlobalContext.Done():
p.once.Do(func() {
close(p.replicaCh)
close(p.mrfReplicaCh)
close(p.existingReplicaCh)
})
case p.mrfReplicaCh <- ri:
default:
logger.LogOnceIf(GlobalContext, fmt.Errorf("WARNING: Replication failed workers could not keep up with healing failures - consider increasing number of replication failed workers with `mc admin config set api replication_failed_workers=%d`", p.suggestedWorkers(true)), replicationSubsystem)
}
}
func (p *ReplicationPool) queueReplicaTask(ri ReplicateObjectInfo) {
if p == nil {
return
}
var ch chan ReplicateObjectInfo
switch ri.OpType {
case replication.ExistingObjectReplicationType:
ch = p.existingReplicaCh
case replication.HealReplicationType:
fallthrough
default:
ch = p.replicaCh
}
select {
case <-GlobalContext.Done():
p.once.Do(func() {
close(p.replicaCh)
close(p.mrfReplicaCh)
close(p.existingReplicaCh)
})
case ch <- ri:
default:
logger.LogOnceIf(GlobalContext, fmt.Errorf("WARNING: Replication workers could not keep up with incoming traffic - consider increasing number of replication workers with `mc admin config set api replication_workers=%d`", p.suggestedWorkers(false)), replicationSubsystem)
}
}
func queueReplicateDeletesWrapper(doi DeletedObjectReplicationInfo, existingObjectResync ResyncDecision) {
for k, v := range existingObjectResync.targets {
if v.Replicate {
doi.ResetID = v.ResetID
doi.TargetArn = k
globalReplicationPool.queueReplicaDeleteTask(doi)
}
}
}
func (p *ReplicationPool) queueReplicaDeleteTask(doi DeletedObjectReplicationInfo) {
if p == nil {
return
}
var ch chan DeletedObjectReplicationInfo
switch doi.OpType {
case replication.ExistingObjectReplicationType:
ch = p.existingReplicaDeleteCh
case replication.HealReplicationType:
fallthrough
default:
ch = p.replicaDeleteCh
}
select {
case <-GlobalContext.Done():
p.once.Do(func() {
close(p.replicaDeleteCh)
close(p.existingReplicaDeleteCh)
})
case ch <- doi:
default:
logger.LogOnceIf(GlobalContext, fmt.Errorf("WARNING: Replication workers could not keep up with incoming traffic - consider increasing number of replication workers with `mc admin config set api replication_workers=%d`", p.suggestedWorkers(false)), replicationSubsystem)
}
}
type replicationPoolOpts struct {
Workers int
FailedWorkers int
}
func initBackgroundReplication(ctx context.Context, objectAPI ObjectLayer) {
globalReplicationPool = NewReplicationPool(ctx, objectAPI, replicationPoolOpts{
Workers: globalAPIConfig.getReplicationWorkers(),
FailedWorkers: globalAPIConfig.getReplicationFailedWorkers(),
})
globalReplicationStats = NewReplicationStats(ctx, objectAPI)
go globalReplicationStats.loadInitialReplicationMetrics(ctx)
}
type proxyResult struct {
Proxy bool
Err error
}
// get Reader from replication target if active-active replication is in place and
// this node returns a 404
func proxyGetToReplicationTarget(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, opts ObjectOptions, proxyTargets *madmin.BucketTargets) (gr *GetObjectReader, proxy proxyResult, err error) {
tgt, oi, proxy := proxyHeadToRepTarget(ctx, bucket, object, rs, opts, proxyTargets)
if !proxy.Proxy {
return nil, proxy, nil
}
fn, _, _, err := NewGetObjectReader(nil, oi, opts)
if err != nil {
return nil, proxy, err
}
gopts := miniogo.GetObjectOptions{
VersionID: opts.VersionID,
ServerSideEncryption: opts.ServerSideEncryption,
Internal: miniogo.AdvancedGetOptions{
ReplicationProxyRequest: "true",
},
PartNumber: opts.PartNumber,
}
// get correct offsets for encrypted object
if rs != nil {
h, err := rs.ToHeader()
if err != nil {
return nil, proxy, err
}
gopts.Set(xhttp.Range, h)
}
// Make sure to match ETag when proxying.
if err = gopts.SetMatchETag(oi.ETag); err != nil {
return nil, proxy, err
}
c := miniogo.Core{Client: tgt.Client}
obj, _, h, err := c.GetObject(ctx, bucket, object, gopts)
if err != nil {
return nil, proxy, err
}
closeReader := func() { obj.Close() }
reader, err := fn(obj, h, closeReader)
if err != nil {
return nil, proxy, err
}
reader.ObjInfo = oi.Clone()
if rs != nil {
contentSize, err := parseSizeFromContentRange(h)
if err != nil {
return nil, proxy, err
}
reader.ObjInfo.Size = contentSize
}
return reader, proxyResult{Proxy: true}, nil
}
func getProxyTargets(ctx context.Context, bucket, object string, opts ObjectOptions) (tgts *madmin.BucketTargets) {
if opts.VersionSuspended {
return &madmin.BucketTargets{}
}
cfg, err := getReplicationConfig(ctx, bucket)
if err != nil || cfg == nil {
return &madmin.BucketTargets{}
}
topts := replication.ObjectOpts{Name: object}
tgtArns := cfg.FilterTargetArns(topts)
tgts = &madmin.BucketTargets{Targets: make([]madmin.BucketTarget, len(tgtArns))}
for i, tgtArn := range tgtArns {
tgt := globalBucketTargetSys.GetRemoteBucketTargetByArn(ctx, bucket, tgtArn)
tgts.Targets[i] = tgt
}
return tgts
}
func proxyHeadToRepTarget(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, opts ObjectOptions, proxyTargets *madmin.BucketTargets) (tgt *TargetClient, oi ObjectInfo, proxy proxyResult) {
// this option is set when active-active replication is in place between site A -> B,
// and site B does not have the object yet.
if opts.ProxyRequest || (opts.ProxyHeaderSet && !opts.ProxyRequest) { // true only when site B sets MinIOSourceProxyRequest header
return nil, oi, proxy
}
for _, t := range proxyTargets.Targets {
tgt = globalBucketTargetSys.GetRemoteTargetClient(ctx, t.Arn)
if tgt == nil || tgt.IsOffline() {
continue
}
// if proxying explicitly disabled on remote target
if tgt.disableProxy {
continue
}
gopts := miniogo.GetObjectOptions{
VersionID: opts.VersionID,
ServerSideEncryption: opts.ServerSideEncryption,
Internal: miniogo.AdvancedGetOptions{
ReplicationProxyRequest: "true",
},
PartNumber: opts.PartNumber,
}
if rs != nil {
h, err := rs.ToHeader()
if err != nil {
logger.LogIf(ctx, fmt.Errorf("Invalid range header for %s/%s(%s) - %w", bucket, object, opts.VersionID, err))
continue
}
gopts.Set(xhttp.Range, h)
}
objInfo, err := tgt.StatObject(ctx, t.TargetBucket, object, gopts)
if err != nil {
if isErrInvalidRange(ErrorRespToObjectError(err, bucket, object)) {
return nil, oi, proxyResult{Err: err}
}
continue
}
tags, _ := tags.MapToObjectTags(objInfo.UserTags)
oi = ObjectInfo{
Bucket: bucket,
Name: object,
ModTime: objInfo.LastModified,
Size: objInfo.Size,
ETag: objInfo.ETag,
VersionID: objInfo.VersionID,
IsLatest: objInfo.IsLatest,
DeleteMarker: objInfo.IsDeleteMarker,
ContentType: objInfo.ContentType,
Expires: objInfo.Expires,
StorageClass: objInfo.StorageClass,
ReplicationStatusInternal: objInfo.ReplicationStatus,
UserTags: tags.String(),
}
oi.UserDefined = make(map[string]string, len(objInfo.Metadata))
for k, v := range objInfo.Metadata {
oi.UserDefined[k] = v[0]
}
ce, ok := oi.UserDefined[xhttp.ContentEncoding]
if !ok {
ce, ok = oi.UserDefined[strings.ToLower(xhttp.ContentEncoding)]
}
if ok {
oi.ContentEncoding = ce
}
return tgt, oi, proxyResult{Proxy: true}
}
return nil, oi, proxy
}
// get object info from replication target if active-active replication is in place and
// this node returns a 404
func proxyHeadToReplicationTarget(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, opts ObjectOptions, proxyTargets *madmin.BucketTargets) (oi ObjectInfo, proxy proxyResult) {
_, oi, proxy = proxyHeadToRepTarget(ctx, bucket, object, rs, opts, proxyTargets)
return oi, proxy
}
func scheduleReplication(ctx context.Context, objInfo ObjectInfo, o ObjectLayer, dsc ReplicateDecision, opType replication.Type) {
if dsc.Synchronous() {
replicateObject(ctx, ReplicateObjectInfo{ObjectInfo: objInfo, OpType: opType, Dsc: dsc}, o, ReplicateIncoming)
} else {
globalReplicationPool.queueReplicaTask(ReplicateObjectInfo{ObjectInfo: objInfo, OpType: opType, Dsc: dsc})
}
if sz, err := objInfo.GetActualSize(); err == nil {
for arn := range dsc.targetsMap {
globalReplicationStats.Update(objInfo.Bucket, arn, sz, 0, objInfo.ReplicationStatus, replication.StatusType(""), opType)
}
}
}
func scheduleReplicationDelete(ctx context.Context, dv DeletedObjectReplicationInfo, o ObjectLayer) {
globalReplicationPool.queueReplicaDeleteTask(dv)
for arn := range dv.ReplicationState.Targets {
globalReplicationStats.Update(dv.Bucket, arn, 0, 0, replication.Pending, replication.StatusType(""), replication.DeleteReplicationType)
}
for arn := range dv.ReplicationState.PurgeTargets {
globalReplicationStats.Update(dv.Bucket, arn, 0, 0, replication.Pending, replication.StatusType(""), replication.DeleteReplicationType)
}
}
type replicationConfig struct {
Config *replication.Config
remotes *madmin.BucketTargets
}
func (c replicationConfig) Empty() bool {
return c.Config == nil
}
func (c replicationConfig) Replicate(opts replication.ObjectOpts) bool {
return c.Config.Replicate(opts)
}
// Resync returns true if replication reset is requested
func (c replicationConfig) Resync(ctx context.Context, oi ObjectInfo, dsc *ReplicateDecision, tgtStatuses map[string]replication.StatusType) (r ResyncDecision) {
if c.Empty() {
return
}
// existing object replication does not apply to un-versioned objects
if oi.VersionID == "" {
return
}
// Now overlay existing object replication choices for target
if oi.DeleteMarker {
opts := replication.ObjectOpts{
Name: oi.Name,
SSEC: crypto.SSEC.IsEncrypted(oi.UserDefined),
UserTags: oi.UserTags,
DeleteMarker: oi.DeleteMarker,
VersionID: oi.VersionID,
OpType: replication.DeleteReplicationType,
ExistingObject: true,
}
tgtArns := c.Config.FilterTargetArns(opts)
// indicates no matching target with Existing object replication enabled.
if len(tgtArns) == 0 {
return
}
for _, t := range tgtArns {
opts.TargetArn = t
// Update replication decision for target based on existing object replciation rule.
dsc.Set(newReplicateTargetDecision(t, c.Replicate(opts), false))
}
return c.resync(oi, dsc, tgtStatuses)
}
// Ignore previous replication status when deciding if object can be re-replicated
objInfo := oi.Clone()
objInfo.ReplicationStatusInternal = ""
objInfo.VersionPurgeStatusInternal = ""
objInfo.ReplicationStatus = ""
objInfo.VersionPurgeStatus = ""
resyncdsc := mustReplicate(ctx, oi.Bucket, oi.Name, getMustReplicateOptions(objInfo, replication.ExistingObjectReplicationType, ObjectOptions{}))
dsc = &resyncdsc
return c.resync(oi, dsc, tgtStatuses)
}
// wrapper function for testability. Returns true if a new reset is requested on
// already replicated objects OR object qualifies for existing object replication
// and no reset requested.
func (c replicationConfig) resync(oi ObjectInfo, dsc *ReplicateDecision, tgtStatuses map[string]replication.StatusType) (r ResyncDecision) {
r = ResyncDecision{
targets: make(map[string]ResyncTargetDecision),
}
if c.remotes == nil {
return
}
for _, tgt := range c.remotes.Targets {
d, ok := dsc.targetsMap[tgt.Arn]
if !ok {
continue
}
if !d.Replicate {
continue
}
r.targets[d.Arn] = resyncTarget(oi, tgt.Arn, tgt.ResetID, tgt.ResetBeforeDate, tgtStatuses[tgt.Arn])
}
return
}
func targetResetHeader(arn string) string {
return fmt.Sprintf("%s-%s", ReservedMetadataPrefixLower+ReplicationReset, arn)
}
func resyncTarget(oi ObjectInfo, arn string, resetID string, resetBeforeDate time.Time, tgtStatus replication.StatusType) (rd ResyncTargetDecision) {
rd = ResyncTargetDecision{
ResetID: resetID,
ResetBeforeDate: resetBeforeDate,
}
rs, ok := oi.UserDefined[targetResetHeader(arn)]
if !ok {
rs, ok = oi.UserDefined[xhttp.MinIOReplicationResetStatus] // for backward compatibility
}
if !ok { // existing object replication is enabled and object version is unreplicated so far.
if resetID != "" && oi.ModTime.Before(resetBeforeDate) { // trigger replication if `mc replicate reset` requested
rd.Replicate = true
return
}
// For existing object reset - this condition is needed
rd.Replicate = tgtStatus == ""
return
}
if resetID == "" || resetBeforeDate.Equal(timeSentinel) { // no reset in progress
return
}
// if already replicated, return true if a new reset was requested.
splits := strings.SplitN(rs, ";", 2)
if len(splits) != 2 {
return
}
newReset := splits[1] != resetID
if !newReset && tgtStatus == replication.Completed {
// already replicated and no reset requested
return
}
rd.Replicate = newReset && oi.ModTime.Before(resetBeforeDate)
return
}
func getAllLatestReplicationStats(bucketsUsage map[string]BucketUsageInfo) (bucketsReplicationStats map[string]BucketReplicationStats) {
peerBucketStatsList := globalNotificationSys.GetClusterAllBucketStats(GlobalContext)
bucketsReplicationStats = make(map[string]BucketReplicationStats, len(bucketsUsage))
for bucket, u := range bucketsUsage {
bucketStats := make([]BucketStats, len(peerBucketStatsList))
for i, peerBucketStats := range peerBucketStatsList {
bucketStat, ok := peerBucketStats[bucket]
if !ok {
continue
}
bucketStats[i] = bucketStat
}
bucketsReplicationStats[bucket] = calculateBucketReplicationStats(bucket, u, bucketStats)
}
return bucketsReplicationStats
}
func calculateBucketReplicationStats(bucket string, u BucketUsageInfo, bucketStats []BucketStats) (s BucketReplicationStats) {
// accumulate cluster bucket stats
stats := make(map[string]*BucketReplicationStat)
var totReplicaSize int64
for _, bucketStat := range bucketStats {
totReplicaSize += bucketStat.ReplicationStats.ReplicaSize
for arn, stat := range bucketStat.ReplicationStats.Stats {
oldst := stats[arn]
if oldst == nil {
oldst = &BucketReplicationStat{}
}
stats[arn] = &BucketReplicationStat{
FailedCount: stat.FailedCount + oldst.FailedCount,
FailedSize: stat.FailedSize + oldst.FailedSize,
ReplicatedSize: stat.ReplicatedSize + oldst.ReplicatedSize,
Latency: stat.Latency.merge(oldst.Latency),
}
}
}
// add initial usage stat to cluster stats
usageStat := globalReplicationStats.GetInitialUsage(bucket)
totReplicaSize += usageStat.ReplicaSize
for arn, stat := range usageStat.Stats {
st, ok := stats[arn]
if !ok {
st = &BucketReplicationStat{}
stats[arn] = st
}
st.ReplicatedSize += stat.ReplicatedSize
st.FailedSize += stat.FailedSize
st.FailedCount += stat.FailedCount
}
s = BucketReplicationStats{
Stats: make(map[string]*BucketReplicationStat, len(stats)),
}
var latestTotReplicatedSize int64
for _, st := range u.ReplicationInfo {
latestTotReplicatedSize += int64(st.ReplicatedSize)
}
// normalize computed real time stats with latest usage stat
for arn, tgtstat := range stats {
st := BucketReplicationStat{}
bu, ok := u.ReplicationInfo[arn]
if !ok {
bu = BucketTargetUsageInfo{}
}
// use in memory replication stats if it is ahead of usage info.
st.ReplicatedSize = int64(bu.ReplicatedSize)
if tgtstat.ReplicatedSize >= int64(bu.ReplicatedSize) {
st.ReplicatedSize = tgtstat.ReplicatedSize
}
s.ReplicatedSize += st.ReplicatedSize
// Reset FailedSize and FailedCount to 0 for negative overflows which can
// happen since data usage picture can lag behind actual usage state at the time of cluster start
st.FailedSize = int64(math.Max(float64(tgtstat.FailedSize), 0))
st.FailedCount = int64(math.Max(float64(tgtstat.FailedCount), 0))
st.Latency = tgtstat.Latency
s.Stats[arn] = &st
s.FailedSize += st.FailedSize
s.FailedCount += st.FailedCount
}
// normalize overall stats
s.ReplicaSize = int64(math.Max(float64(totReplicaSize), float64(u.ReplicaSize)))
s.ReplicatedSize = int64(math.Max(float64(s.ReplicatedSize), float64(latestTotReplicatedSize)))
return s
}
// get the most current of in-memory replication stats and data usage info from crawler.
func getLatestReplicationStats(bucket string, u BucketUsageInfo) (s BucketReplicationStats) {
bucketStats := globalNotificationSys.GetClusterBucketStats(GlobalContext, bucket)
return calculateBucketReplicationStats(bucket, u, bucketStats)
}
const resyncTimeInterval = time.Minute * 10
// periodicResyncMetaSave saves in-memory resync meta stats to disk in periodic intervals
func (p *ReplicationPool) periodicResyncMetaSave(ctx context.Context, objectAPI ObjectLayer) {
resyncTimer := time.NewTimer(resyncTimeInterval)
defer resyncTimer.Stop()
for {
select {
case <-resyncTimer.C:
now := UTCNow()
p.resyncState.RLock()
for bucket, brs := range p.resyncState.statusMap {
var updt bool
for _, st := range brs.TargetsMap {
// if resync in progress or just ended, needs to save to disk
if st.EndTime.Equal(timeSentinel) || now.Sub(st.EndTime) <= resyncTimeInterval {
updt = true
break
}
}
if updt {
brs.LastUpdate = now
if err := saveResyncStatus(ctx, bucket, brs, objectAPI); err != nil {
logger.LogIf(ctx, fmt.Errorf("Could not save resync metadata to disk for %s - %w", bucket, err))
continue
}
}
}
p.resyncState.RUnlock()
resyncTimer.Reset(resyncTimeInterval)
case <-ctx.Done():
// server could be restarting - need
// to exit immediately
return
}
}
}
// resyncBucket resyncs all qualifying objects as per replication rules for the target
// ARN
func resyncBucket(ctx context.Context, bucket, arn string, heal bool, objectAPI ObjectLayer) {
resyncStatus := ResyncFailed
defer func() {
globalReplicationPool.resyncState.Lock()
m := globalReplicationPool.resyncState.statusMap[bucket]
st := m.TargetsMap[arn]
st.EndTime = UTCNow()
st.ResyncStatus = resyncStatus
m.TargetsMap[arn] = st
globalReplicationPool.resyncState.Unlock()
}()
// Allocate new results channel to receive ObjectInfo.
objInfoCh := make(chan ObjectInfo)
cfg, err := getReplicationConfig(ctx, bucket)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("Replication resync of %s for arn %s failed with %w", bucket, arn, err))
return
}
tgts, err := globalBucketTargetSys.ListBucketTargets(ctx, bucket)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("Replication resync of %s for arn %s failed %w", bucket, arn, err))
return
}
rcfg := replicationConfig{
Config: cfg,
remotes: tgts,
}
tgtArns := cfg.FilterTargetArns(
replication.ObjectOpts{
OpType: replication.ResyncReplicationType,
TargetArn: arn,
})
if len(tgtArns) != 1 {
logger.LogIf(ctx, fmt.Errorf("Replication resync failed for %s - arn specified %s is missing in the replication config", bucket, arn))
return
}
tgt := globalBucketTargetSys.GetRemoteTargetClient(ctx, arn)
if tgt == nil {
logger.LogIf(ctx, fmt.Errorf("Replication resync failed for %s - target could not be created for arn %s", bucket, arn))
return
}
// Walk through all object versions - note ascending order of walk needed to ensure delete marker replicated to
// target after object version is first created.
if err := objectAPI.Walk(ctx, bucket, "", objInfoCh, ObjectOptions{WalkAscending: true}); err != nil {
logger.LogIf(ctx, err)
return
}
globalReplicationPool.resyncState.RLock()
m := globalReplicationPool.resyncState.statusMap[bucket]
st := m.TargetsMap[arn]
globalReplicationPool.resyncState.RUnlock()
var lastCheckpoint string
if st.ResyncStatus == ResyncStarted || st.ResyncStatus == ResyncFailed {
lastCheckpoint = st.Object
}
for obj := range objInfoCh {
if heal && lastCheckpoint != "" && lastCheckpoint != obj.Name {
continue
}
lastCheckpoint = ""
roi := getHealReplicateObjectInfo(obj, rcfg)
if !roi.ExistingObjResync.mustResync() {
continue
}
if roi.DeleteMarker || !roi.VersionPurgeStatus.Empty() {
versionID := ""
dmVersionID := ""
if roi.VersionPurgeStatus.Empty() {
dmVersionID = roi.VersionID
} else {
versionID = roi.VersionID
}
doi := DeletedObjectReplicationInfo{
DeletedObject: DeletedObject{
ObjectName: roi.Name,
DeleteMarkerVersionID: dmVersionID,
VersionID: versionID,
ReplicationState: roi.getReplicationState(roi.Dsc.String(), versionID, true),
DeleteMarkerMTime: DeleteMarkerMTime{roi.ModTime},
DeleteMarker: roi.DeleteMarker,
},
Bucket: roi.Bucket,
OpType: replication.ExistingObjectReplicationType,
}
replicateDelete(ctx, doi, objectAPI, ReplicateDelete)
} else {
roi.OpType = replication.ExistingObjectReplicationType
replicateObject(ctx, roi, objectAPI, ReplicateExisting)
}
_, err = tgt.StatObject(ctx, tgt.Bucket, roi.Name, miniogo.StatObjectOptions{
VersionID: roi.VersionID,
Internal: miniogo.AdvancedGetOptions{
ReplicationProxyRequest: "false",
},
})
globalReplicationPool.resyncState.Lock()
m = globalReplicationPool.resyncState.statusMap[bucket]
st = m.TargetsMap[arn]
st.Object = roi.Name
if err != nil {
if roi.DeleteMarker && isErrMethodNotAllowed(ErrorRespToObjectError(err, bucket, roi.Name)) {
st.ReplicatedCount++
} else {
st.FailedCount++
}
} else {
st.ReplicatedCount++
st.ReplicatedSize += roi.Size
}
m.TargetsMap[arn] = st
globalReplicationPool.resyncState.Unlock()
}
resyncStatus = ResyncCompleted
}
// start replication resync for the remote target ARN specified
func startReplicationResync(ctx context.Context, bucket, arn, resyncID string, resyncBeforeDate time.Time, objAPI ObjectLayer) error {
if bucket == "" {
return fmt.Errorf("bucket name is empty")
}
if arn == "" {
return fmt.Errorf("target ARN specified for resync is empty")
}
// Check if the current bucket has quota restrictions, if not skip it
cfg, err := getReplicationConfig(ctx, bucket)
if err != nil {
return err
}
tgtArns := cfg.FilterTargetArns(
replication.ObjectOpts{
OpType: replication.ResyncReplicationType,
TargetArn: arn,
})
if len(tgtArns) == 0 {
return fmt.Errorf("arn %s specified for resync not found in replication config", arn)
}
data, err := loadBucketResyncMetadata(ctx, bucket, objAPI)
if err != nil {
return err
}
// validate if resync is in progress for this arn
for tArn, st := range data.TargetsMap {
if arn == tArn && st.ResyncStatus == ResyncStarted {
return fmt.Errorf("Resync of bucket %s is already in progress for remote bucket %s", bucket, arn)
}
}
status := TargetReplicationResyncStatus{
ResyncID: resyncID,
ResyncBeforeDate: resyncBeforeDate,
StartTime: UTCNow(),
ResyncStatus: ResyncStarted,
Bucket: bucket,
}
data.TargetsMap[arn] = status
if err = saveResyncStatus(ctx, bucket, data, objAPI); err != nil {
return err
}
globalReplicationPool.resyncState.Lock()
defer globalReplicationPool.resyncState.Unlock()
brs, ok := globalReplicationPool.resyncState.statusMap[bucket]
if !ok {
brs = BucketReplicationResyncStatus{
Version: resyncMetaVersion,
TargetsMap: make(map[string]TargetReplicationResyncStatus),
}
}
brs.TargetsMap[arn] = status
globalReplicationPool.resyncState.statusMap[bucket] = brs
go resyncBucket(GlobalContext, bucket, arn, false, objAPI)
return nil
}
// delete resync metadata from replication resync state in memory
func (p *ReplicationPool) deleteResyncMetadata(ctx context.Context, bucket string) {
if p == nil {
return
}
p.resyncState.Lock()
delete(p.resyncState.statusMap, bucket)
defer p.resyncState.Unlock()
}
// initResync - initializes bucket replication resync for all buckets.
func (p *ReplicationPool) initResync(ctx context.Context, buckets []BucketInfo, objAPI ObjectLayer) error {
if objAPI == nil {
return errServerNotInitialized
}
// Load bucket metadata sys in background
go p.loadResync(ctx, buckets, objAPI)
return nil
}
// Loads bucket replication resync statuses into memory.
func (p *ReplicationPool) loadResync(ctx context.Context, buckets []BucketInfo, objAPI ObjectLayer) {
for index := range buckets {
meta, err := loadBucketResyncMetadata(ctx, buckets[index].Name, objAPI)
if err != nil {
if errors.Is(err, errVolumeNotFound) {
meta = newBucketResyncStatus(buckets[index].Name)
} else {
logger.LogIf(ctx, err)
continue
}
}
p.resyncState.statusMap[buckets[index].Name] = meta
}
for index := range buckets {
bucket := buckets[index].Name
m, ok := p.resyncState.statusMap[bucket]
if ok {
for arn, st := range m.TargetsMap {
if st.ResyncStatus == ResyncFailed || st.ResyncStatus == ResyncStarted {
go resyncBucket(ctx, bucket, arn, true, objAPI)
}
}
}
}
}
// load bucket resync metadata from disk
func loadBucketResyncMetadata(ctx context.Context, bucket string, objAPI ObjectLayer) (brs BucketReplicationResyncStatus, e error) {
brs = newBucketResyncStatus(bucket)
resyncDirPath := path.Join(bucketMetaPrefix, bucket, replicationDir)
data, err := readConfig(GlobalContext, objAPI, pathJoin(resyncDirPath, resyncFileName))
if err != nil && err != errConfigNotFound {
return brs, err
}
if len(data) == 0 {
// Seems to be empty.
return brs, nil
}
if len(data) <= 4 {
return brs, fmt.Errorf("replication resync: no data")
}
// Read resync meta header
switch binary.LittleEndian.Uint16(data[0:2]) {
case resyncMetaFormat:
default:
return brs, fmt.Errorf("resyncMeta: unknown format: %d", binary.LittleEndian.Uint16(data[0:2]))
}
switch binary.LittleEndian.Uint16(data[2:4]) {
case resyncMetaVersion:
default:
return brs, fmt.Errorf("resyncMeta: unknown version: %d", binary.LittleEndian.Uint16(data[2:4]))
}
// OK, parse data.
if _, err = brs.UnmarshalMsg(data[4:]); err != nil {
return brs, err
}
switch brs.Version {
case resyncMetaVersionV1:
default:
return brs, fmt.Errorf("unexpected resync meta version: %d", brs.Version)
}
return brs, nil
}
// save resync status to resync.bin
func saveResyncStatus(ctx context.Context, bucket string, brs BucketReplicationResyncStatus, objectAPI ObjectLayer) error {
data := make([]byte, 4, brs.Msgsize()+4)
// Initialize the resync meta header.
binary.LittleEndian.PutUint16(data[0:2], resyncMetaFormat)
binary.LittleEndian.PutUint16(data[2:4], resyncMetaVersion)
buf, err := brs.MarshalMsg(data)
if err != nil {
return err
}
configFile := path.Join(bucketMetaPrefix, bucket, replicationDir, resyncFileName)
return saveConfig(ctx, objectAPI, configFile, buf)
}
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