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storj/satellite/audit/verifier.go
Kaloyan Raev 53b7fd7b00 satellite/{audit,gracefulexit}: remove logic for PieceHashesVerified 
We now have the piece hashes verified for all segments on all production
satellites. We can remove the code that handles the case where piece
hashes are not verified. This would make easier the migration of
services from PointerDB to the new metabase.

For consistency, PieceHashesVerified is still set to true in PointerDB
for new segments.

Change-Id: Idf0ccce4c8d01ae812f11e8384a7221d90d4c183
2020-11-24 11:09:48 +02:00

843 lines
29 KiB
Go
Raw Blame History

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package audit
import (
"bytes"
"context"
"io"
"math/rand"
"time"
"github.com/spacemonkeygo/monkit/v3"
"github.com/vivint/infectious"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/common/errs2"
"storj.io/common/identity"
"storj.io/common/memory"
"storj.io/common/pb"
"storj.io/common/pkcrypto"
"storj.io/common/rpc"
"storj.io/common/rpc/rpcstatus"
"storj.io/common/storj"
"storj.io/storj/satellite/metainfo"
"storj.io/storj/satellite/metainfo/metabase"
"storj.io/storj/satellite/orders"
"storj.io/storj/satellite/overlay"
"storj.io/uplink/private/eestream"
"storj.io/uplink/private/piecestore"
)
var (
mon = monkit.Package()
// ErrNotEnoughShares is the errs class for when not enough shares are available to do an audit.
ErrNotEnoughShares = errs.Class("not enough shares for successful audit")
// ErrSegmentDeleted is the errs class when the audited segment was deleted during the audit.
ErrSegmentDeleted = errs.Class("segment deleted during audit")
// ErrSegmentModified is the errs class used when a segment has been changed in any way.
ErrSegmentModified = errs.Class("segment has been modified")
)
// Share represents required information about an audited share.
type Share struct {
Error error
PieceNum int
NodeID storj.NodeID
Data []byte
}
// Verifier helps verify the correctness of a given stripe
//
// architecture: Worker
type Verifier struct {
log *zap.Logger
metainfo *metainfo.Service
orders *orders.Service
auditor *identity.PeerIdentity
dialer rpc.Dialer
overlay *overlay.Service
containment Containment
minBytesPerSecond memory.Size
minDownloadTimeout time.Duration
OnTestingCheckSegmentAlteredHook func()
}
// NewVerifier creates a Verifier.
func NewVerifier(log *zap.Logger, metainfo *metainfo.Service, dialer rpc.Dialer, overlay *overlay.Service, containment Containment, orders *orders.Service, id *identity.FullIdentity, minBytesPerSecond memory.Size, minDownloadTimeout time.Duration) *Verifier {
return &Verifier{
log: log,
metainfo: metainfo,
orders: orders,
auditor: id.PeerIdentity(),
dialer: dialer,
overlay: overlay,
containment: containment,
minBytesPerSecond: minBytesPerSecond,
minDownloadTimeout: minDownloadTimeout,
}
}
// Verify downloads shares then verifies the data correctness at a random stripe.
func (verifier *Verifier) Verify(ctx context.Context, path storj.Path, skip map[storj.NodeID]bool) (report Report, err error) {
defer mon.Task()(&ctx)(&err)
pointerBytes, pointer, err := verifier.metainfo.GetWithBytes(ctx, metabase.SegmentKey(path))
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
verifier.log.Debug("segment deleted before Verify")
return Report{}, nil
}
return Report{}, err
}
if pointer.ExpirationDate != (time.Time{}) && pointer.ExpirationDate.Before(time.Now()) {
verifier.log.Debug("segment expired before Verify")
return Report{}, nil
}
randomIndex, err := GetRandomStripe(ctx, pointer)
if err != nil {
return Report{}, err
}
shareSize := pointer.GetRemote().GetRedundancy().GetErasureShareSize()
segmentLocation, err := metabase.ParseSegmentKey(metabase.SegmentKey(path))
if err != nil {
return Report{}, err
}
var offlineNodes storj.NodeIDList
var failedNodes storj.NodeIDList
var unknownNodes storj.NodeIDList
containedNodes := make(map[int]storj.NodeID)
sharesToAudit := make(map[int]Share)
orderLimits, privateKey, cachedIPsAndPorts, err := verifier.orders.CreateAuditOrderLimits(ctx, segmentLocation.Bucket(), pointer, skip)
if err != nil {
return Report{}, err
}
// NOTE offlineNodes will include disqualified nodes because they aren't in
// the skip list
offlineNodes = getOfflineNodes(pointer, orderLimits, skip)
if len(offlineNodes) > 0 {
verifier.log.Debug("Verify: order limits not created for some nodes (offline/disqualified)",
zap.Strings("Node IDs", offlineNodes.Strings()))
}
shares, err := verifier.DownloadShares(ctx, orderLimits, privateKey, cachedIPsAndPorts, randomIndex, shareSize)
if err != nil {
return Report{
Offlines: offlineNodes,
}, err
}
err = verifier.checkIfSegmentAltered(ctx, path, pointer, pointerBytes)
if err != nil {
if ErrSegmentDeleted.Has(err) {
verifier.log.Debug("segment deleted during Verify")
return Report{}, nil
}
if ErrSegmentModified.Has(err) {
verifier.log.Debug("segment modified during Verify")
return Report{}, nil
}
return Report{
Offlines: offlineNodes,
}, err
}
for pieceNum, share := range shares {
if share.Error == nil {
// no error -- share downloaded successfully
sharesToAudit[pieceNum] = share
continue
}
if rpc.Error.Has(share.Error) {
if errs.Is(share.Error, context.DeadlineExceeded) {
// dial timeout
offlineNodes = append(offlineNodes, share.NodeID)
verifier.log.Debug("Verify: dial timeout (offline)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
continue
}
if errs2.IsRPC(share.Error, rpcstatus.Unknown) {
// dial failed -- offline node
offlineNodes = append(offlineNodes, share.NodeID)
verifier.log.Debug("Verify: dial failed (offline)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
continue
}
// unknown transport error
unknownNodes = append(unknownNodes, share.NodeID)
verifier.log.Info("Verify: unknown transport error (skipped)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
continue
}
if errs2.IsRPC(share.Error, rpcstatus.NotFound) {
// missing share
failedNodes = append(failedNodes, share.NodeID)
verifier.log.Info("Verify: piece not found (audit failed)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
continue
}
if errs2.IsRPC(share.Error, rpcstatus.DeadlineExceeded) {
// dial successful, but download timed out
containedNodes[pieceNum] = share.NodeID
verifier.log.Info("Verify: download timeout (contained)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
continue
}
// unknown error
unknownNodes = append(unknownNodes, share.NodeID)
verifier.log.Info("Verify: unknown error (skipped)",
zap.Stringer("Node ID", share.NodeID),
zap.Error(share.Error))
}
mon.IntVal("verify_shares_downloaded_successfully").Observe(int64(len(sharesToAudit))) //mon:locked
required := int(pointer.Remote.Redundancy.GetMinReq())
total := int(pointer.Remote.Redundancy.GetTotal())
if len(sharesToAudit) < required {
mon.Counter("not_enough_shares_for_audit").Inc(1)
return Report{
Fails: failedNodes,
Offlines: offlineNodes,
Unknown: unknownNodes,
}, ErrNotEnoughShares.New("got %d, required %d", len(sharesToAudit), required)
}
// ensure we get values, even if only zero values, so that redash can have an alert based on this
mon.Counter("not_enough_shares_for_audit").Inc(0)
pieceNums, correctedShares, err := auditShares(ctx, required, total, sharesToAudit)
if err != nil {
return Report{
Fails: failedNodes,
Offlines: offlineNodes,
Unknown: unknownNodes,
}, err
}
for _, pieceNum := range pieceNums {
failedNodes = append(failedNodes, shares[pieceNum].NodeID)
}
successNodes := getSuccessNodes(ctx, shares, failedNodes, offlineNodes, unknownNodes, containedNodes)
totalInPointer := len(pointer.GetRemote().GetRemotePieces())
numOffline := len(offlineNodes)
numSuccessful := len(successNodes)
numFailed := len(failedNodes)
numContained := len(containedNodes)
numUnknown := len(unknownNodes)
totalAudited := numSuccessful + numFailed + numOffline + numContained
auditedPercentage := float64(totalAudited) / float64(totalInPointer)
offlinePercentage := float64(0)
successfulPercentage := float64(0)
failedPercentage := float64(0)
containedPercentage := float64(0)
unknownPercentage := float64(0)
if totalAudited > 0 {
offlinePercentage = float64(numOffline) / float64(totalAudited)
successfulPercentage = float64(numSuccessful) / float64(totalAudited)
failedPercentage = float64(numFailed) / float64(totalAudited)
containedPercentage = float64(numContained) / float64(totalAudited)
unknownPercentage = float64(numUnknown) / float64(totalAudited)
}
mon.Meter("audit_success_nodes_global").Mark(numSuccessful) //mon:locked
mon.Meter("audit_fail_nodes_global").Mark(numFailed) //mon:locked
mon.Meter("audit_offline_nodes_global").Mark(numOffline) //mon:locked
mon.Meter("audit_contained_nodes_global").Mark(numContained) //mon:locked
mon.Meter("audit_unknown_nodes_global").Mark(numUnknown) //mon:locked
mon.Meter("audit_total_nodes_global").Mark(totalAudited) //mon:locked
mon.Meter("audit_total_pointer_nodes_global").Mark(totalInPointer) //mon:locked
mon.IntVal("audit_success_nodes").Observe(int64(numSuccessful)) //mon:locked
mon.IntVal("audit_fail_nodes").Observe(int64(numFailed)) //mon:locked
mon.IntVal("audit_offline_nodes").Observe(int64(numOffline)) //mon:locked
mon.IntVal("audit_contained_nodes").Observe(int64(numContained)) //mon:locked
mon.IntVal("audit_unknown_nodes").Observe(int64(numUnknown)) //mon:locked
mon.IntVal("audit_total_nodes").Observe(int64(totalAudited)) //mon:locked
mon.IntVal("audit_total_pointer_nodes").Observe(int64(totalInPointer)) //mon:locked
mon.FloatVal("audited_percentage").Observe(auditedPercentage) //mon:locked
mon.FloatVal("audit_offline_percentage").Observe(offlinePercentage) //mon:locked
mon.FloatVal("audit_successful_percentage").Observe(successfulPercentage) //mon:locked
mon.FloatVal("audit_failed_percentage").Observe(failedPercentage) //mon:locked
mon.FloatVal("audit_contained_percentage").Observe(containedPercentage) //mon:locked
mon.FloatVal("audit_unknown_percentage").Observe(unknownPercentage) //mon:locked
pendingAudits, err := createPendingAudits(ctx, containedNodes, correctedShares, pointer, randomIndex, path)
if err != nil {
return Report{
Successes: successNodes,
Fails: failedNodes,
Offlines: offlineNodes,
Unknown: unknownNodes,
}, err
}
return Report{
Successes: successNodes,
Fails: failedNodes,
Offlines: offlineNodes,
PendingAudits: pendingAudits,
Unknown: unknownNodes,
}, nil
}
// DownloadShares downloads shares from the nodes where remote pieces are located.
func (verifier *Verifier) DownloadShares(ctx context.Context, limits []*pb.AddressedOrderLimit, piecePrivateKey storj.PiecePrivateKey, cachedIPsAndPorts map[storj.NodeID]string, stripeIndex int64, shareSize int32) (shares map[int]Share, err error) {
defer mon.Task()(&ctx)(&err)
shares = make(map[int]Share, len(limits))
ch := make(chan *Share, len(limits))
for i, limit := range limits {
if limit == nil {
ch <- nil
continue
}
ip := cachedIPsAndPorts[limit.Limit.StorageNodeId]
go func(i int, limit *pb.AddressedOrderLimit) {
share, err := verifier.GetShare(ctx, limit, piecePrivateKey, ip, stripeIndex, shareSize, i)
if err != nil {
share = Share{
Error: err,
PieceNum: i,
NodeID: limit.GetLimit().StorageNodeId,
Data: nil,
}
}
ch <- &share
}(i, limit)
}
for range limits {
share := <-ch
if share != nil {
shares[share.PieceNum] = *share
}
}
return shares, nil
}
// Reverify reverifies the contained nodes in the stripe.
func (verifier *Verifier) Reverify(ctx context.Context, path storj.Path) (report Report, err error) {
defer mon.Task()(&ctx)(&err)
// result status enum
const (
skipped = iota
success
offline
failed
contained
unknown
erred
)
type result struct {
nodeID storj.NodeID
status int
pendingAudit *PendingAudit
err error
}
pointer, err := verifier.metainfo.Get(ctx, metabase.SegmentKey(path))
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
verifier.log.Debug("segment deleted before Reverify")
return Report{}, nil
}
return Report{}, err
}
if pointer.ExpirationDate != (time.Time{}) && pointer.ExpirationDate.Before(time.Now()) {
verifier.log.Debug("Segment expired before Reverify")
return Report{}, nil
}
pieces := pointer.GetRemote().GetRemotePieces()
ch := make(chan result, len(pieces))
var containedInSegment int64
for _, piece := range pieces {
pending, err := verifier.containment.Get(ctx, piece.NodeId)
if err != nil {
if ErrContainedNotFound.Has(err) {
ch <- result{nodeID: piece.NodeId, status: skipped}
continue
}
ch <- result{nodeID: piece.NodeId, status: erred, err: err}
verifier.log.Debug("Reverify: error getting from containment db", zap.Stringer("Node ID", piece.NodeId), zap.Error(err))
continue
}
containedInSegment++
go func(pending *PendingAudit) {
pendingPointerBytes, pendingPointer, err := verifier.metainfo.GetWithBytes(ctx, metabase.SegmentKey(pending.Path))
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
ch <- result{nodeID: pending.NodeID, status: skipped}
return
}
ch <- result{nodeID: pending.NodeID, status: erred, err: err}
verifier.log.Debug("Reverify: error getting pending pointer from metainfo", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
if pendingPointer.ExpirationDate != (time.Time{}) && pendingPointer.ExpirationDate.Before(time.Now().UTC()) {
verifier.log.Debug("Reverify: segment already expired", zap.Stringer("Node ID", pending.NodeID))
ch <- result{nodeID: pending.NodeID, status: skipped}
return
}
if pendingPointer.GetRemote().RootPieceId != pending.PieceID {
ch <- result{nodeID: pending.NodeID, status: skipped}
return
}
var pieceNum int32
found := false
for _, piece := range pendingPointer.GetRemote().GetRemotePieces() {
if piece.NodeId == pending.NodeID {
pieceNum = piece.PieceNum
found = true
}
}
if !found {
ch <- result{nodeID: pending.NodeID, status: skipped}
return
}
segmentLocation, err := metabase.ParseSegmentKey(metabase.SegmentKey(pending.Path)) // TODO: this should be parsed in pending
if err != nil {
ch <- result{nodeID: pending.NodeID, status: skipped}
return
}
limit, piecePrivateKey, cachedIPAndPort, err := verifier.orders.CreateAuditOrderLimit(ctx, segmentLocation.Bucket(), pending.NodeID, pieceNum, pending.PieceID, pending.ShareSize)
if err != nil {
if overlay.ErrNodeDisqualified.Has(err) {
_, errDelete := verifier.containment.Delete(ctx, pending.NodeID)
if errDelete != nil {
verifier.log.Debug("Error deleting disqualified node from containment db", zap.Stringer("Node ID", pending.NodeID), zap.Error(errDelete))
}
ch <- result{nodeID: pending.NodeID, status: erred, err: err}
verifier.log.Debug("Reverify: order limit not created (disqualified)", zap.Stringer("Node ID", pending.NodeID))
return
}
if overlay.ErrNodeFinishedGE.Has(err) {
_, errDelete := verifier.containment.Delete(ctx, pending.NodeID)
if errDelete != nil {
verifier.log.Debug("Error deleting gracefully exited node from containment db", zap.Stringer("Node ID", pending.NodeID), zap.Error(errDelete))
}
ch <- result{nodeID: pending.NodeID, status: erred, err: err}
verifier.log.Debug("Reverify: order limit not created (completed graceful exit)", zap.Stringer("Node ID", pending.NodeID))
return
}
if overlay.ErrNodeOffline.Has(err) {
ch <- result{nodeID: pending.NodeID, status: offline}
verifier.log.Debug("Reverify: order limit not created (offline)", zap.Stringer("Node ID", pending.NodeID))
return
}
ch <- result{nodeID: pending.NodeID, status: erred, err: err}
verifier.log.Debug("Reverify: error creating order limit", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
share, err := verifier.GetShare(ctx, limit, piecePrivateKey, cachedIPAndPort, pending.StripeIndex, pending.ShareSize, int(pieceNum))
// check if the pending audit was deleted while downloading the share
_, getErr := verifier.containment.Get(ctx, pending.NodeID)
if getErr != nil {
if ErrContainedNotFound.Has(getErr) {
ch <- result{nodeID: pending.NodeID, status: skipped}
verifier.log.Debug("Reverify: pending audit deleted during reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(getErr))
return
}
ch <- result{nodeID: pending.NodeID, status: erred, err: getErr}
verifier.log.Debug("Reverify: error getting from containment db", zap.Stringer("Node ID", pending.NodeID), zap.Error(getErr))
return
}
// analyze the error from GetShare
if err != nil {
if rpc.Error.Has(err) {
if errs.Is(err, context.DeadlineExceeded) {
// dial timeout
ch <- result{nodeID: pending.NodeID, status: offline}
verifier.log.Debug("Reverify: dial timeout (offline)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
if errs2.IsRPC(err, rpcstatus.Unknown) {
// dial failed -- offline node
verifier.log.Debug("Reverify: dial failed (offline)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
ch <- result{nodeID: pending.NodeID, status: offline}
return
}
// unknown transport error
ch <- result{nodeID: pending.NodeID, status: unknown, pendingAudit: pending}
verifier.log.Info("Reverify: unknown transport error (skipped)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
if errs2.IsRPC(err, rpcstatus.NotFound) {
// Get the original segment pointer in the metainfo
err := verifier.checkIfSegmentAltered(ctx, pending.Path, pendingPointer, pendingPointerBytes)
if err != nil {
ch <- result{nodeID: pending.NodeID, status: skipped}
verifier.log.Debug("Reverify: audit source changed before reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
// missing share
ch <- result{nodeID: pending.NodeID, status: failed}
verifier.log.Info("Reverify: piece not found (audit failed)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
if errs2.IsRPC(err, rpcstatus.DeadlineExceeded) {
// dial successful, but download timed out
ch <- result{nodeID: pending.NodeID, status: contained, pendingAudit: pending}
verifier.log.Info("Reverify: download timeout (contained)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
// unknown error
ch <- result{nodeID: pending.NodeID, status: unknown, pendingAudit: pending}
verifier.log.Info("Reverify: unknown error (skipped)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
downloadedHash := pkcrypto.SHA256Hash(share.Data)
if bytes.Equal(downloadedHash, pending.ExpectedShareHash) {
ch <- result{nodeID: pending.NodeID, status: success}
verifier.log.Info("Reverify: hashes match (audit success)", zap.Stringer("Node ID", pending.NodeID))
} else {
err := verifier.checkIfSegmentAltered(ctx, pending.Path, pendingPointer, pendingPointerBytes)
if err != nil {
ch <- result{nodeID: pending.NodeID, status: skipped}
verifier.log.Debug("Reverify: audit source changed before reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(err))
return
}
verifier.log.Info("Reverify: hashes mismatch (audit failed)", zap.Stringer("Node ID", pending.NodeID),
zap.Binary("expected hash", pending.ExpectedShareHash), zap.Binary("downloaded hash", downloadedHash))
ch <- result{nodeID: pending.NodeID, status: failed}
}
}(pending)
}
for range pieces {
result := <-ch
switch result.status {
case success:
report.Successes = append(report.Successes, result.nodeID)
case offline:
report.Offlines = append(report.Offlines, result.nodeID)
case failed:
report.Fails = append(report.Fails, result.nodeID)
case contained:
report.PendingAudits = append(report.PendingAudits, result.pendingAudit)
case unknown:
report.Unknown = append(report.Unknown, result.nodeID)
case skipped:
_, errDelete := verifier.containment.Delete(ctx, result.nodeID)
if errDelete != nil {
verifier.log.Debug("Error deleting node from containment db", zap.Stringer("Node ID", result.nodeID), zap.Error(errDelete))
}
case erred:
err = errs.Combine(err, result.err)
}
}
mon.Meter("reverify_successes_global").Mark(len(report.Successes)) //mon:locked
mon.Meter("reverify_offlines_global").Mark(len(report.Offlines)) //mon:locked
mon.Meter("reverify_fails_global").Mark(len(report.Fails)) //mon:locked
mon.Meter("reverify_contained_global").Mark(len(report.PendingAudits)) //mon:locked
mon.Meter("reverify_unknown_global").Mark(len(report.Unknown)) //mon:locked
mon.IntVal("reverify_successes").Observe(int64(len(report.Successes))) //mon:locked
mon.IntVal("reverify_offlines").Observe(int64(len(report.Offlines))) //mon:locked
mon.IntVal("reverify_fails").Observe(int64(len(report.Fails))) //mon:locked
mon.IntVal("reverify_contained").Observe(int64(len(report.PendingAudits))) //mon:locked
mon.IntVal("reverify_unknown").Observe(int64(len(report.Unknown))) //mon:locked
mon.IntVal("reverify_contained_in_segment").Observe(containedInSegment) //mon:locked
mon.IntVal("reverify_total_in_segment").Observe(int64(len(pieces))) //mon:locked
return report, err
}
// GetShare use piece store client to download shares from nodes.
func (verifier *Verifier) GetShare(ctx context.Context, limit *pb.AddressedOrderLimit, piecePrivateKey storj.PiecePrivateKey, cachedIPAndPort string, stripeIndex int64, shareSize int32, pieceNum int) (share Share, err error) {
defer mon.Task()(&ctx)(&err)
bandwidthMsgSize := shareSize
// determines number of seconds allotted for receiving data from a storage node
timedCtx := ctx
if verifier.minBytesPerSecond > 0 {
maxTransferTime := time.Duration(int64(time.Second) * int64(bandwidthMsgSize) / verifier.minBytesPerSecond.Int64())
if maxTransferTime < verifier.minDownloadTimeout {
maxTransferTime = verifier.minDownloadTimeout
}
var cancel func()
timedCtx, cancel = context.WithTimeout(ctx, maxTransferTime)
defer cancel()
}
targetNodeID := limit.GetLimit().StorageNodeId
log := verifier.log.Named(targetNodeID.String())
var ps *piecestore.Client
// if cached IP is given, try connecting there first
if cachedIPAndPort != "" {
nodeAddr := storj.NodeURL{
ID: targetNodeID,
Address: cachedIPAndPort,
}
ps, err = piecestore.DialNodeURL(timedCtx, verifier.dialer, nodeAddr, log, piecestore.DefaultConfig)
if err != nil {
log.Debug("failed to connect to audit target node at cached IP", zap.String("cached-ip-and-port", cachedIPAndPort), zap.Error(err))
}
}
// if no cached IP was given, or connecting to cached IP failed, use node address
if ps == nil {
nodeAddr := storj.NodeURL{
ID: targetNodeID,
Address: limit.GetStorageNodeAddress().Address,
}
ps, err = piecestore.DialNodeURL(timedCtx, verifier.dialer, nodeAddr, log, piecestore.DefaultConfig)
if err != nil {
return Share{}, Error.Wrap(err)
}
}
defer func() {
err := ps.Close()
if err != nil {
verifier.log.Error("audit verifier failed to close conn to node: %+v", zap.Error(err))
}
}()
offset := int64(shareSize) * stripeIndex
downloader, err := ps.Download(timedCtx, limit.GetLimit(), piecePrivateKey, offset, int64(shareSize))
if err != nil {
return Share{}, err
}
defer func() { err = errs.Combine(err, downloader.Close()) }()
buf := make([]byte, shareSize)
_, err = io.ReadFull(downloader, buf)
if err != nil {
return Share{}, err
}
return Share{
Error: nil,
PieceNum: pieceNum,
NodeID: targetNodeID,
Data: buf,
}, nil
}
// checkIfSegmentAltered checks if path's pointer has been altered since path was selected.
func (verifier *Verifier) checkIfSegmentAltered(ctx context.Context, segmentKey string, oldPointer *pb.Pointer, oldPointerBytes []byte) (err error) {
defer mon.Task()(&ctx)(&err)
if verifier.OnTestingCheckSegmentAlteredHook != nil {
verifier.OnTestingCheckSegmentAlteredHook()
}
newPointerBytes, newPointer, err := verifier.metainfo.GetWithBytes(ctx, metabase.SegmentKey(segmentKey))
if err != nil {
if storj.ErrObjectNotFound.Has(err) {
return ErrSegmentDeleted.New("%q", segmentKey)
}
return err
}
if oldPointer != nil && oldPointer.CreationDate != newPointer.CreationDate {
return ErrSegmentDeleted.New("%q", segmentKey)
}
if !bytes.Equal(oldPointerBytes, newPointerBytes) {
return ErrSegmentModified.New("%q", segmentKey)
}
return nil
}
// auditShares takes the downloaded shares and uses infectious's Correct function to check that they
// haven't been altered. auditShares returns a slice containing the piece numbers of altered shares,
// and a slice of the corrected shares.
func auditShares(ctx context.Context, required, total int, originals map[int]Share) (pieceNums []int, corrected []infectious.Share, err error) {
defer mon.Task()(&ctx)(&err)
f, err := infectious.NewFEC(required, total)
if err != nil {
return nil, nil, err
}
copies, err := makeCopies(ctx, originals)
if err != nil {
return nil, nil, err
}
err = f.Correct(copies)
if err != nil {
return nil, nil, err
}
for _, share := range copies {
if !bytes.Equal(originals[share.Number].Data, share.Data) {
pieceNums = append(pieceNums, share.Number)
}
}
return pieceNums, copies, nil
}
// makeCopies takes in a map of audit Shares and deep copies their data to a slice of infectious Shares.
func makeCopies(ctx context.Context, originals map[int]Share) (copies []infectious.Share, err error) {
defer mon.Task()(&ctx)(&err)
copies = make([]infectious.Share, 0, len(originals))
for _, original := range originals {
copies = append(copies, infectious.Share{
Data: append([]byte{}, original.Data...),
Number: original.PieceNum})
}
return copies, nil
}
// getOfflines nodes returns these storage nodes from pointer which have no
// order limit nor are skipped.
func getOfflineNodes(pointer *pb.Pointer, limits []*pb.AddressedOrderLimit, skip map[storj.NodeID]bool) storj.NodeIDList {
var offlines storj.NodeIDList
nodesWithLimit := make(map[storj.NodeID]bool, len(limits))
for _, limit := range limits {
if limit != nil {
nodesWithLimit[limit.GetLimit().StorageNodeId] = true
}
}
for _, piece := range pointer.GetRemote().GetRemotePieces() {
if !nodesWithLimit[piece.NodeId] && !skip[piece.NodeId] {
offlines = append(offlines, piece.NodeId)
}
}
return offlines
}
// getSuccessNodes uses the failed nodes, offline nodes and contained nodes arrays to determine which nodes passed the audit.
func getSuccessNodes(ctx context.Context, shares map[int]Share, failedNodes, offlineNodes, unknownNodes storj.NodeIDList, containedNodes map[int]storj.NodeID) (successNodes storj.NodeIDList) {
defer mon.Task()(&ctx)(nil)
fails := make(map[storj.NodeID]bool)
for _, fail := range failedNodes {
fails[fail] = true
}
for _, offline := range offlineNodes {
fails[offline] = true
}
for _, unknown := range unknownNodes {
fails[unknown] = true
}
for _, contained := range containedNodes {
fails[contained] = true
}
for _, share := range shares {
if !fails[share.NodeID] {
successNodes = append(successNodes, share.NodeID)
}
}
return successNodes
}
func createPendingAudits(ctx context.Context, containedNodes map[int]storj.NodeID, correctedShares []infectious.Share, pointer *pb.Pointer, randomIndex int64, path storj.Path) (pending []*PendingAudit, err error) {
defer mon.Task()(&ctx)(&err)
if len(containedNodes) == 0 {
return nil, nil
}
redundancy := pointer.GetRemote().GetRedundancy()
required := int(redundancy.GetMinReq())
total := int(redundancy.GetTotal())
shareSize := redundancy.GetErasureShareSize()
fec, err := infectious.NewFEC(required, total)
if err != nil {
return nil, Error.Wrap(err)
}
stripeData, err := rebuildStripe(ctx, fec, correctedShares, int(shareSize))
if err != nil {
return nil, Error.Wrap(err)
}
for pieceNum, nodeID := range containedNodes {
share := make([]byte, shareSize)
err = fec.EncodeSingle(stripeData, share, pieceNum)
if err != nil {
return nil, Error.Wrap(err)
}
pending = append(pending, &PendingAudit{
NodeID: nodeID,
PieceID: pointer.GetRemote().RootPieceId,
StripeIndex: randomIndex,
ShareSize: shareSize,
ExpectedShareHash: pkcrypto.SHA256Hash(share),
Path: path,
})
}
return pending, nil
}
func rebuildStripe(ctx context.Context, fec *infectious.FEC, corrected []infectious.Share, shareSize int) (_ []byte, err error) {
defer mon.Task()(&ctx)(&err)
stripe := make([]byte, fec.Required()*shareSize)
err = fec.Rebuild(corrected, func(share infectious.Share) {
copy(stripe[share.Number*shareSize:], share.Data)
})
if err != nil {
return nil, err
}
return stripe, nil
}
// GetRandomStripe takes a pointer and returns a random stripe index within that pointer.
func GetRandomStripe(ctx context.Context, pointer *pb.Pointer) (index int64, err error) {
defer mon.Task()(&ctx)(&err)
redundancy, err := eestream.NewRedundancyStrategyFromProto(pointer.GetRemote().GetRedundancy())
if err != nil {
return 0, err
}
// the last segment could be smaller than stripe size
if pointer.GetSegmentSize() < int64(redundancy.StripeSize()) {
return 0, nil
}
var src cryptoSource
rnd := rand.New(src)
numStripes := pointer.GetSegmentSize() / int64(redundancy.StripeSize())
randomStripeIndex := rnd.Int63n(numStripes)
return randomStripeIndex, nil
}
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