storj/pkg/storage/ec/client.go

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// Copyright (C) 2018 Storj Labs, Inc.
// See LICENSE for copying information.
package ecclient
import (
"context"
"io"
"io/ioutil"
"sort"
"time"
"go.uber.org/zap"
monkit "gopkg.in/spacemonkeygo/monkit.v2"
"storj.io/storj/pkg/eestream"
"storj.io/storj/pkg/pb"
"storj.io/storj/pkg/piecestore/rpc/client"
"storj.io/storj/pkg/provider"
"storj.io/storj/pkg/ranger"
"storj.io/storj/pkg/transport"
"storj.io/storj/pkg/utils"
)
var mon = monkit.Package()
// Client defines an interface for storing erasure coded data to piece store nodes
type Client interface {
Put(ctx context.Context, nodes []*pb.Node, rs eestream.RedundancyStrategy,
pieceID client.PieceID, data io.Reader, expiration time.Time) (successfulNodes []*pb.Node, err error)
Get(ctx context.Context, nodes []*pb.Node, es eestream.ErasureScheme,
pieceID client.PieceID, size int64) (ranger.Ranger, error)
Delete(ctx context.Context, nodes []*pb.Node, pieceID client.PieceID) error
}
type dialer interface {
dial(ctx context.Context, node *pb.Node) (ps client.PSClient, err error)
}
type defaultDialer struct {
transport transport.Client
identity *provider.FullIdentity
}
func (dialer *defaultDialer) dial(ctx context.Context, node *pb.Node) (ps client.PSClient, err error) {
defer mon.Task()(&ctx)(&err)
conn, err := dialer.transport.DialNode(ctx, node)
if err != nil {
return nil, err
}
return client.NewPSClient(conn, 0, dialer.identity.Key)
}
type ecClient struct {
d dialer
mbm int
}
// NewClient from the given TransportClient and max buffer memory
func NewClient(identity *provider.FullIdentity, transport transport.Client, mbm int) Client {
d := defaultDialer{identity: identity, transport: transport}
return &ecClient{d: &d, mbm: mbm}
}
func (ec *ecClient) Put(ctx context.Context, nodes []*pb.Node, rs eestream.RedundancyStrategy,
pieceID client.PieceID, data io.Reader, expiration time.Time) (successfulNodes []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodes) != rs.TotalCount() {
return nil, Error.New("number of nodes (%d) do not match total count (%d) of erasure scheme", len(nodes), rs.TotalCount())
}
if !unique(nodes) {
return nil, Error.New("duplicated nodes are not allowed")
}
padded := eestream.PadReader(ioutil.NopCloser(data), rs.StripeSize())
readers, err := eestream.EncodeReader(ctx, padded, rs, ec.mbm)
if err != nil {
return nil, err
}
type info struct {
i int
err error
}
infos := make(chan info, len(nodes))
for i, n := range nodes {
go func(i int, n *pb.Node) {
if n == nil {
_, err := io.Copy(ioutil.Discard, readers[i])
infos <- info{i: i, err: err}
return
}
derivedPieceID, err := pieceID.Derive([]byte(n.GetId()))
if err != nil {
zap.S().Errorf("Failed deriving piece id for %s: %v", pieceID, err)
infos <- info{i: i, err: err}
return
}
ps, err := ec.d.dial(ctx, n)
if err != nil {
zap.S().Errorf("Failed putting piece %s -> %s to node %s: %v",
pieceID, derivedPieceID, n.GetId(), err)
infos <- info{i: i, err: err}
return
}
err = ps.Put(ctx, derivedPieceID, readers[i], expiration, &pb.PayerBandwidthAllocation{})
// normally the bellow call should be deferred, but doing so fails
// randomly the unit tests
utils.LogClose(ps)
// io.ErrUnexpectedEOF means the piece upload was interrupted due to slow connection.
// No error logging for this case.
if err != nil && err != io.ErrUnexpectedEOF {
zap.S().Errorf("Failed putting piece %s -> %s to node %s: %v",
pieceID, derivedPieceID, n.GetId(), err)
}
infos <- info{i: i, err: err}
}(i, n)
}
successfulNodes = make([]*pb.Node, len(nodes))
var successfulCount int
for range nodes {
info := <-infos
if info.err == nil {
successfulNodes[info.i] = nodes[info.i]
successfulCount++
}
}
/* clean up the partially uploaded segment's pieces */
defer func() {
select {
case <-ctx.Done():
err = utils.CombineErrors(
Error.New("upload cancelled by user"),
ec.Delete(context.Background(), nodes, pieceID),
)
default:
}
}()
if successfulCount < rs.RepairThreshold() {
return nil, Error.New("successful puts (%d) less than repair threshold (%d)", successfulCount, rs.RepairThreshold())
}
return successfulNodes, nil
}
func (ec *ecClient) Get(ctx context.Context, nodes []*pb.Node, es eestream.ErasureScheme,
pieceID client.PieceID, size int64) (rr ranger.Ranger, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodes) != es.TotalCount() {
return nil, Error.New("number of nodes (%v) do not match total count (%v) of erasure scheme", len(nodes), es.TotalCount())
}
paddedSize := calcPadded(size, es.StripeSize())
pieceSize := paddedSize / int64(es.RequiredCount())
rrs := map[int]ranger.Ranger{}
type rangerInfo struct {
i int
rr ranger.Ranger
err error
}
ch := make(chan rangerInfo, len(nodes))
for i, n := range nodes {
if n == nil {
ch <- rangerInfo{i: i, rr: nil, err: nil}
continue
}
go func(i int, n *pb.Node) {
derivedPieceID, err := pieceID.Derive([]byte(n.GetId()))
if err != nil {
zap.S().Errorf("Failed deriving piece id for %s: %v", pieceID, err)
ch <- rangerInfo{i: i, rr: nil, err: err}
return
}
rr := &lazyPieceRanger{
dialer: ec.d,
node: n,
id: derivedPieceID,
size: pieceSize,
pba: &pb.PayerBandwidthAllocation{},
}
ch <- rangerInfo{i: i, rr: rr, err: nil}
}(i, n)
}
for range nodes {
rri := <-ch
if rri.err == nil && rri.rr != nil {
rrs[rri.i] = rri.rr
}
}
rr, err = eestream.Decode(rrs, es, ec.mbm)
if err != nil {
return nil, err
}
return eestream.Unpad(rr, int(paddedSize-size))
}
func (ec *ecClient) Delete(ctx context.Context, nodes []*pb.Node, pieceID client.PieceID) (err error) {
defer mon.Task()(&ctx)(&err)
errs := make(chan error, len(nodes))
for _, n := range nodes {
if n == nil {
errs <- nil
continue
}
go func(n *pb.Node) {
derivedPieceID, err := pieceID.Derive([]byte(n.GetId()))
if err != nil {
zap.S().Errorf("Failed deriving piece id for %s: %v", pieceID, err)
errs <- err
return
}
ps, err := ec.d.dial(ctx, n)
if err != nil {
zap.S().Errorf("Failed deleting piece %s -> %s from node %s: %v",
pieceID, derivedPieceID, n.GetId(), err)
errs <- err
return
}
err = ps.Delete(ctx, derivedPieceID)
// normally the bellow call should be deferred, but doing so fails
// randomly the unit tests
utils.LogClose(ps)
if err != nil {
zap.S().Errorf("Failed deleting piece %s -> %s from node %s: %v",
pieceID, derivedPieceID, n.GetId(), err)
}
errs <- err
}(n)
}
allerrs := collectErrors(errs, len(nodes))
if len(allerrs) > 0 && len(allerrs) == len(nodes) {
return allerrs[0]
}
return nil
}
func collectErrors(errs <-chan error, size int) []error {
var result []error
for i := 0; i < size; i++ {
err := <-errs
if err != nil {
result = append(result, err)
}
}
return result
}
func unique(nodes []*pb.Node) bool {
if len(nodes) < 2 {
return true
}
ids := make([]string, len(nodes))
for i, n := range nodes {
ids[i] = n.GetId()
}
// sort the ids and check for identical neighbors
sort.Strings(ids)
for i := 1; i < len(ids); i++ {
if ids[i] != "" && ids[i] == ids[i-1] {
return false
}
}
return true
}
func calcPadded(size int64, blockSize int) int64 {
mod := size % int64(blockSize)
if mod == 0 {
return size
}
return size + int64(blockSize) - mod
}
type lazyPieceRanger struct {
ranger ranger.Ranger
dialer dialer
node *pb.Node
id client.PieceID
size int64
pba *pb.PayerBandwidthAllocation
}
// Size implements Ranger.Size
func (lr *lazyPieceRanger) Size() int64 {
return lr.size
}
// Range implements Ranger.Range to be lazily connected
func (lr *lazyPieceRanger) Range(ctx context.Context, offset, length int64) (io.ReadCloser, error) {
if lr.ranger == nil {
ps, err := lr.dialer.dial(ctx, lr.node)
if err != nil {
return nil, err
}
ranger, err := ps.Get(ctx, lr.id, lr.size, lr.pba)
if err != nil {
return nil, err
}
lr.ranger = ranger
}
return lr.ranger.Range(ctx, offset, length)
}