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A directory is read and files are saved to a local variable. The iteration
over such files may lead to a non-existing files reading due to a normal SN
operation cycle and, therefore, may lead to a returning the OS error to a
caller. Skip just removed (or lost) files as the golang std library does in
similar situations:
5f1a0320b9/src/os/dir_unix.go (L128-L133)
.
Signed-off-by: Pavel Karpy <p.karpy@yadro.com>
425 lines
11 KiB
Go
425 lines
11 KiB
Go
package fstree
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import (
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"crypto/sha256"
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"errors"
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"fmt"
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"io/fs"
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"os"
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"path/filepath"
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"strconv"
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"strings"
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"syscall"
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"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/blobstor/common"
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"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/blobstor/compression"
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"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/util/logicerr"
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"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/util"
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apistatus "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client/status"
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cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id"
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objectSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object"
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oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id"
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)
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// FSTree represents an object storage as a filesystem tree.
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type FSTree struct {
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Info
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*compression.Config
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Depth uint64
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DirNameLen int
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noSync bool
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readOnly bool
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}
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// Info groups the information about file storage.
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type Info struct {
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// Permission bits of the root directory.
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Permissions fs.FileMode
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// Full path to the root directory.
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RootPath string
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}
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const (
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// DirNameLen is how many bytes is used to group keys into directories.
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DirNameLen = 1 // in bytes
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// MaxDepth is maximum depth of nested directories.
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MaxDepth = (sha256.Size - 1) / DirNameLen
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)
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var _ common.Storage = (*FSTree)(nil)
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func New(opts ...Option) *FSTree {
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f := &FSTree{
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Info: Info{
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Permissions: 0700,
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RootPath: "./",
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},
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Config: nil,
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Depth: 4,
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DirNameLen: DirNameLen,
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}
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for i := range opts {
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opts[i](f)
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}
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return f
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}
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func stringifyAddress(addr oid.Address) string {
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return addr.Object().EncodeToString() + "." + addr.Container().EncodeToString()
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}
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func addressFromString(s string) (oid.Address, error) {
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before, after, found := strings.Cut(s, ".")
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if !found {
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return oid.Address{}, errors.New("invalid address")
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}
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var obj oid.ID
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if err := obj.DecodeString(before); err != nil {
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return oid.Address{}, err
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}
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var cnr cid.ID
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if err := cnr.DecodeString(after); err != nil {
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return oid.Address{}, err
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}
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var addr oid.Address
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addr.SetObject(obj)
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addr.SetContainer(cnr)
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return addr, nil
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}
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// Iterate iterates over all stored objects.
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func (t *FSTree) Iterate(prm common.IteratePrm) (common.IterateRes, error) {
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return common.IterateRes{}, t.iterate(0, []string{t.RootPath}, prm)
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}
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func (t *FSTree) iterate(depth uint64, curPath []string, prm common.IteratePrm) error {
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curName := strings.Join(curPath[1:], "")
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des, err := os.ReadDir(filepath.Join(curPath...))
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if err != nil {
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if prm.IgnoreErrors {
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return nil
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}
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return err
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}
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isLast := depth >= t.Depth
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l := len(curPath)
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curPath = append(curPath, "")
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for i := range des {
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curPath[l] = des[i].Name()
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if !isLast && des[i].IsDir() {
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err := t.iterate(depth+1, curPath, prm)
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if err != nil {
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// Must be error from handler in case errors are ignored.
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// Need to report.
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return err
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}
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}
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if depth != t.Depth {
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continue
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}
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addr, err := addressFromString(curName + des[i].Name())
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if err != nil {
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continue
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}
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data, err := os.ReadFile(filepath.Join(curPath...))
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if err != nil && os.IsNotExist(err) {
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continue
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}
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if prm.LazyHandler != nil {
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err = prm.LazyHandler(addr, func() ([]byte, error) {
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return data, err
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})
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} else {
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if err == nil {
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data, err = t.Decompress(data)
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}
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if err != nil {
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if prm.IgnoreErrors {
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if prm.ErrorHandler != nil {
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return prm.ErrorHandler(addr, err)
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}
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continue
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}
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return err
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}
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err = prm.Handler(common.IterationElement{
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Address: addr,
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ObjectData: data,
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StorageID: []byte{},
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})
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}
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if err != nil {
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return err
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}
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}
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return nil
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}
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func (t *FSTree) treePath(addr oid.Address) string {
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sAddr := stringifyAddress(addr)
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var sb strings.Builder
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sb.Grow(len(t.RootPath) + len(sAddr) + int(t.Depth) + 1)
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sb.WriteString(t.RootPath)
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for i := 0; uint64(i) < t.Depth; i++ {
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sb.WriteRune(filepath.Separator)
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sb.WriteString(sAddr[:t.DirNameLen])
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sAddr = sAddr[t.DirNameLen:]
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}
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sb.WriteRune(filepath.Separator)
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sb.WriteString(sAddr)
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return sb.String()
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}
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// Delete removes the object with the specified address from the storage.
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func (t *FSTree) Delete(prm common.DeletePrm) (common.DeleteRes, error) {
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if t.readOnly {
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return common.DeleteRes{}, common.ErrReadOnly
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}
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p := t.treePath(prm.Address)
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err := os.Remove(p)
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if err != nil && os.IsNotExist(err) {
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err = logicerr.Wrap(apistatus.ObjectNotFound{})
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}
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return common.DeleteRes{}, err
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}
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// Exists returns the path to the file with object contents if it exists in the storage
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// and an error otherwise.
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func (t *FSTree) Exists(prm common.ExistsPrm) (common.ExistsRes, error) {
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p := t.treePath(prm.Address)
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_, err := os.Stat(p)
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found := err == nil
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if os.IsNotExist(err) {
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err = nil
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}
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return common.ExistsRes{Exists: found}, err
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}
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// Put puts an object in the storage.
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func (t *FSTree) Put(prm common.PutPrm) (common.PutRes, error) {
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if t.readOnly {
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return common.PutRes{}, common.ErrReadOnly
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}
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p := t.treePath(prm.Address)
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if err := util.MkdirAllX(filepath.Dir(p), t.Permissions); err != nil {
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return common.PutRes{}, err
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}
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if !prm.DontCompress {
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prm.RawData = t.Compress(prm.RawData)
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}
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// Here is a situation:
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// Feb 09 13:10:37 buky neofs-node[32445]: 2023-02-09T13:10:37.161Z info log/log.go:13 local object storage operation {"shard_id": "SkT8BfjouW6t93oLuzQ79s", "address": "7NxFz4SruSi8TqXacr2Ae22nekMhgYk1sfkddJo9PpWk/5enyUJGCyU1sfrURDnHEjZFdbGqANVhayYGfdSqtA6wA", "op": "PUT", "type": "fstree", "storage_id": ""}
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// Feb 09 13:10:37 buky neofs-node[32445]: 2023-02-09T13:10:37.183Z info log/log.go:13 local object storage operation {"shard_id": "SkT8BfjouW6t93oLuzQ79s", "address": "7NxFz4SruSi8TqXacr2Ae22nekMhgYk1sfkddJo9PpWk/5enyUJGCyU1sfrURDnHEjZFdbGqANVhayYGfdSqtA6wA", "op": "metabase PUT"}
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// Feb 09 13:10:37 buky neofs-node[32445]: 2023-02-09T13:10:37.862Z debug policer/check.go:231 shortage of object copies detected {"component": "Object Policer", "object": "7NxFz4SruSi8TqXacr2Ae22nekMhgYk1sfkddJo9PpWk/5enyUJGCyU1sfrURDnHEjZFdbGqANVhayYGfdSqtA6wA", "shortage": 1}
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// Feb 09 13:10:37 buky neofs-node[32445]: 2023-02-09T13:10:37.862Z debug shard/get.go:124 object is missing in write-cache {"shard_id": "SkT8BfjouW6t93oLuzQ79s", "addr": "7NxFz4SruSi8TqXacr2Ae22nekMhgYk1sfkddJo9PpWk/5enyUJGCyU1sfrURDnHEjZFdbGqANVhayYGfdSqtA6wA", "skip_meta": false}
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//
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// 1. We put an object on node 1.
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// 2. Relentless policer sees that it has only 1 copy and tries to PUT it to node 2.
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// 3. PUT operation started by client at (1) also puts an object here.
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// 4. Now we have concurrent writes and one of `Rename` calls will return `no such file` error.
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// Even more than that, concurrent writes can corrupt data.
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//
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// So here is a solution:
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// 1. Write a file to 'name + 1'.
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// 2. If it exists, retry with temporary name being 'name + 2'.
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// 3. Set some reasonable number of attempts.
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//
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// It is a bit kludgey, but I am unusually proud about having found this out after
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// hours of research on linux kernel, dirsync mount option and ext4 FS, turned out
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// to be so hecking simple.
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// In a very rare situation we can have multiple partially written copies on disk,
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// this will be fixed in another issue (we should remove garbage on start).
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const retryCount = 5
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for i := 0; i < retryCount; i++ {
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tmpPath := p + "#" + strconv.FormatUint(uint64(i), 10)
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err := t.writeAndRename(tmpPath, p, prm.RawData)
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if err != syscall.EEXIST || i == retryCount-1 {
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return common.PutRes{StorageID: []byte{}}, err
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}
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}
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// unreachable, but precaution never hurts, especially 1 day before release.
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return common.PutRes{StorageID: []byte{}}, fmt.Errorf("couldn't read file after %d retries", retryCount)
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}
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// writeAndRename opens tmpPath exclusively, writes data to it and renames it to p.
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func (t *FSTree) writeAndRename(tmpPath, p string, data []byte) error {
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err := t.writeFile(tmpPath, data)
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if err != nil {
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var pe *fs.PathError
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if errors.As(err, &pe) {
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switch pe.Err {
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case syscall.ENOSPC:
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err = common.ErrNoSpace
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_ = os.RemoveAll(tmpPath)
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case syscall.EEXIST:
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return syscall.EEXIST
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}
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}
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} else {
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err = os.Rename(tmpPath, p)
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}
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return err
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}
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func (t *FSTree) writeFlags() int {
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flags := os.O_WRONLY | os.O_CREATE | os.O_TRUNC | os.O_EXCL
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if t.noSync {
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return flags
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}
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return flags | os.O_SYNC
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}
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// writeFile writes data to a file with path p.
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// The code is copied from `os.WriteFile` with minor corrections for flags.
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func (t *FSTree) writeFile(p string, data []byte) error {
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f, err := os.OpenFile(p, t.writeFlags(), t.Permissions)
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if err != nil {
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return err
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}
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_, err = f.Write(data)
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if err1 := f.Close(); err1 != nil && err == nil {
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err = err1
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}
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return err
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}
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// PutStream puts executes handler on a file opened for write.
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func (t *FSTree) PutStream(addr oid.Address, handler func(*os.File) error) error {
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if t.readOnly {
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return common.ErrReadOnly
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}
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p := t.treePath(addr)
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if err := util.MkdirAllX(filepath.Dir(p), t.Permissions); err != nil {
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return err
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}
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f, err := os.OpenFile(p, t.writeFlags(), t.Permissions)
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if err != nil {
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return err
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}
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defer f.Close()
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return handler(f)
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}
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// Get returns an object from the storage by address.
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func (t *FSTree) Get(prm common.GetPrm) (common.GetRes, error) {
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p := t.treePath(prm.Address)
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if _, err := os.Stat(p); os.IsNotExist(err) {
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return common.GetRes{}, logicerr.Wrap(apistatus.ObjectNotFound{})
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}
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data, err := os.ReadFile(p)
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if err != nil {
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return common.GetRes{}, err
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}
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data, err = t.Decompress(data)
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if err != nil {
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return common.GetRes{}, err
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}
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obj := objectSDK.New()
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if err := obj.Unmarshal(data); err != nil {
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return common.GetRes{}, err
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}
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return common.GetRes{Object: obj, RawData: data}, err
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}
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// GetRange implements common.Storage.
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func (t *FSTree) GetRange(prm common.GetRangePrm) (common.GetRangeRes, error) {
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res, err := t.Get(common.GetPrm{Address: prm.Address})
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if err != nil {
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return common.GetRangeRes{}, err
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}
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payload := res.Object.Payload()
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from := prm.Range.GetOffset()
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to := from + prm.Range.GetLength()
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if pLen := uint64(len(payload)); to < from || pLen < from || pLen < to {
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return common.GetRangeRes{}, logicerr.Wrap(apistatus.ObjectOutOfRange{})
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}
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return common.GetRangeRes{
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Data: payload[from:to],
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}, nil
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}
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// NumberOfObjects walks the file tree rooted at FSTree's root
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// and returns number of stored objects.
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func (t *FSTree) NumberOfObjects() (uint64, error) {
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var counter uint64
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// it is simpler to just consider every file
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// that is not directory as an object
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err := filepath.WalkDir(t.RootPath,
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func(_ string, d fs.DirEntry, _ error) error {
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if !d.IsDir() {
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counter++
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}
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return nil
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},
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)
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if err != nil {
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return 0, fmt.Errorf("could not walk through %s directory: %w", t.RootPath, err)
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}
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return counter, nil
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}
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// Type is fstree storage type used in logs and configuration.
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const Type = "fstree"
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// Type implements common.Storage.
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func (*FSTree) Type() string {
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return Type
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}
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// Path implements common.Storage.
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func (t *FSTree) Path() string {
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return t.RootPath
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}
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// SetCompressor implements common.Storage.
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func (t *FSTree) SetCompressor(cc *compression.Config) {
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t.Config = cc
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}
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// SetReportErrorFunc implements common.Storage.
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func (t *FSTree) SetReportErrorFunc(f func(string, error)) {
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// Do nothing, FSTree can encounter only one error which is returned.
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}
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