// Copyright (C) 2019 Nicola Murino // // 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, version 3. // // 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 . //go:build !nos3 // +build !nos3 package vfs import ( "context" "crypto/tls" "errors" "fmt" "io" "mime" "net" "net/http" "net/url" "os" "path" "path/filepath" "sort" "strings" "sync" "sync/atomic" "time" "github.com/aws/aws-sdk-go-v2/aws" awshttp "github.com/aws/aws-sdk-go-v2/aws/transport/http" "github.com/aws/aws-sdk-go-v2/config" "github.com/aws/aws-sdk-go-v2/credentials" "github.com/aws/aws-sdk-go-v2/credentials/stscreds" "github.com/aws/aws-sdk-go-v2/feature/s3/manager" "github.com/aws/aws-sdk-go-v2/service/s3" "github.com/aws/aws-sdk-go-v2/service/s3/types" "github.com/aws/aws-sdk-go-v2/service/sts" "github.com/eikenb/pipeat" "github.com/pkg/sftp" "github.com/drakkan/sftpgo/v2/internal/logger" "github.com/drakkan/sftpgo/v2/internal/metric" "github.com/drakkan/sftpgo/v2/internal/util" "github.com/drakkan/sftpgo/v2/internal/version" ) const ( // using this mime type for directories improves compatibility with s3fs-fuse s3DirMimeType = "application/x-directory" s3TransferBufferSize = 256 * 1024 s3CopyObjectThreshold = 500 * 1024 * 1024 ) var ( s3DirMimeTypes = []string{s3DirMimeType, "httpd/unix-directory"} s3DefaultPageSize = int32(5000) ) // S3Fs is a Fs implementation for AWS S3 compatible object storages type S3Fs struct { connectionID string localTempDir string // if not empty this fs is mouted as virtual folder in the specified path mountPath string config *S3FsConfig svc *s3.Client ctxTimeout time.Duration } func init() { version.AddFeature("+s3") } // NewS3Fs returns an S3Fs object that allows to interact with an s3 compatible // object storage func NewS3Fs(connectionID, localTempDir, mountPath string, s3Config S3FsConfig) (Fs, error) { if localTempDir == "" { localTempDir = getLocalTempDir() } fs := &S3Fs{ connectionID: connectionID, localTempDir: localTempDir, mountPath: getMountPath(mountPath), config: &s3Config, ctxTimeout: 30 * time.Second, } if err := fs.config.validate(); err != nil { return fs, err } ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) defer cancel() awsConfig, err := config.LoadDefaultConfig(ctx, config.WithHTTPClient( getAWSHTTPClient(0, 30*time.Second, fs.config.SkipTLSVerify)), ) if err != nil { return fs, fmt.Errorf("unable to get AWS config: %w", err) } if fs.config.Region != "" { awsConfig.Region = fs.config.Region } if !fs.config.AccessSecret.IsEmpty() { if err := fs.config.AccessSecret.TryDecrypt(); err != nil { return fs, err } awsConfig.Credentials = aws.NewCredentialsCache( credentials.NewStaticCredentialsProvider(fs.config.AccessKey, fs.config.AccessSecret.GetPayload(), "")) } fs.setConfigDefaults() if fs.config.RoleARN != "" { client := sts.NewFromConfig(awsConfig) creds := stscreds.NewAssumeRoleProvider(client, fs.config.RoleARN) awsConfig.Credentials = creds } fs.svc = s3.NewFromConfig(awsConfig, func(o *s3.Options) { o.AppID = fmt.Sprintf("SFTPGo-%s", version.Get().CommitHash) o.UsePathStyle = fs.config.ForcePathStyle if fs.config.Endpoint != "" { o.BaseEndpoint = aws.String(fs.config.Endpoint) } }) return fs, nil } // Name returns the name for the Fs implementation func (fs *S3Fs) Name() string { return fmt.Sprintf("%s bucket %q", s3fsName, fs.config.Bucket) } // ConnectionID returns the connection ID associated to this Fs implementation func (fs *S3Fs) ConnectionID() string { return fs.connectionID } // Stat returns a FileInfo describing the named file func (fs *S3Fs) Stat(name string) (os.FileInfo, error) { var result *FileInfo if name == "" || name == "/" || name == "." { return NewFileInfo(name, true, 0, time.Unix(0, 0), false), nil } if fs.config.KeyPrefix == name+"/" { return NewFileInfo(name, true, 0, time.Unix(0, 0), false), nil } obj, err := fs.headObject(name) if err == nil { // Some S3 providers (like SeaweedFS) remove the trailing '/' from object keys. // So we check some common content types to detect if this is a "directory". isDir := util.Contains(s3DirMimeTypes, util.GetStringFromPointer(obj.ContentType)) if util.GetIntFromPointer(obj.ContentLength) == 0 && !isDir { _, err = fs.headObject(name + "/") isDir = err == nil } return NewFileInfo(name, isDir, util.GetIntFromPointer(obj.ContentLength), util.GetTimeFromPointer(obj.LastModified), false), nil } if !fs.IsNotExist(err) { return result, err } // now check if this is a prefix (virtual directory) hasContents, err := fs.hasContents(name) if err == nil && hasContents { return NewFileInfo(name, true, 0, time.Unix(0, 0), false), nil } else if err != nil { return nil, err } // the requested file may still be a directory as a zero bytes key // with a trailing forward slash (created using mkdir). // S3 doesn't return content type when listing objects, so we have // create "dirs" adding a trailing "/" to the key return fs.getStatForDir(name) } func (fs *S3Fs) getStatForDir(name string) (os.FileInfo, error) { var result *FileInfo obj, err := fs.headObject(name + "/") if err != nil { return result, err } return NewFileInfo(name, true, util.GetIntFromPointer(obj.ContentLength), util.GetTimeFromPointer(obj.LastModified), false), nil } // Lstat returns a FileInfo describing the named file func (fs *S3Fs) Lstat(name string) (os.FileInfo, error) { return fs.Stat(name) } // Open opens the named file for reading func (fs *S3Fs) Open(name string, offset int64) (File, PipeReader, func(), error) { r, w, err := pipeat.PipeInDir(fs.localTempDir) if err != nil { return nil, nil, nil, err } p := NewPipeReader(r) if readMetadata > 0 { attrs, err := fs.headObject(name) if err != nil { r.Close() w.Close() return nil, nil, nil, err } p.setMetadata(attrs.Metadata) } ctx, cancelFn := context.WithCancel(context.Background()) downloader := manager.NewDownloader(fs.svc, func(d *manager.Downloader) { d.Concurrency = fs.config.DownloadConcurrency d.PartSize = fs.config.DownloadPartSize if offset == 0 && fs.config.DownloadPartMaxTime > 0 { d.ClientOptions = append(d.ClientOptions, func(o *s3.Options) { o.HTTPClient = getAWSHTTPClient(fs.config.DownloadPartMaxTime, 100*time.Millisecond, fs.config.SkipTLSVerify) }) } }) var streamRange *string if offset > 0 { streamRange = aws.String(fmt.Sprintf("bytes=%v-", offset)) } go func() { defer cancelFn() n, err := downloader.Download(ctx, w, &s3.GetObjectInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(name), Range: streamRange, }) w.CloseWithError(err) //nolint:errcheck fsLog(fs, logger.LevelDebug, "download completed, path: %q size: %v, err: %+v", name, n, err) metric.S3TransferCompleted(n, 1, err) }() return nil, p, cancelFn, nil } // Create creates or opens the named file for writing func (fs *S3Fs) Create(name string, flag, checks int) (File, PipeWriter, func(), error) { if checks&CheckParentDir != 0 { _, err := fs.Stat(path.Dir(name)) if err != nil { return nil, nil, nil, err } } r, w, err := pipeat.PipeInDir(fs.localTempDir) if err != nil { return nil, nil, nil, err } var p PipeWriter if checks&CheckResume != 0 { p = newPipeWriterAtOffset(w, 0) } else { p = NewPipeWriter(w) } ctx, cancelFn := context.WithCancel(context.Background()) uploader := manager.NewUploader(fs.svc, func(u *manager.Uploader) { u.Concurrency = fs.config.UploadConcurrency u.PartSize = fs.config.UploadPartSize if fs.config.UploadPartMaxTime > 0 { u.ClientOptions = append(u.ClientOptions, func(o *s3.Options) { o.HTTPClient = getAWSHTTPClient(fs.config.UploadPartMaxTime, 100*time.Millisecond, fs.config.SkipTLSVerify) }) } }) go func() { defer cancelFn() var contentType string if flag == -1 { contentType = s3DirMimeType } else { contentType = mime.TypeByExtension(path.Ext(name)) } _, err := uploader.Upload(ctx, &s3.PutObjectInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(name), Body: r, ACL: types.ObjectCannedACL(fs.config.ACL), StorageClass: types.StorageClass(fs.config.StorageClass), ContentType: util.NilIfEmpty(contentType), }) r.CloseWithError(err) //nolint:errcheck p.Done(err) fsLog(fs, logger.LevelDebug, "upload completed, path: %q, acl: %q, readed bytes: %d, err: %+v", name, fs.config.ACL, r.GetReadedBytes(), err) metric.S3TransferCompleted(r.GetReadedBytes(), 0, err) }() if checks&CheckResume != 0 { readCh := make(chan error, 1) go func() { n, err := fs.downloadToWriter(name, p) pw := p.(*pipeWriterAtOffset) pw.offset = 0 pw.writeOffset = n readCh <- err }() err = <-readCh if err != nil { cancelFn() p.Close() fsLog(fs, logger.LevelDebug, "download before resume failed, writer closed and read cancelled") return nil, nil, nil, err } } if uploadMode&4 != 0 { return nil, p, nil, nil } return nil, p, cancelFn, nil } // Rename renames (moves) source to target. func (fs *S3Fs) Rename(source, target string) (int, int64, error) { if source == target { return -1, -1, nil } _, err := fs.Stat(path.Dir(target)) if err != nil { return -1, -1, err } fi, err := fs.Stat(source) if err != nil { return -1, -1, err } return fs.renameInternal(source, target, fi, 0) } // Remove removes the named file or (empty) directory. func (fs *S3Fs) Remove(name string, isDir bool) error { if isDir { hasContents, err := fs.hasContents(name) if err != nil { return err } if hasContents { return fmt.Errorf("cannot remove non empty directory: %q", name) } if !strings.HasSuffix(name, "/") { name += "/" } } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() _, err := fs.svc.DeleteObject(ctx, &s3.DeleteObjectInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(name), }) metric.S3DeleteObjectCompleted(err) return err } // Mkdir creates a new directory with the specified name and default permissions func (fs *S3Fs) Mkdir(name string) error { _, err := fs.Stat(name) if !fs.IsNotExist(err) { return err } return fs.mkdirInternal(name) } // Symlink creates source as a symbolic link to target. func (*S3Fs) Symlink(_, _ string) error { return ErrVfsUnsupported } // Readlink returns the destination of the named symbolic link func (*S3Fs) Readlink(_ string) (string, error) { return "", ErrVfsUnsupported } // Chown changes the numeric uid and gid of the named file. func (*S3Fs) Chown(_ string, _ int, _ int) error { return ErrVfsUnsupported } // Chmod changes the mode of the named file to mode. func (*S3Fs) Chmod(_ string, _ os.FileMode) error { return ErrVfsUnsupported } // Chtimes changes the access and modification times of the named file. func (fs *S3Fs) Chtimes(_ string, _, _ time.Time, _ bool) error { return ErrVfsUnsupported } // Truncate changes the size of the named file. // Truncate by path is not supported, while truncating an opened // file is handled inside base transfer func (*S3Fs) Truncate(_ string, _ int64) error { return ErrVfsUnsupported } // ReadDir reads the directory named by dirname and returns // a list of directory entries. func (fs *S3Fs) ReadDir(dirname string) (DirLister, error) { // dirname must be already cleaned prefix := fs.getPrefix(dirname) paginator := s3.NewListObjectsV2Paginator(fs.svc, &s3.ListObjectsV2Input{ Bucket: aws.String(fs.config.Bucket), Prefix: aws.String(prefix), Delimiter: aws.String("/"), MaxKeys: &s3DefaultPageSize, }) return &s3DirLister{ paginator: paginator, timeout: fs.ctxTimeout, prefix: prefix, prefixes: make(map[string]bool), }, nil } // IsUploadResumeSupported returns true if resuming uploads is supported. // Resuming uploads is not supported on S3 func (*S3Fs) IsUploadResumeSupported() bool { return false } // IsConditionalUploadResumeSupported returns if resuming uploads is supported // for the specified size func (*S3Fs) IsConditionalUploadResumeSupported(size int64) bool { return size <= resumeMaxSize } // IsAtomicUploadSupported returns true if atomic upload is supported. // S3 uploads are already atomic, we don't need to upload to a temporary // file func (*S3Fs) IsAtomicUploadSupported() bool { return false } // IsNotExist returns a boolean indicating whether the error is known to // report that a file or directory does not exist func (*S3Fs) IsNotExist(err error) bool { if err == nil { return false } var re *awshttp.ResponseError if errors.As(err, &re) { if re.Response != nil { return re.Response.StatusCode == http.StatusNotFound } } return false } // IsPermission returns a boolean indicating whether the error is known to // report that permission is denied. func (*S3Fs) IsPermission(err error) bool { if err == nil { return false } var re *awshttp.ResponseError if errors.As(err, &re) { if re.Response != nil { return re.Response.StatusCode == http.StatusForbidden || re.Response.StatusCode == http.StatusUnauthorized } } return false } // IsNotSupported returns true if the error indicate an unsupported operation func (*S3Fs) IsNotSupported(err error) bool { if err == nil { return false } return errors.Is(err, ErrVfsUnsupported) } // CheckRootPath creates the specified local root directory if it does not exists func (fs *S3Fs) CheckRootPath(username string, uid int, gid int) bool { // we need a local directory for temporary files osFs := NewOsFs(fs.ConnectionID(), fs.localTempDir, "", nil) return osFs.CheckRootPath(username, uid, gid) } // ScanRootDirContents returns the number of files contained in the bucket, // and their size func (fs *S3Fs) ScanRootDirContents() (int, int64, error) { return fs.GetDirSize(fs.config.KeyPrefix) } // GetDirSize returns the number of files and the size for a folder // including any subfolders func (fs *S3Fs) GetDirSize(dirname string) (int, int64, error) { prefix := fs.getPrefix(dirname) numFiles := 0 size := int64(0) paginator := s3.NewListObjectsV2Paginator(fs.svc, &s3.ListObjectsV2Input{ Bucket: aws.String(fs.config.Bucket), Prefix: aws.String(prefix), MaxKeys: &s3DefaultPageSize, }) for paginator.HasMorePages() { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() page, err := paginator.NextPage(ctx) if err != nil { metric.S3ListObjectsCompleted(err) return numFiles, size, err } for _, fileObject := range page.Contents { isDir := strings.HasSuffix(util.GetStringFromPointer(fileObject.Key), "/") objectSize := util.GetIntFromPointer(fileObject.Size) if isDir && objectSize == 0 { continue } numFiles++ size += objectSize } fsLog(fs, logger.LevelDebug, "scan in progress for %q, files: %d, size: %d", dirname, numFiles, size) } metric.S3ListObjectsCompleted(nil) return numFiles, size, nil } // GetAtomicUploadPath returns the path to use for an atomic upload. // S3 uploads are already atomic, we never call this method for S3 func (*S3Fs) GetAtomicUploadPath(_ string) string { return "" } // GetRelativePath returns the path for a file relative to the user's home dir. // This is the path as seen by SFTPGo users func (fs *S3Fs) GetRelativePath(name string) string { rel := path.Clean(name) if rel == "." { rel = "" } if !path.IsAbs(rel) { rel = "/" + rel } if fs.config.KeyPrefix != "" { if !strings.HasPrefix(rel, "/"+fs.config.KeyPrefix) { rel = "/" } rel = path.Clean("/" + strings.TrimPrefix(rel, "/"+fs.config.KeyPrefix)) } if fs.mountPath != "" { rel = path.Join(fs.mountPath, rel) } return rel } // Walk walks the file tree rooted at root, calling walkFn for each file or // directory in the tree, including root. The result are unordered func (fs *S3Fs) Walk(root string, walkFn filepath.WalkFunc) error { prefix := fs.getPrefix(root) paginator := s3.NewListObjectsV2Paginator(fs.svc, &s3.ListObjectsV2Input{ Bucket: aws.String(fs.config.Bucket), Prefix: aws.String(prefix), MaxKeys: &s3DefaultPageSize, }) for paginator.HasMorePages() { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() page, err := paginator.NextPage(ctx) if err != nil { metric.S3ListObjectsCompleted(err) walkFn(root, NewFileInfo(root, true, 0, time.Unix(0, 0), false), err) //nolint:errcheck return err } for _, fileObject := range page.Contents { name, isDir := fs.resolve(fileObject.Key, prefix) if name == "" { continue } err := walkFn(util.GetStringFromPointer(fileObject.Key), NewFileInfo(name, isDir, util.GetIntFromPointer(fileObject.Size), util.GetTimeFromPointer(fileObject.LastModified), false), nil) if err != nil { return err } } } metric.S3ListObjectsCompleted(nil) walkFn(root, NewFileInfo(root, true, 0, time.Unix(0, 0), false), nil) //nolint:errcheck return nil } // Join joins any number of path elements into a single path func (*S3Fs) Join(elem ...string) string { return strings.TrimPrefix(path.Join(elem...), "/") } // HasVirtualFolders returns true if folders are emulated func (*S3Fs) HasVirtualFolders() bool { return true } // ResolvePath returns the matching filesystem path for the specified virtual path func (fs *S3Fs) ResolvePath(virtualPath string) (string, error) { if fs.mountPath != "" { virtualPath = strings.TrimPrefix(virtualPath, fs.mountPath) } if !path.IsAbs(virtualPath) { virtualPath = path.Clean("/" + virtualPath) } return fs.Join(fs.config.KeyPrefix, strings.TrimPrefix(virtualPath, "/")), nil } // CopyFile implements the FsFileCopier interface func (fs *S3Fs) CopyFile(source, target string, srcSize int64) (int, int64, error) { numFiles := 1 sizeDiff := srcSize attrs, err := fs.headObject(target) if err == nil { sizeDiff -= util.GetIntFromPointer(attrs.ContentLength) numFiles = 0 } else { if !fs.IsNotExist(err) { return 0, 0, err } } if err := fs.copyFileInternal(source, target, srcSize); err != nil { return 0, 0, err } return numFiles, sizeDiff, nil } func (fs *S3Fs) resolve(name *string, prefix string) (string, bool) { result := strings.TrimPrefix(util.GetStringFromPointer(name), prefix) isDir := strings.HasSuffix(result, "/") if isDir { result = strings.TrimSuffix(result, "/") } return result, isDir } func (fs *S3Fs) setConfigDefaults() { if fs.config.UploadPartSize == 0 { fs.config.UploadPartSize = manager.DefaultUploadPartSize } else { if fs.config.UploadPartSize < 1024*1024 { fs.config.UploadPartSize *= 1024 * 1024 } } if fs.config.UploadConcurrency == 0 { fs.config.UploadConcurrency = manager.DefaultUploadConcurrency } if fs.config.DownloadPartSize == 0 { fs.config.DownloadPartSize = manager.DefaultDownloadPartSize } else { if fs.config.DownloadPartSize < 1024*1024 { fs.config.DownloadPartSize *= 1024 * 1024 } } if fs.config.DownloadConcurrency == 0 { fs.config.DownloadConcurrency = manager.DefaultDownloadConcurrency } } func (fs *S3Fs) copyFileInternal(source, target string, fileSize int64) error { contentType := mime.TypeByExtension(path.Ext(source)) copySource := pathEscape(fs.Join(fs.config.Bucket, source)) if fileSize > s3CopyObjectThreshold { fsLog(fs, logger.LevelDebug, "renaming file %q with size %d using multipart copy", source, fileSize) err := fs.doMultipartCopy(copySource, target, contentType, fileSize) metric.S3CopyObjectCompleted(err) return err } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() _, err := fs.svc.CopyObject(ctx, &s3.CopyObjectInput{ Bucket: aws.String(fs.config.Bucket), CopySource: aws.String(copySource), Key: aws.String(target), StorageClass: types.StorageClass(fs.config.StorageClass), ACL: types.ObjectCannedACL(fs.config.ACL), ContentType: util.NilIfEmpty(contentType), }) metric.S3CopyObjectCompleted(err) return err } func (fs *S3Fs) renameInternal(source, target string, fi os.FileInfo, recursion int) (int, int64, error) { var numFiles int var filesSize int64 if fi.IsDir() { if renameMode == 0 { hasContents, err := fs.hasContents(source) if err != nil { return numFiles, filesSize, err } if hasContents { return numFiles, filesSize, fmt.Errorf("%w: cannot rename non empty directory: %q", ErrVfsUnsupported, source) } } if err := fs.mkdirInternal(target); err != nil { return numFiles, filesSize, err } if renameMode == 1 { files, size, err := doRecursiveRename(fs, source, target, fs.renameInternal, recursion) numFiles += files filesSize += size if err != nil { return numFiles, filesSize, err } } } else { if err := fs.copyFileInternal(source, target, fi.Size()); err != nil { return numFiles, filesSize, err } numFiles++ filesSize += fi.Size() } err := fs.Remove(source, fi.IsDir()) if fs.IsNotExist(err) { err = nil } return numFiles, filesSize, err } func (fs *S3Fs) mkdirInternal(name string) error { if !strings.HasSuffix(name, "/") { name += "/" } _, w, _, err := fs.Create(name, -1, 0) if err != nil { return err } return w.Close() } func (fs *S3Fs) hasContents(name string) (bool, error) { prefix := fs.getPrefix(name) maxKeys := int32(2) paginator := s3.NewListObjectsV2Paginator(fs.svc, &s3.ListObjectsV2Input{ Bucket: aws.String(fs.config.Bucket), Prefix: aws.String(prefix), MaxKeys: &maxKeys, }) if paginator.HasMorePages() { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() page, err := paginator.NextPage(ctx) metric.S3ListObjectsCompleted(err) if err != nil { return false, err } for _, obj := range page.Contents { name, _ := fs.resolve(obj.Key, prefix) if name == "" || name == "/" { continue } return true, nil } return false, nil } metric.S3ListObjectsCompleted(nil) return false, nil } func (fs *S3Fs) doMultipartCopy(source, target, contentType string, fileSize int64) error { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() res, err := fs.svc.CreateMultipartUpload(ctx, &s3.CreateMultipartUploadInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(target), StorageClass: types.StorageClass(fs.config.StorageClass), ACL: types.ObjectCannedACL(fs.config.ACL), ContentType: util.NilIfEmpty(contentType), }) if err != nil { return fmt.Errorf("unable to create multipart copy request: %w", err) } uploadID := util.GetStringFromPointer(res.UploadId) if uploadID == "" { return errors.New("unable to get multipart copy upload ID") } // We use 32 MB part size and copy 10 parts in parallel. // These values are arbitrary. We don't want to start too many goroutines maxPartSize := int64(32 * 1024 * 1024) if fileSize > int64(100*1024*1024*1024) { maxPartSize = int64(500 * 1024 * 1024) } guard := make(chan struct{}, 10) finished := false var completedParts []types.CompletedPart var partMutex sync.Mutex var wg sync.WaitGroup var hasError atomic.Bool var errOnce sync.Once var copyError error var partNumber int32 var offset int64 opCtx, opCancel := context.WithCancel(context.Background()) defer opCancel() for partNumber = 1; !finished; partNumber++ { start := offset end := offset + maxPartSize if end >= fileSize { end = fileSize finished = true } offset = end guard <- struct{}{} if hasError.Load() { fsLog(fs, logger.LevelDebug, "previous multipart copy error, copy for part %d not started", partNumber) break } wg.Add(1) go func(partNum int32, partStart, partEnd int64) { defer func() { <-guard wg.Done() }() innerCtx, innerCancelFn := context.WithDeadline(opCtx, time.Now().Add(fs.ctxTimeout)) defer innerCancelFn() partResp, err := fs.svc.UploadPartCopy(innerCtx, &s3.UploadPartCopyInput{ Bucket: aws.String(fs.config.Bucket), CopySource: aws.String(source), Key: aws.String(target), PartNumber: &partNum, UploadId: aws.String(uploadID), CopySourceRange: aws.String(fmt.Sprintf("bytes=%d-%d", partStart, partEnd-1)), }) if err != nil { errOnce.Do(func() { fsLog(fs, logger.LevelError, "unable to copy part number %d: %+v", partNum, err) hasError.Store(true) copyError = fmt.Errorf("error copying part number %d: %w", partNum, err) opCancel() abortCtx, abortCancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer abortCancelFn() _, errAbort := fs.svc.AbortMultipartUpload(abortCtx, &s3.AbortMultipartUploadInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(target), UploadId: aws.String(uploadID), }) if errAbort != nil { fsLog(fs, logger.LevelError, "unable to abort multipart copy: %+v", errAbort) } }) return } partMutex.Lock() completedParts = append(completedParts, types.CompletedPart{ ETag: partResp.CopyPartResult.ETag, PartNumber: &partNum, }) partMutex.Unlock() }(partNumber, start, end) } wg.Wait() close(guard) if copyError != nil { return copyError } sort.Slice(completedParts, func(i, j int) bool { getPartNumber := func(number *int32) int32 { if number == nil { return 0 } return *number } return getPartNumber(completedParts[i].PartNumber) < getPartNumber(completedParts[j].PartNumber) }) completeCtx, completeCancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer completeCancelFn() _, err = fs.svc.CompleteMultipartUpload(completeCtx, &s3.CompleteMultipartUploadInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(target), UploadId: aws.String(uploadID), MultipartUpload: &types.CompletedMultipartUpload{ Parts: completedParts, }, }) if err != nil { return fmt.Errorf("unable to complete multipart upload: %w", err) } return nil } func (fs *S3Fs) getPrefix(name string) string { prefix := "" if name != "" && name != "." && name != "/" { prefix = strings.TrimPrefix(name, "/") if !strings.HasSuffix(prefix, "/") { prefix += "/" } } return prefix } func (fs *S3Fs) headObject(name string) (*s3.HeadObjectOutput, error) { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() obj, err := fs.svc.HeadObject(ctx, &s3.HeadObjectInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(name), }) metric.S3HeadObjectCompleted(err) return obj, err } // GetMimeType returns the content type func (fs *S3Fs) GetMimeType(name string) (string, error) { obj, err := fs.headObject(name) if err != nil { return "", err } return util.GetStringFromPointer(obj.ContentType), nil } // Close closes the fs func (*S3Fs) Close() error { return nil } // GetAvailableDiskSize returns the available size for the specified path func (*S3Fs) GetAvailableDiskSize(_ string) (*sftp.StatVFS, error) { return nil, ErrStorageSizeUnavailable } func (fs *S3Fs) downloadToWriter(name string, w PipeWriter) (int64, error) { fsLog(fs, logger.LevelDebug, "starting download before resuming upload, path %q", name) ctx, cancelFn := context.WithTimeout(context.Background(), preResumeTimeout) defer cancelFn() downloader := manager.NewDownloader(fs.svc, func(d *manager.Downloader) { d.Concurrency = fs.config.DownloadConcurrency d.PartSize = fs.config.DownloadPartSize if fs.config.DownloadPartMaxTime > 0 { d.ClientOptions = append(d.ClientOptions, func(o *s3.Options) { o.HTTPClient = getAWSHTTPClient(fs.config.DownloadPartMaxTime, 100*time.Millisecond, fs.config.SkipTLSVerify) }) } }) n, err := downloader.Download(ctx, w, &s3.GetObjectInput{ Bucket: aws.String(fs.config.Bucket), Key: aws.String(name), }) fsLog(fs, logger.LevelDebug, "download before resuming upload completed, path %q size: %d, err: %+v", name, n, err) metric.S3TransferCompleted(n, 1, err) return n, err } type s3DirLister struct { baseDirLister paginator *s3.ListObjectsV2Paginator timeout time.Duration prefix string prefixes map[string]bool metricUpdated bool } func (l *s3DirLister) resolve(name *string) (string, bool) { result := strings.TrimPrefix(util.GetStringFromPointer(name), l.prefix) isDir := strings.HasSuffix(result, "/") if isDir { result = strings.TrimSuffix(result, "/") } return result, isDir } func (l *s3DirLister) Next(limit int) ([]os.FileInfo, error) { if limit <= 0 { return nil, errInvalidDirListerLimit } if len(l.cache) >= limit { return l.returnFromCache(limit), nil } if !l.paginator.HasMorePages() { if !l.metricUpdated { l.metricUpdated = true metric.S3ListObjectsCompleted(nil) } return l.returnFromCache(limit), io.EOF } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(l.timeout)) defer cancelFn() page, err := l.paginator.NextPage(ctx) if err != nil { metric.S3ListObjectsCompleted(err) return l.cache, err } for _, p := range page.CommonPrefixes { // prefixes have a trailing slash name, _ := l.resolve(p.Prefix) if name == "" { continue } if _, ok := l.prefixes[name]; ok { continue } l.cache = append(l.cache, NewFileInfo(name, true, 0, time.Unix(0, 0), false)) l.prefixes[name] = true } for _, fileObject := range page.Contents { objectModTime := util.GetTimeFromPointer(fileObject.LastModified) objectSize := util.GetIntFromPointer(fileObject.Size) name, isDir := l.resolve(fileObject.Key) if name == "" || name == "/" { continue } if isDir { if _, ok := l.prefixes[name]; ok { continue } l.prefixes[name] = true } l.cache = append(l.cache, NewFileInfo(name, (isDir && objectSize == 0), objectSize, objectModTime, false)) } return l.returnFromCache(limit), nil } func (l *s3DirLister) Close() error { return l.baseDirLister.Close() } func getAWSHTTPClient(timeout int, idleConnectionTimeout time.Duration, skipTLSVerify bool) *awshttp.BuildableClient { c := awshttp.NewBuildableClient(). WithDialerOptions(func(d *net.Dialer) { d.Timeout = 8 * time.Second }). WithTransportOptions(func(tr *http.Transport) { tr.IdleConnTimeout = idleConnectionTimeout tr.WriteBufferSize = s3TransferBufferSize tr.ReadBufferSize = s3TransferBufferSize if skipTLSVerify { if tr.TLSClientConfig != nil { tr.TLSClientConfig.InsecureSkipVerify = skipTLSVerify } else { tr.TLSClientConfig = &tls.Config{ MinVersion: awshttp.DefaultHTTPTransportTLSMinVersion, InsecureSkipVerify: skipTLSVerify, } } } }) if timeout > 0 { c = c.WithTimeout(time.Duration(timeout) * time.Second) } return c } // ideally we should simply use url.PathEscape: // // https://github.com/awsdocs/aws-doc-sdk-examples/blob/master/go/example_code/s3/s3_copy_object.go#L65 // // but this cause issue with some vendors, see #483, the code below is copied from rclone func pathEscape(in string) string { var u url.URL u.Path = in return strings.ReplaceAll(u.String(), "+", "%2B") }