// Package s3store provides a storage backend using AWS S3 or compatible servers. // // Configuration // // In order to allow this backend to function properly, the user accessing the // bucket must have at least following AWS IAM policy permissions for the // bucket and all of its subresources: // s3:AbortMultipartUpload // s3:DeleteObject // s3:GetObject // s3:ListMultipartUploadParts // s3:PutObject // // While this package uses the official AWS SDK for Go, S3Store is able // to work with any S3-compatible service such as Riak CS. In order to change // the HTTP endpoint used for sending requests to, consult the AWS Go SDK // (http://docs.aws.amazon.com/sdk-for-go/api/aws/Config.html#WithEndpoint-instance_method). // // Implementation // // Once a new tus upload is initiated, multiple objects in S3 are created: // // First of all, a new info object is stored which contains a JSON-encoded blob // of general information about the upload including its size and meta data. // This kind of objects have the suffix ".info" in their key. // // In addition a new multipart upload // (http://docs.aws.amazon.com/AmazonS3/latest/dev/uploadobjusingmpu.html) is // created. Whenever a new chunk is uploaded to tusd using a PATCH request, a // new part is pushed to the multipart upload on S3. // // If meta data is associated with the upload during creation, it will be added // to the multipart upload and after finishing it, the meta data will be passed // to the final object. However, the metadata which will be attached to the // final object can only contain ASCII characters and every non-ASCII character // will be replaced by a question mark (for example, "MenĂ¼" will be "Men?"). // However, this does not apply for the metadata returned by the GetInfo // function since it relies on the info object for reading the metadata. // Therefore, HEAD responses will always contain the unchanged metadata, Base64- // encoded, even if it contains non-ASCII characters. // // Once the upload is finished, the multipart upload is completed, resulting in // the entire file being stored in the bucket. The info object, containing // meta data is not deleted. It is recommended to copy the finished upload to // another bucket to avoid it being deleted by the Termination extension. // // If an upload is about to being terminated, the multipart upload is aborted // which removes all of the uploaded parts from the bucket. In addition, the // info object is also deleted. If the upload has been finished already, the // finished object containing the entire upload is also removed. // // Considerations // // In order to support tus' principle of resumable upload, S3's Multipart-Uploads // are internally used. // // When receiving a PATCH request, its body will be temporarily stored on disk. // This requirement has been made to ensure the minimum size of a single part // and to allow the AWS SDK to calculate a checksum. Once the part has been uploaded // to S3, the temporary file will be removed immediately. Therefore, please // ensure that the server running this storage backend has enough disk space // available to hold these caches. // // In addition, it must be mentioned that AWS S3 only offers eventual // consistency (https://docs.aws.amazon.com/AmazonS3/latest/dev/Introduction.html#ConsistencyModel). // Therefore, it is required to build additional measurements in order to // prevent concurrent access to the same upload resources which may result in // data corruption. See handler.LockerDataStore for more information. package s3store import ( "bytes" "context" "encoding/json" "errors" "fmt" "io" "io/ioutil" "net/http" "os" "regexp" "strings" "sync" "time" "github.com/tus/tusd/internal/uid" "github.com/tus/tusd/pkg/handler" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/awserr" "github.com/aws/aws-sdk-go/aws/request" "github.com/aws/aws-sdk-go/service/s3" ) // This regular expression matches every character which is not defined in the // ASCII tables which range from 00 to 7F, inclusive. // It also matches the \r and \n characters which are not allowed in values // for HTTP headers. var nonASCIIRegexp = regexp.MustCompile(`([^\x00-\x7F]|[\r\n])`) // See the handler.DataStore interface for documentation about the different // methods. type S3Store struct { // Bucket used to store the data in, e.g. "tusdstore.example.com" Bucket string // ObjectPrefix is prepended to the name of each S3 object that is created // to store uploaded files. It can be used to create a pseudo-directory // structure in the bucket, e.g. "path/to/my/uploads". ObjectPrefix string // MetadataObjectPrefix is prepended to the name of each .info and .part S3 // object that is created. If it is not set, then ObjectPrefix is used. MetadataObjectPrefix string // Service specifies an interface used to communicate with the S3 backend. // Usually, this is an instance of github.com/aws/aws-sdk-go/service/s3.S3 // (http://docs.aws.amazon.com/sdk-for-go/api/service/s3/S3.html). Service S3API // MaxPartSize specifies the maximum size of a single part uploaded to S3 // in bytes. This value must be bigger than MinPartSize! In order to // choose the correct number, two things have to be kept in mind: // // If this value is too big and uploading the part to S3 is interrupted // expectedly, the entire part is discarded and the end user is required // to resume the upload and re-upload the entire big part. In addition, the // entire part must be written to disk before submitting to S3. // // If this value is too low, a lot of requests to S3 may be made, depending // on how fast data is coming in. This may result in an eventual overhead. MaxPartSize int64 // MinPartSize specifies the minimum size of a single part uploaded to S3 // in bytes. This number needs to match with the underlying S3 backend or else // uploaded parts will be reject. AWS S3, for example, uses 5MB for this value. MinPartSize int64 // PreferredPartSize specifies the preferred size of a single part uploaded to // S3. S3Store will attempt to slice the incoming data into parts with this // size whenever possible. In some cases, smaller parts are necessary, so // not every part may reach this value. The PreferredPartSize must be inside the // range of MinPartSize to MaxPartSize. PreferredPartSize int64 // MaxMultipartParts is the maximum number of parts an S3 multipart upload is // allowed to have according to AWS S3 API specifications. // See: http://docs.aws.amazon.com/AmazonS3/latest/dev/qfacts.html MaxMultipartParts int64 // MaxObjectSize is the maximum size an S3 Object can have according to S3 // API specifications. See link above. MaxObjectSize int64 // MaxBufferedParts is the number of additional parts that can be received from // the client and stored on disk while a part is being uploaded to S3. This // can help improve throughput by not blocking the client while tusd is // communicating with the S3 API, which can have unpredictable latency. MaxBufferedParts int64 // TemporaryDirectory is the path where S3Store will create temporary files // on disk during the upload. An empty string ("", the default value) will // cause S3Store to use the operating system's default temporary directory. TemporaryDirectory string // DisableContentHashes instructs the S3Store to not calculate the MD5 and SHA256 // hashes when uploading data to S3. These hashes are used for file integrity checks // and for authentication. However, these hashes also consume a significant amount of // CPU, so it might be desirable to disable them. // Note that this property is experimental and might be removed in the future! DisableContentHashes bool } type S3API interface { PutObjectWithContext(ctx context.Context, input *s3.PutObjectInput, opt ...request.Option) (*s3.PutObjectOutput, error) ListPartsWithContext(ctx context.Context, input *s3.ListPartsInput, opt ...request.Option) (*s3.ListPartsOutput, error) UploadPartWithContext(ctx context.Context, input *s3.UploadPartInput, opt ...request.Option) (*s3.UploadPartOutput, error) GetObjectWithContext(ctx context.Context, input *s3.GetObjectInput, opt ...request.Option) (*s3.GetObjectOutput, error) CreateMultipartUploadWithContext(ctx context.Context, input *s3.CreateMultipartUploadInput, opt ...request.Option) (*s3.CreateMultipartUploadOutput, error) AbortMultipartUploadWithContext(ctx context.Context, input *s3.AbortMultipartUploadInput, opt ...request.Option) (*s3.AbortMultipartUploadOutput, error) DeleteObjectWithContext(ctx context.Context, input *s3.DeleteObjectInput, opt ...request.Option) (*s3.DeleteObjectOutput, error) DeleteObjectsWithContext(ctx context.Context, input *s3.DeleteObjectsInput, opt ...request.Option) (*s3.DeleteObjectsOutput, error) CompleteMultipartUploadWithContext(ctx context.Context, input *s3.CompleteMultipartUploadInput, opt ...request.Option) (*s3.CompleteMultipartUploadOutput, error) UploadPartCopyWithContext(ctx context.Context, input *s3.UploadPartCopyInput, opt ...request.Option) (*s3.UploadPartCopyOutput, error) } type s3APIForPresigning interface { UploadPartRequest(input *s3.UploadPartInput) (req *request.Request, output *s3.UploadPartOutput) } // New constructs a new storage using the supplied bucket and service object. func New(bucket string, service S3API) S3Store { return S3Store{ Bucket: bucket, Service: service, MaxPartSize: 5 * 1024 * 1024 * 1024, MinPartSize: 5 * 1024 * 1024, PreferredPartSize: 50 * 1024 * 1024, MaxMultipartParts: 10000, MaxObjectSize: 5 * 1024 * 1024 * 1024 * 1024, MaxBufferedParts: 20, TemporaryDirectory: "", } } // UseIn sets this store as the core data store in the passed composer and adds // all possible extension to it. func (store S3Store) UseIn(composer *handler.StoreComposer) { composer.UseCore(store) composer.UseTerminater(store) composer.UseConcater(store) composer.UseLengthDeferrer(store) } type s3Upload struct { id string store *S3Store // info stores the upload's current FileInfo struct. It may be nil if it hasn't // been fetched yet from S3. Never read or write to it directly but instead use // the GetInfo and writeInfo functions. info *handler.FileInfo } func (store S3Store) NewUpload(ctx context.Context, info handler.FileInfo) (handler.Upload, error) { // an upload larger than MaxObjectSize must throw an error if info.Size > store.MaxObjectSize { return nil, fmt.Errorf("s3store: upload size of %v bytes exceeds MaxObjectSize of %v bytes", info.Size, store.MaxObjectSize) } var uploadId string if info.ID == "" { uploadId = uid.Uid() } else { // certain tests set info.ID in advance uploadId = info.ID } // Convert meta data into a map of pointers for AWS Go SDK, sigh. metadata := make(map[string]*string, len(info.MetaData)) for key, value := range info.MetaData { // Copying the value is required in order to prevent it from being // overwritten by the next iteration. v := nonASCIIRegexp.ReplaceAllString(value, "?") metadata[key] = &v } // Create the actual multipart upload res, err := store.Service.CreateMultipartUploadWithContext(ctx, &s3.CreateMultipartUploadInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), Metadata: metadata, }) if err != nil { return nil, fmt.Errorf("s3store: unable to create multipart upload:\n%s", err) } id := uploadId + "+" + *res.UploadId info.ID = id info.Storage = map[string]string{ "Type": "s3store", "Bucket": store.Bucket, "Key": *store.keyWithPrefix(uploadId), } upload := &s3Upload{id, &store, nil} err = upload.writeInfo(ctx, info) if err != nil { return nil, fmt.Errorf("s3store: unable to create info file:\n%s", err) } return upload, nil } func (store S3Store) GetUpload(ctx context.Context, id string) (handler.Upload, error) { return &s3Upload{id, &store, nil}, nil } func (store S3Store) AsTerminatableUpload(upload handler.Upload) handler.TerminatableUpload { return upload.(*s3Upload) } func (store S3Store) AsLengthDeclarableUpload(upload handler.Upload) handler.LengthDeclarableUpload { return upload.(*s3Upload) } func (store S3Store) AsConcatableUpload(upload handler.Upload) handler.ConcatableUpload { return upload.(*s3Upload) } func (upload *s3Upload) writeInfo(ctx context.Context, info handler.FileInfo) error { id := upload.id store := upload.store uploadId, _ := splitIds(id) upload.info = &info infoJson, err := json.Marshal(info) if err != nil { return err } // Create object on S3 containing information about the file _, err = store.Service.PutObjectWithContext(ctx, &s3.PutObjectInput{ Bucket: aws.String(store.Bucket), Key: store.metadataKeyWithPrefix(uploadId + ".info"), Body: bytes.NewReader(infoJson), ContentLength: aws.Int64(int64(len(infoJson))), }) return err } // s3PartProducer converts a stream of bytes from the reader into a stream of files on disk type s3PartProducer struct { store *S3Store files chan<- *os.File done chan struct{} err error r io.Reader } func (spp *s3PartProducer) produce(partSize int64) { for { file, err := spp.nextPart(partSize) if err != nil { spp.err = err close(spp.files) return } if file == nil { close(spp.files) return } select { case spp.files <- file: case <-spp.done: close(spp.files) return } } } func (spp *s3PartProducer) nextPart(size int64) (*os.File, error) { // Create a temporary file to store the part file, err := ioutil.TempFile(spp.store.TemporaryDirectory, "tusd-s3-tmp-") if err != nil { return nil, err } limitedReader := io.LimitReader(spp.r, size) n, err := io.Copy(file, limitedReader) // If the HTTP PATCH request gets interrupted in the middle (e.g. because // the user wants to pause the upload), Go's net/http returns an io.ErrUnexpectedEOF. // However, for S3Store it's not important whether the stream has ended // on purpose or accidentally. Therefore, we ignore this error to not // prevent the remaining chunk to be stored on S3. if err == io.ErrUnexpectedEOF { err = nil } // In some cases, the HTTP connection gets reset by the other peer. This is not // necessarily the tus client but can also be a proxy in front of tusd, e.g. HAProxy 2 // is known to reset the connection to tusd, when the tus client closes the connection. // To avoid erroring out in this case and loosing the uploaded data, we can ignore // the error here without causing harm. // TODO: Move this into unrouted_handler.go, so other stores can also take advantage of this. if err != nil && strings.Contains(err.Error(), "read: connection reset by peer") { err = nil } if err != nil { return nil, err } // If the entire request body is read and no more data is available, // io.Copy returns 0 since it is unable to read any bytes. In that // case, we can close the s3PartProducer. if n == 0 { cleanUpTempFile(file) return nil, nil } // Seek to the beginning of the file file.Seek(0, 0) return file, nil } func (upload s3Upload) WriteChunk(ctx context.Context, offset int64, src io.Reader) (int64, error) { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) // Get the total size of the current upload info, err := upload.GetInfo(ctx) if err != nil { return 0, err } size := info.Size bytesUploaded := int64(0) optimalPartSize, err := store.calcOptimalPartSize(size) if err != nil { return 0, err } // Get number of parts to generate next number parts, err := store.listAllParts(ctx, id) if err != nil { return 0, err } numParts := len(parts) nextPartNum := int64(numParts + 1) incompletePartFile, incompletePartSize, err := store.downloadIncompletePartForUpload(ctx, uploadId) if err != nil { return 0, err } if incompletePartFile != nil { defer cleanUpTempFile(incompletePartFile) if err := store.deleteIncompletePartForUpload(ctx, uploadId); err != nil { return 0, err } src = io.MultiReader(incompletePartFile, src) } fileChan := make(chan *os.File, store.MaxBufferedParts) doneChan := make(chan struct{}) defer close(doneChan) // If we panic or return while there are still files in the channel, then // we may leak file descriptors. Let's ensure that those are cleaned up. defer func() { for file := range fileChan { cleanUpTempFile(file) } }() partProducer := s3PartProducer{ store: store, done: doneChan, files: fileChan, r: src, } go partProducer.produce(optimalPartSize) for file := range fileChan { stat, err := file.Stat() if err != nil { return 0, err } n := stat.Size() isFinalChunk := !info.SizeIsDeferred && (size == (offset-incompletePartSize)+n) if n >= store.MinPartSize || isFinalChunk { uploadPartInput := &s3.UploadPartInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), PartNumber: aws.Int64(nextPartNum), } if err := upload.putPartForUpload(ctx, uploadPartInput, file, n); err != nil { return bytesUploaded, err } } else { if err := store.putIncompletePartForUpload(ctx, uploadId, file); err != nil { return bytesUploaded, err } bytesUploaded += n return (bytesUploaded - incompletePartSize), nil } offset += n bytesUploaded += n nextPartNum += 1 } return bytesUploaded - incompletePartSize, partProducer.err } func cleanUpTempFile(file *os.File) { file.Close() os.Remove(file.Name()) } func (upload *s3Upload) putPartForUpload(ctx context.Context, uploadPartInput *s3.UploadPartInput, file *os.File, size int64) error { defer cleanUpTempFile(file) if !upload.store.DisableContentHashes { // By default, use the traditional approach to upload data uploadPartInput.Body = file _, err := upload.store.Service.UploadPartWithContext(ctx, uploadPartInput) return err } else { // Experimental feature to prevent the AWS SDK from calculating the SHA256 hash // for the parts we upload to S3. // We compute the presigned URL without the body attached and then send the request // on our own. This way, the body is not included in the SHA256 calculation. s3api, ok := upload.store.Service.(s3APIForPresigning) if !ok { return fmt.Errorf("s3store: failed to cast S3 service for presigning") } s3Req, _ := s3api.UploadPartRequest(uploadPartInput) url, err := s3Req.Presign(15 * time.Minute) if err != nil { return err } req, err := http.NewRequest("PUT", url, file) if err != nil { return err } // Set the Content-Length manually to prevent the usage of Transfer-Encoding: chunked, // which is not supported by AWS S3. req.ContentLength = size res, err := http.DefaultClient.Do(req) if err != nil { return err } defer res.Body.Close() if res.StatusCode != 200 { buf := new(strings.Builder) io.Copy(buf, res.Body) return fmt.Errorf("s3store: unexpected response code %d for presigned upload: %s", res.StatusCode, buf.String()) } return nil } } func (upload *s3Upload) GetInfo(ctx context.Context) (info handler.FileInfo, err error) { if upload.info != nil { return *upload.info, nil } info, err = upload.fetchInfo(ctx) if err != nil { return info, err } upload.info = &info return info, nil } func (upload s3Upload) fetchInfo(ctx context.Context) (info handler.FileInfo, err error) { id := upload.id store := upload.store uploadId, _ := splitIds(id) // Get file info stored in separate object res, err := store.Service.GetObjectWithContext(ctx, &s3.GetObjectInput{ Bucket: aws.String(store.Bucket), Key: store.metadataKeyWithPrefix(uploadId + ".info"), }) if err != nil { if isAwsError(err, "NoSuchKey") { return info, handler.ErrNotFound } return info, err } if err := json.NewDecoder(res.Body).Decode(&info); err != nil { return info, err } // Get uploaded parts and their offset parts, err := store.listAllParts(ctx, id) if err != nil { // Check if the error is caused by the upload not being found. This happens // when the multipart upload has already been completed or aborted. Since // we already found the info object, we know that the upload has been // completed and therefore can ensure the the offset is the size. if isAwsError(err, "NoSuchUpload") { info.Offset = info.Size return info, nil } else { return info, err } } offset := int64(0) for _, part := range parts { offset += *part.Size } incompletePartObject, err := store.getIncompletePartForUpload(ctx, uploadId) if err != nil { return info, err } if incompletePartObject != nil { defer incompletePartObject.Body.Close() offset += *incompletePartObject.ContentLength } info.Offset = offset return } func (upload s3Upload) GetReader(ctx context.Context) (io.Reader, error) { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) // Attempt to get upload content res, err := store.Service.GetObjectWithContext(ctx, &s3.GetObjectInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), }) if err == nil { // No error occurred, and we are able to stream the object return res.Body, nil } // If the file cannot be found, we ignore this error and continue since the // upload may not have been finished yet. In this case we do not want to // return a ErrNotFound but a more meaning-full message. if !isAwsError(err, "NoSuchKey") { return nil, err } // Test whether the multipart upload exists to find out if the upload // never existsted or just has not been finished yet _, err = store.Service.ListPartsWithContext(ctx, &s3.ListPartsInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), MaxParts: aws.Int64(0), }) if err == nil { // The multipart upload still exists, which means we cannot download it yet return nil, errors.New("cannot stream non-finished upload") } if isAwsError(err, "NoSuchUpload") { // Neither the object nor the multipart upload exists, so we return a 404 return nil, handler.ErrNotFound } return nil, err } func (upload s3Upload) Terminate(ctx context.Context) error { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) var wg sync.WaitGroup wg.Add(2) errs := make([]error, 0, 3) go func() { defer wg.Done() // Abort the multipart upload _, err := store.Service.AbortMultipartUploadWithContext(ctx, &s3.AbortMultipartUploadInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), }) if err != nil && !isAwsError(err, "NoSuchUpload") { errs = append(errs, err) } }() go func() { defer wg.Done() // Delete the info and content files res, err := store.Service.DeleteObjectsWithContext(ctx, &s3.DeleteObjectsInput{ Bucket: aws.String(store.Bucket), Delete: &s3.Delete{ Objects: []*s3.ObjectIdentifier{ { Key: store.keyWithPrefix(uploadId), }, { Key: store.metadataKeyWithPrefix(uploadId + ".part"), }, { Key: store.metadataKeyWithPrefix(uploadId + ".info"), }, }, Quiet: aws.Bool(true), }, }) if err != nil { errs = append(errs, err) return } for _, s3Err := range res.Errors { if *s3Err.Code != "NoSuchKey" { errs = append(errs, fmt.Errorf("AWS S3 Error (%s) for object %s: %s", *s3Err.Code, *s3Err.Key, *s3Err.Message)) } } }() wg.Wait() if len(errs) > 0 { return newMultiError(errs) } return nil } func (upload s3Upload) FinishUpload(ctx context.Context) error { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) // Get uploaded parts parts, err := store.listAllParts(ctx, id) if err != nil { return err } if len(parts) == 0 { // AWS expects at least one part to be present when completing the multipart // upload. So if the tus upload has a size of 0, we create an empty part // and use that for completing the multipart upload. res, err := store.Service.UploadPartWithContext(ctx, &s3.UploadPartInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), PartNumber: aws.Int64(1), Body: bytes.NewReader([]byte{}), }) if err != nil { return err } parts = []*s3.Part{ &s3.Part{ ETag: res.ETag, PartNumber: aws.Int64(1), }, } } // Transform the []*s3.Part slice to a []*s3.CompletedPart slice for the next // request. completedParts := make([]*s3.CompletedPart, len(parts)) for index, part := range parts { completedParts[index] = &s3.CompletedPart{ ETag: part.ETag, PartNumber: part.PartNumber, } } _, err = store.Service.CompleteMultipartUploadWithContext(ctx, &s3.CompleteMultipartUploadInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), MultipartUpload: &s3.CompletedMultipartUpload{ Parts: completedParts, }, }) return err } func (upload *s3Upload) ConcatUploads(ctx context.Context, partialUploads []handler.Upload) error { hasSmallPart := false for _, partialUpload := range partialUploads { info, err := partialUpload.GetInfo(ctx) if err != nil { return err } if info.Size < upload.store.MinPartSize { hasSmallPart = true } } // If one partial upload is smaller than the the minimum part size for an S3 // Multipart Upload, we cannot use S3 Multipart Uploads for concatenating all // the files. // So instead we have to download them and concat them on disk. if hasSmallPart { return upload.concatUsingDownload(ctx, partialUploads) } else { return upload.concatUsingMultipart(ctx, partialUploads) } } func (upload *s3Upload) concatUsingDownload(ctx context.Context, partialUploads []handler.Upload) error { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) // Create a temporary file for holding the concatenated data file, err := ioutil.TempFile(store.TemporaryDirectory, "tusd-s3-concat-tmp-") if err != nil { return err } defer cleanUpTempFile(file) // Download each part and append it to the temporary file for _, partialUpload := range partialUploads { partialS3Upload := partialUpload.(*s3Upload) partialId, _ := splitIds(partialS3Upload.id) res, err := store.Service.GetObjectWithContext(ctx, &s3.GetObjectInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(partialId), }) if err != nil { return err } defer res.Body.Close() if _, err := io.Copy(file, res.Body); err != nil { return err } } // Seek to the beginning of the file, so the entire file is being uploaded file.Seek(0, 0) // Upload the entire file to S3 _, err = store.Service.PutObjectWithContext(ctx, &s3.PutObjectInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), Body: file, }) if err != nil { return err } // Finally, abort the multipart upload since it will no longer be used. // This happens asynchronously since we do not need to wait for the result. // Also, the error is ignored on purpose as it does not change the outcome of // the request. go func() { store.Service.AbortMultipartUploadWithContext(ctx, &s3.AbortMultipartUploadInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), }) }() return nil } func (upload *s3Upload) concatUsingMultipart(ctx context.Context, partialUploads []handler.Upload) error { id := upload.id store := upload.store uploadId, multipartId := splitIds(id) numPartialUploads := len(partialUploads) errs := make([]error, 0, numPartialUploads) // Copy partial uploads concurrently var wg sync.WaitGroup wg.Add(numPartialUploads) for i, partialUpload := range partialUploads { partialS3Upload := partialUpload.(*s3Upload) partialId, _ := splitIds(partialS3Upload.id) go func(i int, partialId string) { defer wg.Done() _, err := store.Service.UploadPartCopyWithContext(ctx, &s3.UploadPartCopyInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), // Part numbers must be in the range of 1 to 10000, inclusive. Since // slice indexes start at 0, we add 1 to ensure that i >= 1. PartNumber: aws.Int64(int64(i + 1)), CopySource: aws.String(store.Bucket + "/" + partialId), }) if err != nil { errs = append(errs, err) return } }(i, partialId) } wg.Wait() if len(errs) > 0 { return newMultiError(errs) } return upload.FinishUpload(ctx) } func (upload *s3Upload) DeclareLength(ctx context.Context, length int64) error { info, err := upload.GetInfo(ctx) if err != nil { return err } info.Size = length info.SizeIsDeferred = false return upload.writeInfo(ctx, info) } func (store S3Store) listAllParts(ctx context.Context, id string) (parts []*s3.Part, err error) { uploadId, multipartId := splitIds(id) partMarker := int64(0) for { // Get uploaded parts listPtr, err := store.Service.ListPartsWithContext(ctx, &s3.ListPartsInput{ Bucket: aws.String(store.Bucket), Key: store.keyWithPrefix(uploadId), UploadId: aws.String(multipartId), PartNumberMarker: aws.Int64(partMarker), }) if err != nil { return nil, err } parts = append(parts, (*listPtr).Parts...) if listPtr.IsTruncated != nil && *listPtr.IsTruncated { partMarker = *listPtr.NextPartNumberMarker } else { break } } return parts, nil } func (store S3Store) downloadIncompletePartForUpload(ctx context.Context, uploadId string) (*os.File, int64, error) { incompleteUploadObject, err := store.getIncompletePartForUpload(ctx, uploadId) if err != nil { return nil, 0, err } if incompleteUploadObject == nil { // We did not find an incomplete upload return nil, 0, nil } defer incompleteUploadObject.Body.Close() partFile, err := ioutil.TempFile(store.TemporaryDirectory, "tusd-s3-tmp-") if err != nil { return nil, 0, err } n, err := io.Copy(partFile, incompleteUploadObject.Body) if err != nil { return nil, 0, err } if n < *incompleteUploadObject.ContentLength { return nil, 0, errors.New("short read of incomplete upload") } _, err = partFile.Seek(0, 0) if err != nil { return nil, 0, err } return partFile, n, nil } func (store S3Store) getIncompletePartForUpload(ctx context.Context, uploadId string) (*s3.GetObjectOutput, error) { obj, err := store.Service.GetObjectWithContext(ctx, &s3.GetObjectInput{ Bucket: aws.String(store.Bucket), Key: store.metadataKeyWithPrefix(uploadId + ".part"), }) if err != nil && (isAwsError(err, s3.ErrCodeNoSuchKey) || isAwsError(err, "NotFound") || isAwsError(err, "AccessDenied")) { return nil, nil } return obj, err } func (store S3Store) putIncompletePartForUpload(ctx context.Context, uploadId string, file *os.File) error { defer cleanUpTempFile(file) _, err := store.Service.PutObjectWithContext(ctx, &s3.PutObjectInput{ Bucket: aws.String(store.Bucket), Key: store.metadataKeyWithPrefix(uploadId + ".part"), Body: file, }) return err } func (store S3Store) deleteIncompletePartForUpload(ctx context.Context, uploadId string) error { _, err := store.Service.DeleteObjectWithContext(ctx, &s3.DeleteObjectInput{ Bucket: aws.String(store.Bucket), Key: store.metadataKeyWithPrefix(uploadId + ".part"), }) return err } func splitIds(id string) (uploadId, multipartId string) { index := strings.Index(id, "+") if index == -1 { return } uploadId = id[:index] multipartId = id[index+1:] return } // isAwsError tests whether an error object is an instance of the AWS error // specified by its code. func isAwsError(err error, code string) bool { if err, ok := err.(awserr.Error); ok && err.Code() == code { return true } return false } func (store S3Store) calcOptimalPartSize(size int64) (optimalPartSize int64, err error) { switch { // When upload is smaller or equal to PreferredPartSize, we upload in just one part. case size <= store.PreferredPartSize: optimalPartSize = store.PreferredPartSize // Does the upload fit in MaxMultipartParts parts or less with PreferredPartSize. case size <= store.PreferredPartSize*store.MaxMultipartParts: optimalPartSize = store.PreferredPartSize // Prerequisite: Be aware, that the result of an integer division (x/y) is // ALWAYS rounded DOWN, as there are no digits behind the comma. // In order to find out, whether we have an exact result or a rounded down // one, we can check, whether the remainder of that division is 0 (x%y == 0). // // So if the result of (size/MaxMultipartParts) is not a rounded down value, // then we can use it as our optimalPartSize. But if this division produces a // remainder, we have to round up the result by adding +1. Otherwise our // upload would not fit into MaxMultipartParts number of parts with that // size. We would need an additional part in order to upload everything. // While in almost all cases, we could skip the check for the remainder and // just add +1 to every result, but there is one case, where doing that would // doom our upload. When (MaxObjectSize == MaxPartSize * MaxMultipartParts), // by adding +1, we would end up with an optimalPartSize > MaxPartSize. // With the current S3 API specifications, we will not run into this problem, // but these specs are subject to change, and there are other stores as well, // which are implementing the S3 API (e.g. RIAK, Ceph RadosGW), but might // have different settings. case size%store.MaxMultipartParts == 0: optimalPartSize = size / store.MaxMultipartParts // Having a remainder larger than 0 means, the float result would have // digits after the comma (e.g. be something like 10.9). As a result, we can // only squeeze our upload into MaxMultipartParts parts, if we rounded UP // this division's result. That is what is happending here. We round up by // adding +1, if the prior test for (remainder == 0) did not succeed. default: optimalPartSize = size/store.MaxMultipartParts + 1 } // optimalPartSize must never exceed MaxPartSize if optimalPartSize > store.MaxPartSize { return optimalPartSize, fmt.Errorf("calcOptimalPartSize: to upload %v bytes optimalPartSize %v must exceed MaxPartSize %v", size, optimalPartSize, store.MaxPartSize) } return optimalPartSize, nil } func (store S3Store) keyWithPrefix(key string) *string { prefix := store.ObjectPrefix if prefix != "" && !strings.HasSuffix(prefix, "/") { prefix += "/" } return aws.String(prefix + key) } func (store S3Store) metadataKeyWithPrefix(key string) *string { prefix := store.MetadataObjectPrefix if prefix == "" { prefix = store.ObjectPrefix } if prefix != "" && !strings.HasSuffix(prefix, "/") { prefix += "/" } return aws.String(prefix + key) }