//go:build mint // +build mint /* * MinIO Go Library for Amazon S3 Compatible Cloud Storage * Copyright 2015-2020 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package main import ( "archive/zip" "bytes" "context" "crypto/sha256" "encoding/base64" "errors" "fmt" "hash" "hash/crc32" "io" "log/slog" "math/rand" "mime/multipart" "net/http" "net/url" "os" "path" "path/filepath" "reflect" "runtime" "sort" "strconv" "strings" "sync" "time" "github.com/dustin/go-humanize" "github.com/google/uuid" "github.com/minio/minio-go/v7" "github.com/minio/minio-go/v7/pkg/cors" "github.com/minio/minio-go/v7/pkg/credentials" "github.com/minio/minio-go/v7/pkg/encrypt" "github.com/minio/minio-go/v7/pkg/notification" "github.com/minio/minio-go/v7/pkg/tags" ) const letterBytes = "abcdefghijklmnopqrstuvwxyz01234569" const ( letterIdxBits = 6 // 6 bits to represent a letter index letterIdxMask = 1<= len(buf) { err = nil } else if n > 0 && err == io.EOF { err = io.ErrUnexpectedEOF } return } func baseLogger(testName, function string, args map[string]interface{}, startTime time.Time) *slog.Logger { // calculate the test case duration duration := time.Since(startTime) // log with the fields as per mint l := slog.With( "name", "minio-go: "+testName, "duration", duration.Nanoseconds()/1000000, ) if function != "" { l = l.With("function", function) } if len(args) > 0 { l = l.With("args", args) } return l } // log successful test runs func logSuccess(testName, function string, args map[string]interface{}, startTime time.Time) { baseLogger(testName, function, args, startTime). With("status", "PASS"). Info("") } // As few of the features are not available in Gateway(s) currently, Check if err value is NotImplemented, // and log as NA in that case and continue execution. Otherwise log as failure and return func logError(testName, function string, args map[string]interface{}, startTime time.Time, alert, message string, err error) { // If server returns NotImplemented we assume it is gateway mode and hence log it as info and move on to next tests // Special case for ComposeObject API as it is implemented on client side and adds specific error details like `Error in upload-part-copy` in // addition to NotImplemented error returned from server if isErrNotImplemented(err) { logIgnored(testName, function, args, startTime, message) } else { logFailure(testName, function, args, startTime, alert, message, err) if !isRunOnFail() { panic(err) } } } // Log failed test runs, do not call this directly, use logError instead, as that correctly stops the test run func logFailure(testName, function string, args map[string]interface{}, startTime time.Time, alert, message string, err error) { l := baseLogger(testName, function, args, startTime).With( "status", "FAIL", "alert", alert, "message", message, ) if err != nil { l = l.With("error", err) } l.Error("") } // log not applicable test runs func logIgnored(testName, function string, args map[string]interface{}, startTime time.Time, alert string) { baseLogger(testName, function, args, startTime). With( "status", "NA", "alert", strings.Split(alert, " ")[0]+" is NotImplemented", ).Info("") } // Delete objects in given bucket, recursively func cleanupBucket(bucketName string, c *minio.Client) error { // Create a done channel to control 'ListObjectsV2' go routine. doneCh := make(chan struct{}) // Exit cleanly upon return. defer close(doneCh) // Iterate over all objects in the bucket via listObjectsV2 and delete for objCh := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{Recursive: true}) { if objCh.Err != nil { return objCh.Err } if objCh.Key != "" { err := c.RemoveObject(context.Background(), bucketName, objCh.Key, minio.RemoveObjectOptions{}) if err != nil { return err } } } for objPartInfo := range c.ListIncompleteUploads(context.Background(), bucketName, "", true) { if objPartInfo.Err != nil { return objPartInfo.Err } if objPartInfo.Key != "" { err := c.RemoveIncompleteUpload(context.Background(), bucketName, objPartInfo.Key) if err != nil { return err } } } // objects are already deleted, clear the buckets now return c.RemoveBucket(context.Background(), bucketName) } func cleanupVersionedBucket(bucketName string, c *minio.Client) error { doneCh := make(chan struct{}) defer close(doneCh) for obj := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) { if obj.Err != nil { return obj.Err } if obj.Key != "" { err := c.RemoveObject(context.Background(), bucketName, obj.Key, minio.RemoveObjectOptions{VersionID: obj.VersionID, GovernanceBypass: true}) if err != nil { return err } } } for objPartInfo := range c.ListIncompleteUploads(context.Background(), bucketName, "", true) { if objPartInfo.Err != nil { return objPartInfo.Err } if objPartInfo.Key != "" { err := c.RemoveIncompleteUpload(context.Background(), bucketName, objPartInfo.Key) if err != nil { return err } } } // objects are already deleted, clear the buckets now err := c.RemoveBucket(context.Background(), bucketName) if err != nil { for obj := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) { slog.Info("found object", "key", obj.Key, "version", obj.VersionID) } } return err } func isErrNotImplemented(err error) bool { return minio.ToErrorResponse(err).Code == "NotImplemented" } func isRunOnFail() bool { return os.Getenv("RUN_ON_FAIL") == "1" } func init() { // If server endpoint is not set, all tests default to // using https://play.min.io if os.Getenv(serverEndpoint) == "" { os.Setenv(serverEndpoint, "play.min.io") os.Setenv(accessKey, "Q3AM3UQ867SPQQA43P2F") os.Setenv(secretKey, "zuf+tfteSlswRu7BJ86wekitnifILbZam1KYY3TG") os.Setenv(enableHTTPS, "1") } } var mintDataDir = os.Getenv("MINT_DATA_DIR") func getMintDataDirFilePath(filename string) (fp string) { if mintDataDir == "" { return } return filepath.Join(mintDataDir, filename) } func newRandomReader(seed, size int64) io.Reader { return io.LimitReader(rand.New(rand.NewSource(seed)), size) } func mustCrcReader(r io.Reader) uint32 { crc := crc32.NewIEEE() _, err := io.Copy(crc, r) if err != nil { panic(err) } return crc.Sum32() } func crcMatches(r io.Reader, want uint32) error { crc := crc32.NewIEEE() _, err := io.Copy(crc, r) if err != nil { panic(err) } got := crc.Sum32() if got != want { return fmt.Errorf("crc mismatch, want %x, got %x", want, got) } return nil } func crcMatchesName(r io.Reader, name string) error { want := dataFileCRC32[name] crc := crc32.NewIEEE() _, err := io.Copy(crc, r) if err != nil { panic(err) } got := crc.Sum32() if got != want { return fmt.Errorf("crc mismatch, want %x, got %x", want, got) } return nil } // read data from file if it exists or optionally create a buffer of particular size func getDataReader(fileName string) io.ReadCloser { if mintDataDir == "" { size := int64(dataFileMap[fileName]) if _, ok := dataFileCRC32[fileName]; !ok { dataFileCRC32[fileName] = mustCrcReader(newRandomReader(size, size)) } return io.NopCloser(newRandomReader(size, size)) } reader, _ := os.Open(getMintDataDirFilePath(fileName)) if _, ok := dataFileCRC32[fileName]; !ok { dataFileCRC32[fileName] = mustCrcReader(reader) reader.Close() reader, _ = os.Open(getMintDataDirFilePath(fileName)) } return reader } // randString generates random names and prepends them with a known prefix. func randString(n int, src rand.Source, prefix string) string { b := make([]byte, n) // A rand.Int63() generates 63 random bits, enough for letterIdxMax letters! for i, cache, remain := n-1, src.Int63(), letterIdxMax; i >= 0; { if remain == 0 { cache, remain = src.Int63(), letterIdxMax } if idx := int(cache & letterIdxMask); idx < len(letterBytes) { b[i] = letterBytes[idx] i-- } cache >>= letterIdxBits remain-- } return prefix + string(b[0:30-len(prefix)]) } var dataFileMap = map[string]int{ "datafile-0-b": 0, "datafile-1-b": 1, "datafile-1-kB": 1 * humanize.KiByte, "datafile-10-kB": 10 * humanize.KiByte, "datafile-33-kB": 33 * humanize.KiByte, "datafile-100-kB": 100 * humanize.KiByte, "datafile-1.03-MB": 1056 * humanize.KiByte, "datafile-1-MB": 1 * humanize.MiByte, "datafile-5-MB": 5 * humanize.MiByte, "datafile-6-MB": 6 * humanize.MiByte, "datafile-11-MB": 11 * humanize.MiByte, "datafile-65-MB": 65 * humanize.MiByte, "datafile-129-MB": 129 * humanize.MiByte, } var dataFileCRC32 = map[string]uint32{} func isFullMode() bool { return os.Getenv("MINT_MODE") == "full" } func getFuncName() string { return getFuncNameLoc(2) } func getFuncNameLoc(caller int) string { pc, _, _, _ := runtime.Caller(caller) return strings.TrimPrefix(runtime.FuncForPC(pc).Name(), "main.") } // Tests bucket re-create errors. func testMakeBucketError() { region := "eu-central-1" // initialize logging params startTime := time.Now() testName := getFuncName() function := "MakeBucket(bucketName, region)" // initialize logging params args := map[string]interface{}{ "bucketName": "", "region": region, } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Secure: mustParseBool(os.Getenv(enableHTTPS)), Transport: createHTTPTransport(), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket in 'eu-central-1'. if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: region}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket Failed", err) return } defer cleanupBucket(bucketName, c) if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: region}); err == nil { logError(testName, function, args, startTime, "", "Bucket already exists", err) return } // Verify valid error response from server. if minio.ToErrorResponse(err).Code != "BucketAlreadyExists" && minio.ToErrorResponse(err).Code != "BucketAlreadyOwnedByYou" { logError(testName, function, args, startTime, "", "Invalid error returned by server", err) return } logSuccess(testName, function, args, startTime) } func testMetadataSizeLimit() { startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, objectSize, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts.UserMetadata": "", } rand.Seed(startTime.Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Secure: mustParseBool(os.Getenv(enableHTTPS)), Transport: createHTTPTransport(), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client creation failed", err) return } c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) const HeaderSizeLimit = 8 * 1024 const UserMetadataLimit = 2 * 1024 // Meta-data greater than the 2 KB limit of AWS - PUT calls with this meta-data should fail metadata := make(map[string]string) metadata["X-Amz-Meta-Mint-Test"] = string(bytes.Repeat([]byte("m"), 1+UserMetadataLimit-len("X-Amz-Meta-Mint-Test"))) args["metadata"] = fmt.Sprint(metadata) _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(nil), 0, minio.PutObjectOptions{UserMetadata: metadata}) if err == nil { logError(testName, function, args, startTime, "", "Created object with user-defined metadata exceeding metadata size limits", nil) return } // Meta-data (headers) greater than the 8 KB limit of AWS - PUT calls with this meta-data should fail metadata = make(map[string]string) metadata["X-Amz-Mint-Test"] = string(bytes.Repeat([]byte("m"), 1+HeaderSizeLimit-len("X-Amz-Mint-Test"))) args["metadata"] = fmt.Sprint(metadata) _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(nil), 0, minio.PutObjectOptions{UserMetadata: metadata}) if err == nil { logError(testName, function, args, startTime, "", "Created object with headers exceeding header size limits", nil) return } logSuccess(testName, function, args, startTime) } // Tests various bucket supported formats. func testMakeBucketRegions() { region := "eu-central-1" // initialize logging params startTime := time.Now() testName := getFuncName() function := "MakeBucket(bucketName, region)" // initialize logging params args := map[string]interface{}{ "bucketName": "", "region": region, } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket in 'eu-central-1'. if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: region}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } // Make a new bucket with '.' in its name, in 'us-west-2'. This // request is internally staged into a path style instead of // virtual host style. region = "us-west-2" args["region"] = region if err = c.MakeBucket(context.Background(), bucketName+".withperiod", minio.MakeBucketOptions{Region: region}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } // Delete all objects and buckets if err = cleanupBucket(bucketName+".withperiod", c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Test PutObject using a large data to trigger multipart readat func testPutObjectReadAt() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "objectContentType", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Object content type objectContentType := "binary/octet-stream" args["objectContentType"] = objectContentType _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: objectContentType}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Get Object failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat Object failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", fmt.Sprintf("Number of bytes in stat does not match, expected %d got %d", bufSize, st.Size), err) return } if st.ContentType != objectContentType && st.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "Content types don't match", err) return } if err := crcMatchesName(r, "datafile-129-MB"); err != nil { logError(testName, function, args, startTime, "", "data CRC check failed", err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Object Close failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Object is already closed, didn't return error on Close", err) return } logSuccess(testName, function, args, startTime) } func testListObjectVersions() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ListObjectVersions(bucketName, prefix, recursive)" args := map[string]interface{}{ "bucketName": "", "prefix": "", "recursive": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName bufSize := dataFileMap["datafile-10-kB"] reader := getDataReader("datafile-10-kB") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } reader.Close() bufSize = dataFileMap["datafile-1-b"] reader = getDataReader("datafile-1-b") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } reader.Close() err = c.RemoveObject(context.Background(), bucketName, objectName, minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Unexpected object deletion", err) return } var deleteMarkers, versions int objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } if info.Key != objectName { logError(testName, function, args, startTime, "", "Unexpected object name in listing objects", nil) return } if info.VersionID == "" { logError(testName, function, args, startTime, "", "Unexpected version id in listing objects", nil) return } if info.IsDeleteMarker { deleteMarkers++ if !info.IsLatest { logError(testName, function, args, startTime, "", "Unexpected IsLatest field in listing objects", nil) return } } else { versions++ } } if deleteMarkers != 1 { logError(testName, function, args, startTime, "", "Unexpected number of DeleteMarker elements in listing objects", nil) return } if versions != 2 { logError(testName, function, args, startTime, "", "Unexpected number of Version elements in listing objects", nil) return } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testStatObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "StatObject" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName bufSize := dataFileMap["datafile-10-kB"] reader := getDataReader("datafile-10-kB") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } reader.Close() bufSize = dataFileMap["datafile-1-b"] reader = getDataReader("datafile-1-b") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } reader.Close() objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var results []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } results = append(results, info) } if len(results) != 2 { logError(testName, function, args, startTime, "", "Unexpected number of Version elements in listing objects", nil) return } for i := 0; i < len(results); i++ { opts := minio.StatObjectOptions{VersionID: results[i].VersionID} statInfo, err := c.StatObject(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "error during HEAD object", err) return } if statInfo.VersionID == "" || statInfo.VersionID != results[i].VersionID { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected version id", err) return } if statInfo.ETag != results[i].ETag { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected ETag", err) return } if statInfo.LastModified.Unix() != results[i].LastModified.Unix() { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Last-Modified", err) return } if statInfo.Size != results[i].Size { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Content-Length", err) return } } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testGetObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Save the contents of datafiles to check with GetObject() reader output later var buffers [][]byte testFiles := []string{"datafile-1-b", "datafile-10-kB"} for _, testFile := range testFiles { r := getDataReader(testFile) buf, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "unexpected failure", err) return } r.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } buffers = append(buffers, buf) } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var results []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } results = append(results, info) } if len(results) != 2 { logError(testName, function, args, startTime, "", "Unexpected number of Version elements in listing objects", nil) return } sort.SliceStable(results, func(i, j int) bool { return results[i].Size < results[j].Size }) sort.SliceStable(buffers, func(i, j int) bool { return len(buffers[i]) < len(buffers[j]) }) for i := 0; i < len(results); i++ { opts := minio.GetObjectOptions{VersionID: results[i].VersionID} reader, err := c.GetObject(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "error during GET object", err) return } statInfo, err := reader.Stat() if err != nil { logError(testName, function, args, startTime, "", "error during calling reader.Stat()", err) return } if statInfo.ETag != results[i].ETag { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected ETag", err) return } if statInfo.LastModified.Unix() != results[i].LastModified.Unix() { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Last-Modified", err) return } if statInfo.Size != results[i].Size { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Content-Length", err) return } tmpBuffer := bytes.NewBuffer([]byte{}) _, err = io.Copy(tmpBuffer, reader) if err != nil { logError(testName, function, args, startTime, "", "unexpected io.Copy()", err) return } if !bytes.Equal(tmpBuffer.Bytes(), buffers[i]) { logError(testName, function, args, startTime, "", "unexpected content of GetObject()", err) return } } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testPutObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName const n = 10 // Read input... // Save the data concurrently. var wg sync.WaitGroup wg.Add(n) buffers := make([][]byte, n) var errs [n]error for i := 0; i < n; i++ { r := newRandomReader(int64((1<<20)*i+i), int64(i)) buf, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "unexpected failure", err) return } buffers[i] = buf go func(i int) { defer wg.Done() _, errs[i] = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{PartSize: 5 << 20}) }(i) } wg.Wait() for _, err := range errs { if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var results []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } results = append(results, info) } if len(results) != n { logError(testName, function, args, startTime, "", "Unexpected number of Version elements in listing objects", nil) return } sort.Slice(results, func(i, j int) bool { return results[i].Size < results[j].Size }) sort.Slice(buffers, func(i, j int) bool { return len(buffers[i]) < len(buffers[j]) }) for i := 0; i < len(results); i++ { opts := minio.GetObjectOptions{VersionID: results[i].VersionID} reader, err := c.GetObject(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "error during GET object", err) return } statInfo, err := reader.Stat() if err != nil { logError(testName, function, args, startTime, "", "error during calling reader.Stat()", err) return } if statInfo.ETag != results[i].ETag { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected ETag", err) return } if statInfo.LastModified.Unix() != results[i].LastModified.Unix() { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Last-Modified", err) return } if statInfo.Size != results[i].Size { logError(testName, function, args, startTime, "", "error during HEAD object, unexpected Content-Length", err) return } tmpBuffer := bytes.NewBuffer([]byte{}) _, err = io.Copy(tmpBuffer, reader) if err != nil { logError(testName, function, args, startTime, "", "unexpected io.Copy()", err) return } if !bytes.Equal(tmpBuffer.Bytes(), buffers[i]) { logError(testName, function, args, startTime, "", "unexpected content of GetObject()", err) return } } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testListMultipartUpload() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject()" args := map[string]interface{}{} // Instantiate new minio client object. opts := &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), } c, err := minio.New(os.Getenv(serverEndpoint), opts) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } core, err := minio.NewCore(os.Getenv(serverEndpoint), opts) if err != nil { logError(testName, function, args, startTime, "", "MinIO core client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. ctx := context.Background() err = c.MakeBucket(ctx, bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer func() { if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) } }() objName := "prefix/objectName" want := minio.ListMultipartUploadsResult{ Bucket: bucketName, KeyMarker: "", UploadIDMarker: "", NextKeyMarker: "", NextUploadIDMarker: "", EncodingType: "url", MaxUploads: 1000, IsTruncated: false, Prefix: "prefix/objectName", Delimiter: "/", CommonPrefixes: nil, } for i := 0; i < 5; i++ { uid, err := core.NewMultipartUpload(ctx, bucketName, objName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload failed", err) return } want.Uploads = append(want.Uploads, minio.ObjectMultipartInfo{ Initiated: time.Time{}, StorageClass: "", Key: objName, Size: 0, UploadID: uid, Err: nil, }) for j := 0; j < 5; j++ { cmpGot := func(call string, got minio.ListMultipartUploadsResult) bool { for i := range got.Uploads { got.Uploads[i].Initiated = time.Time{} } if !reflect.DeepEqual(want, got) { err := fmt.Errorf("want: %#v\ngot : %#v", want, got) logError(testName, function, args, startTime, "", call+" failed", err) } return true } got, err := core.ListMultipartUploads(ctx, bucketName, objName, "", "", "/", 1000) if err != nil { logError(testName, function, args, startTime, "", "ListMultipartUploads failed", err) return } if !cmpGot("ListMultipartUploads-prefix", got) { return } got, err = core.ListMultipartUploads(ctx, bucketName, objName, objName, "", "/", 1000) got.KeyMarker = "" if err != nil { logError(testName, function, args, startTime, "", "ListMultipartUploads failed", err) return } if !cmpGot("ListMultipartUploads-marker", got) { return } } if i > 2 { err = core.AbortMultipartUpload(ctx, bucketName, objName, uid) if err != nil { logError(testName, function, args, startTime, "", "AbortMultipartUpload failed", err) return } want.Uploads = want.Uploads[:len(want.Uploads)-1] } } for _, up := range want.Uploads { err = core.AbortMultipartUpload(ctx, bucketName, objName, up.UploadID) if err != nil { logError(testName, function, args, startTime, "", "AbortMultipartUpload failed", err) return } } logSuccess(testName, function, args, startTime) } func testCopyObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName testFiles := []string{"datafile-1-b", "datafile-10-kB"} for _, testFile := range testFiles { r := getDataReader(testFile) buf, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "unexpected failure", err) return } r.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var infos []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } infos = append(infos, info) } sort.Slice(infos, func(i, j int) bool { return infos[i].Size < infos[j].Size }) reader, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{VersionID: infos[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "GetObject of the oldest version content failed", err) return } oldestContent, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Reading the oldest object version failed", err) return } // Copy Source srcOpts := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, VersionID: infos[0].VersionID, } args["src"] = srcOpts dstOpts := minio.CopyDestOptions{ Bucket: bucketName, Object: objectName + "-copy", } args["dst"] = dstOpts // Perform the Copy if _, err = c.CopyObject(context.Background(), dstOpts, srcOpts); err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } // Destination object readerCopy, err := c.GetObject(context.Background(), bucketName, objectName+"-copy", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer readerCopy.Close() newestContent, err := io.ReadAll(readerCopy) if err != nil { logError(testName, function, args, startTime, "", "Reading from GetObject reader failed", err) return } if len(newestContent) == 0 || !bytes.Equal(oldestContent, newestContent) { logError(testName, function, args, startTime, "", "Unexpected destination object content", err) return } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testConcurrentCopyObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName testFiles := []string{"datafile-10-kB"} for _, testFile := range testFiles { r := getDataReader(testFile) buf, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "unexpected failure", err) return } r.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var infos []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } infos = append(infos, info) } sort.Slice(infos, func(i, j int) bool { return infos[i].Size < infos[j].Size }) reader, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{VersionID: infos[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "GetObject of the oldest version content failed", err) return } oldestContent, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Reading the oldest object version failed", err) return } // Copy Source srcOpts := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, VersionID: infos[0].VersionID, } args["src"] = srcOpts dstOpts := minio.CopyDestOptions{ Bucket: bucketName, Object: objectName + "-copy", } args["dst"] = dstOpts // Perform the Copy concurrently const n = 10 var wg sync.WaitGroup wg.Add(n) var errs [n]error for i := 0; i < n; i++ { go func(i int) { defer wg.Done() _, errs[i] = c.CopyObject(context.Background(), dstOpts, srcOpts) }(i) } wg.Wait() for _, err := range errs { if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } } objectsInfo = c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: false, Prefix: dstOpts.Object}) infos = []minio.ObjectInfo{} for info := range objectsInfo { // Destination object readerCopy, err := c.GetObject(context.Background(), bucketName, objectName+"-copy", minio.GetObjectOptions{VersionID: info.VersionID}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer readerCopy.Close() newestContent, err := io.ReadAll(readerCopy) if err != nil { logError(testName, function, args, startTime, "", "Reading from GetObject reader failed", err) return } if len(newestContent) == 0 || !bytes.Equal(oldestContent, newestContent) { logError(testName, function, args, startTime, "", "Unexpected destination object content", err) return } infos = append(infos, info) } if len(infos) != n { logError(testName, function, args, startTime, "", "Unexpected number of Version elements in listing objects", nil) return } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testComposeObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // var testFiles = []string{"datafile-5-MB", "datafile-10-kB"} testFiles := []string{"datafile-5-MB", "datafile-10-kB"} var testFilesBytes [][]byte for _, testFile := range testFiles { r := getDataReader(testFile) buf, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "unexpected failure", err) return } r.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } testFilesBytes = append(testFilesBytes, buf) } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var results []minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } results = append(results, info) } sort.SliceStable(results, func(i, j int) bool { return results[i].Size > results[j].Size }) // Source objects to concatenate. We also specify decryption // key for each src1 := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, VersionID: results[0].VersionID, } src2 := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, VersionID: results[1].VersionID, } dst := minio.CopyDestOptions{ Bucket: bucketName, Object: objectName + "-copy", } _, err = c.ComposeObject(context.Background(), dst, src1, src2) if err != nil { logError(testName, function, args, startTime, "", "ComposeObject failed", err) return } // Destination object readerCopy, err := c.GetObject(context.Background(), bucketName, objectName+"-copy", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject of the copy object failed", err) return } defer readerCopy.Close() copyContentBytes, err := io.ReadAll(readerCopy) if err != nil { logError(testName, function, args, startTime, "", "Reading from the copy object reader failed", err) return } var expectedContent []byte for _, fileBytes := range testFilesBytes { expectedContent = append(expectedContent, fileBytes...) } if len(copyContentBytes) == 0 || !bytes.Equal(copyContentBytes, expectedContent) { logError(testName, function, args, startTime, "", "Unexpected destination object content", err) return } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testRemoveObjectWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "DeleteObject()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, getDataReader("datafile-10-kB"), int64(dataFileMap["datafile-10-kB"]), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } objectsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var version minio.ObjectInfo for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } version = info break } err = c.RemoveObject(context.Background(), bucketName, objectName, minio.RemoveObjectOptions{VersionID: version.VersionID}) if err != nil { logError(testName, function, args, startTime, "", "DeleteObject failed", err) return } objectsInfo = c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) for range objectsInfo { logError(testName, function, args, startTime, "", "Unexpected versioning info, should not have any one ", err) return } // test delete marker version id is non-null _, err = c.PutObject(context.Background(), bucketName, objectName, getDataReader("datafile-10-kB"), int64(dataFileMap["datafile-10-kB"]), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // create delete marker err = c.RemoveObject(context.Background(), bucketName, objectName, minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "DeleteObject failed", err) return } objectsInfo = c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) idx := 0 for info := range objectsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } if idx == 0 { if !info.IsDeleteMarker { logError(testName, function, args, startTime, "", "Unexpected error - expected delete marker to have been created", err) return } if info.VersionID == "" { logError(testName, function, args, startTime, "", "Unexpected error - expected delete marker to be versioned", err) return } } idx++ } defer cleanupBucket(bucketName, c) logSuccess(testName, function, args, startTime) } func testRemoveObjectsWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "DeleteObjects()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, getDataReader("datafile-10-kB"), int64(dataFileMap["datafile-10-kB"]), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } objectsVersions := make(chan minio.ObjectInfo) go func() { objectsVersionsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) for info := range objectsVersionsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } objectsVersions <- info } close(objectsVersions) }() removeErrors := c.RemoveObjects(context.Background(), bucketName, objectsVersions, minio.RemoveObjectsOptions{}) if err != nil { logError(testName, function, args, startTime, "", "DeleteObjects call failed", err) return } for e := range removeErrors { if e.Err != nil { logError(testName, function, args, startTime, "", "Single delete operation failed", err) return } } objectsVersionsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) for range objectsVersionsInfo { logError(testName, function, args, startTime, "", "Unexpected versioning info, should not have any one ", err) return } err = c.RemoveBucket(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } func testObjectTaggingWithVersioning() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "{Get,Set,Remove}ObjectTagging()" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "Enable versioning failed", err) return } objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName for _, file := range []string{"datafile-1-b", "datafile-10-kB"} { _, err = c.PutObject(context.Background(), bucketName, objectName, getDataReader(file), int64(dataFileMap[file]), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } } versionsInfo := c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{WithVersions: true, Recursive: true}) var versions []minio.ObjectInfo for info := range versionsInfo { if info.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error during listing objects", err) return } versions = append(versions, info) } sort.SliceStable(versions, func(i, j int) bool { return versions[i].Size < versions[j].Size }) tagsV1 := map[string]string{"key1": "val1"} t1, err := tags.MapToObjectTags(tagsV1) if err != nil { logError(testName, function, args, startTime, "", "PutObjectTagging (1) failed", err) return } err = c.PutObjectTagging(context.Background(), bucketName, objectName, t1, minio.PutObjectTaggingOptions{VersionID: versions[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectTagging (1) failed", err) return } tagsV2 := map[string]string{"key2": "val2"} t2, err := tags.MapToObjectTags(tagsV2) if err != nil { logError(testName, function, args, startTime, "", "PutObjectTagging (1) failed", err) return } err = c.PutObjectTagging(context.Background(), bucketName, objectName, t2, minio.PutObjectTaggingOptions{VersionID: versions[1].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectTagging (2) failed", err) return } tagsEqual := func(tags1, tags2 map[string]string) bool { for k1, v1 := range tags1 { v2, found := tags2[k1] if found { if v1 != v2 { return false } } } return true } gotTagsV1, err := c.GetObjectTagging(context.Background(), bucketName, objectName, minio.GetObjectTaggingOptions{VersionID: versions[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "GetObjectTagging failed", err) return } if !tagsEqual(t1.ToMap(), gotTagsV1.ToMap()) { logError(testName, function, args, startTime, "", "Unexpected tags content (1)", err) return } gotTagsV2, err := c.GetObjectTagging(context.Background(), bucketName, objectName, minio.GetObjectTaggingOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObjectTaggingContext failed", err) return } if !tagsEqual(t2.ToMap(), gotTagsV2.ToMap()) { logError(testName, function, args, startTime, "", "Unexpected tags content (2)", err) return } err = c.RemoveObjectTagging(context.Background(), bucketName, objectName, minio.RemoveObjectTaggingOptions{VersionID: versions[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectTagging (2) failed", err) return } emptyTags, err := c.GetObjectTagging(context.Background(), bucketName, objectName, minio.GetObjectTaggingOptions{VersionID: versions[0].VersionID}) if err != nil { logError(testName, function, args, startTime, "", "GetObjectTagging failed", err) return } if len(emptyTags.ToMap()) != 0 { logError(testName, function, args, startTime, "", "Unexpected tags content (2)", err) return } // Delete all objects and their versions as long as the bucket itself if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Test PutObject with custom checksums. func testPutObjectWithChecksums() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{UserMetadata: metadata, Progress: progress}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) tests := []struct { cs minio.ChecksumType }{ {cs: minio.ChecksumCRC32C}, {cs: minio.ChecksumCRC32}, {cs: minio.ChecksumSHA1}, {cs: minio.ChecksumSHA256}, } for _, test := range tests { bufSize := dataFileMap["datafile-10-kB"] // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName cmpChecksum := func(got, want string) { if want != got { logError(testName, function, args, startTime, "", "checksum mismatch", fmt.Errorf("want %s, got %s", want, got)) return } } meta := map[string]string{} reader := getDataReader("datafile-10-kB") b, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } h := test.cs.Hasher() h.Reset() // Test with Wrong CRC. meta[test.cs.Key()] = base64.StdEncoding.EncodeToString(h.Sum(nil)) args["metadata"] = meta args["range"] = "false" args["checksum"] = test.cs.String() resp, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, UserMetadata: meta, }) if err == nil { logError(testName, function, args, startTime, "", "PutObject did not fail on wrong CRC", err) return } // Set correct CRC. h.Write(b) meta[test.cs.Key()] = base64.StdEncoding.EncodeToString(h.Sum(nil)) reader.Close() resp, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, DisableContentSha256: true, UserMetadata: meta, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } cmpChecksum(resp.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(resp.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(resp.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(resp.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) // Read the data back gopts := minio.GetObjectOptions{Checksum: true} r, err := c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } cmpChecksum(st.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(st.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(st.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(st.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes returned by PutObject does not match GetObject, expected "+string(bufSize)+" got "+string(st.Size), err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Object Close failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Object already closed, should respond with error", err) return } args["range"] = "true" err = gopts.SetRange(100, 1000) if err != nil { logError(testName, function, args, startTime, "", "SetRange failed", err) return } r, err = c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } b, err = io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } st, err = r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } // Range requests should return empty checksums... cmpChecksum(st.ChecksumSHA256, "") cmpChecksum(st.ChecksumSHA1, "") cmpChecksum(st.ChecksumCRC32, "") cmpChecksum(st.ChecksumCRC32C, "") delete(args, "range") delete(args, "metadata") } logSuccess(testName, function, args, startTime) } // Test PutObject with custom checksums. func testPutObjectWithTrailingChecksums() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{UserMetadata: metadata, Progress: progress, TrailChecksum: xxx}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), TrailingHeaders: true, }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) tests := []struct { cs minio.ChecksumType }{ {cs: minio.ChecksumCRC32C}, {cs: minio.ChecksumCRC32}, {cs: minio.ChecksumSHA1}, {cs: minio.ChecksumSHA256}, } for _, test := range tests { function := "PutObject(bucketName, objectName, reader,size, opts)" bufSize := dataFileMap["datafile-10-kB"] // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName cmpChecksum := func(got, want string) { if want != got { logError(testName, function, args, startTime, "", "checksum mismatch", fmt.Errorf("want %s, got %s", want, got)) return } } meta := map[string]string{} reader := getDataReader("datafile-10-kB") b, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } h := test.cs.Hasher() h.Reset() // Test with Wrong CRC. args["metadata"] = meta args["range"] = "false" args["checksum"] = test.cs.String() resp, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, DisableContentSha256: true, UserMetadata: meta, Checksum: test.cs, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } h.Write(b) meta[test.cs.Key()] = base64.StdEncoding.EncodeToString(h.Sum(nil)) cmpChecksum(resp.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(resp.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(resp.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(resp.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) // Read the data back gopts := minio.GetObjectOptions{Checksum: true} function = "GetObject(...)" r, err := c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } cmpChecksum(st.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(st.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(st.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(st.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes returned by PutObject does not match GetObject, expected "+string(bufSize)+" got "+string(st.Size), err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Object Close failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Object already closed, should respond with error", err) return } function = "GetObject( Range...)" args["range"] = "true" err = gopts.SetRange(100, 1000) if err != nil { logError(testName, function, args, startTime, "", "SetRange failed", err) return } r, err = c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } b, err = io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } st, err = r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } // Range requests should return empty checksums... cmpChecksum(st.ChecksumSHA256, "") cmpChecksum(st.ChecksumSHA1, "") cmpChecksum(st.ChecksumCRC32, "") cmpChecksum(st.ChecksumCRC32C, "") function = "GetObjectAttributes(...)" s, err := c.GetObjectAttributes(context.Background(), bucketName, objectName, minio.ObjectAttributesOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObjectAttributes failed", err) return } cmpChecksum(s.Checksum.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(s.Checksum.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(s.Checksum.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(s.Checksum.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) delete(args, "range") delete(args, "metadata") } logSuccess(testName, function, args, startTime) } // Test PutObject with custom checksums. func testPutMultipartObjectWithChecksums(trailing bool) { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": fmt.Sprintf("minio.PutObjectOptions{UserMetadata: metadata, Progress: progress Checksum: %v}", trailing), } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), TrailingHeaders: trailing, }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } hashMultiPart := func(b []byte, partSize int, hasher hash.Hash) string { r := bytes.NewReader(b) tmp := make([]byte, partSize) parts := 0 var all []byte for { n, err := io.ReadFull(r, tmp) if err != nil && err != io.ErrUnexpectedEOF { logError(testName, function, args, startTime, "", "Calc crc failed", err) } if n == 0 { break } parts++ hasher.Reset() hasher.Write(tmp[:n]) all = append(all, hasher.Sum(nil)...) if err != nil { break } } hasher.Reset() hasher.Write(all) return fmt.Sprintf("%s-%d", base64.StdEncoding.EncodeToString(hasher.Sum(nil)), parts) } defer cleanupBucket(bucketName, c) tests := []struct { cs minio.ChecksumType }{ {cs: minio.ChecksumCRC32C}, {cs: minio.ChecksumCRC32}, {cs: minio.ChecksumSHA1}, {cs: minio.ChecksumSHA256}, } for _, test := range tests { bufSize := dataFileMap["datafile-129-MB"] // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName args["checksum"] = test.cs.String() cmpChecksum := func(got, want string) { if want != got { logError(testName, function, args, startTime, "", "checksum mismatch", fmt.Errorf("want %s, got %s", want, got)) //fmt.Printf("want %s, got %s\n", want, got) return } } const partSize = 10 << 20 reader := getDataReader("datafile-129-MB") b, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } reader.Close() h := test.cs.Hasher() h.Reset() want := hashMultiPart(b, partSize, test.cs.Hasher()) var cs minio.ChecksumType rd := io.Reader(io.NopCloser(bytes.NewReader(b))) if trailing { cs = test.cs rd = bytes.NewReader(b) } // Set correct CRC. resp, err := c.PutObject(context.Background(), bucketName, objectName, rd, int64(bufSize), minio.PutObjectOptions{ DisableContentSha256: true, DisableMultipart: false, UserMetadata: nil, PartSize: partSize, AutoChecksum: test.cs, Checksum: cs, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } switch test.cs { case minio.ChecksumCRC32C: cmpChecksum(resp.ChecksumCRC32C, want) case minio.ChecksumCRC32: cmpChecksum(resp.ChecksumCRC32, want) case minio.ChecksumSHA1: cmpChecksum(resp.ChecksumSHA1, want) case minio.ChecksumSHA256: cmpChecksum(resp.ChecksumSHA256, want) } s, err := c.GetObjectAttributes(context.Background(), bucketName, objectName, minio.ObjectAttributesOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObjectAttributes failed", err) return } want = want[:strings.IndexByte(want, '-')] switch test.cs { case minio.ChecksumCRC32C: cmpChecksum(s.Checksum.ChecksumCRC32C, want) case minio.ChecksumCRC32: cmpChecksum(s.Checksum.ChecksumCRC32, want) case minio.ChecksumSHA1: cmpChecksum(s.Checksum.ChecksumSHA1, want) case minio.ChecksumSHA256: cmpChecksum(s.Checksum.ChecksumSHA256, want) } // Read the data back gopts := minio.GetObjectOptions{Checksum: true} gopts.PartNumber = 2 // We cannot use StatObject, since it ignores partnumber. r, err := c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } io.Copy(io.Discard, r) st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } // Test part 2 checksum... h.Reset() h.Write(b[partSize : 2*partSize]) want = base64.StdEncoding.EncodeToString(h.Sum(nil)) switch test.cs { case minio.ChecksumCRC32C: cmpChecksum(st.ChecksumCRC32C, want) case minio.ChecksumCRC32: cmpChecksum(st.ChecksumCRC32, want) case minio.ChecksumSHA1: cmpChecksum(st.ChecksumSHA1, want) case minio.ChecksumSHA256: cmpChecksum(st.ChecksumSHA256, want) } delete(args, "metadata") } logSuccess(testName, function, args, startTime) } // Test PutObject with trailing checksums. func testTrailingChecksums() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{UserMetadata: metadata, Progress: progress}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), TrailingHeaders: true, }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } hashMultiPart := func(b []byte, partSize int, hasher hash.Hash) string { r := bytes.NewReader(b) tmp := make([]byte, partSize) parts := 0 var all []byte for { n, err := io.ReadFull(r, tmp) if err != nil && err != io.ErrUnexpectedEOF { logError(testName, function, args, startTime, "", "Calc crc failed", err) } if n == 0 { break } parts++ hasher.Reset() hasher.Write(tmp[:n]) all = append(all, hasher.Sum(nil)...) if err != nil { break } } hasher.Reset() hasher.Write(all) return fmt.Sprintf("%s-%d", base64.StdEncoding.EncodeToString(hasher.Sum(nil)), parts) } defer cleanupBucket(bucketName, c) tests := []struct { header string hasher hash.Hash // Checksum values ChecksumCRC32 string ChecksumCRC32C string ChecksumSHA1 string ChecksumSHA256 string PO minio.PutObjectOptions }{ // Currently there is no way to override the checksum type. { header: "x-amz-checksum-crc32c", hasher: crc32.New(crc32.MakeTable(crc32.Castagnoli)), ChecksumCRC32C: "set", PO: minio.PutObjectOptions{ DisableContentSha256: true, DisableMultipart: false, UserMetadata: nil, PartSize: 5 << 20, }, }, { header: "x-amz-checksum-crc32c", hasher: crc32.New(crc32.MakeTable(crc32.Castagnoli)), ChecksumCRC32C: "set", PO: minio.PutObjectOptions{ DisableContentSha256: true, DisableMultipart: false, UserMetadata: nil, PartSize: 6_645_654, // Rather arbitrary size }, }, { header: "x-amz-checksum-crc32c", hasher: crc32.New(crc32.MakeTable(crc32.Castagnoli)), ChecksumCRC32C: "set", PO: minio.PutObjectOptions{ DisableContentSha256: false, DisableMultipart: false, UserMetadata: nil, PartSize: 5 << 20, }, }, { header: "x-amz-checksum-crc32c", hasher: crc32.New(crc32.MakeTable(crc32.Castagnoli)), ChecksumCRC32C: "set", PO: minio.PutObjectOptions{ DisableContentSha256: false, DisableMultipart: false, UserMetadata: nil, PartSize: 6_645_654, // Rather arbitrary size }, }, } for _, test := range tests { bufSize := dataFileMap["datafile-11-MB"] // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName cmpChecksum := func(got, want string) { if want != got { logError(testName, function, args, startTime, "", "checksum mismatch", fmt.Errorf("want %q, got %q", want, got)) return } } reader := getDataReader("datafile-11-MB") b, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } reader.Close() h := test.hasher h.Reset() test.ChecksumCRC32C = hashMultiPart(b, int(test.PO.PartSize), test.hasher) // Set correct CRC. // c.TraceOn(os.Stderr) resp, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), test.PO) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // c.TraceOff() cmpChecksum(resp.ChecksumSHA256, test.ChecksumSHA256) cmpChecksum(resp.ChecksumSHA1, test.ChecksumSHA1) cmpChecksum(resp.ChecksumCRC32, test.ChecksumCRC32) cmpChecksum(resp.ChecksumCRC32C, test.ChecksumCRC32C) // Read the data back gopts := minio.GetObjectOptions{Checksum: true} gopts.PartNumber = 2 // We cannot use StatObject, since it ignores partnumber. r, err := c.GetObject(context.Background(), bucketName, objectName, gopts) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } io.Copy(io.Discard, r) st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } // Test part 2 checksum... h.Reset() p2 := b[test.PO.PartSize:] if len(p2) > int(test.PO.PartSize) { p2 = p2[:test.PO.PartSize] } h.Write(p2) got := base64.StdEncoding.EncodeToString(h.Sum(nil)) if test.ChecksumSHA256 != "" { cmpChecksum(st.ChecksumSHA256, got) } if test.ChecksumSHA1 != "" { cmpChecksum(st.ChecksumSHA1, got) } if test.ChecksumCRC32 != "" { cmpChecksum(st.ChecksumCRC32, got) } if test.ChecksumCRC32C != "" { cmpChecksum(st.ChecksumCRC32C, got) } delete(args, "metadata") } } // Test PutObject with custom checksums. func testPutObjectWithAutomaticChecksums() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{UserMetadata: metadata, Progress: progress}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), TrailingHeaders: true, }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) tests := []struct { header string hasher hash.Hash // Checksum values ChecksumCRC32 string ChecksumCRC32C string ChecksumSHA1 string ChecksumSHA256 string }{ // Built-in will only add crc32c, when no MD5 nor SHA256. {header: "x-amz-checksum-crc32c", hasher: crc32.New(crc32.MakeTable(crc32.Castagnoli))}, } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // defer c.TraceOff() for i, test := range tests { bufSize := dataFileMap["datafile-10-kB"] // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName cmpChecksum := func(got, want string) { if want != got { logError(testName, function, args, startTime, "", "checksum mismatch", fmt.Errorf("want %s, got %s", want, got)) return } } meta := map[string]string{} reader := getDataReader("datafile-10-kB") b, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "Read failed", err) return } h := test.hasher h.Reset() h.Write(b) meta[test.header] = base64.StdEncoding.EncodeToString(h.Sum(nil)) args["metadata"] = meta resp, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, UserMetadata: nil, DisableContentSha256: true, SendContentMd5: false, }) if err == nil { if i == 0 && resp.ChecksumCRC32C == "" { logIgnored(testName, function, args, startTime, "Checksums does not appear to be supported by backend") return } } else { logError(testName, function, args, startTime, "", "PutObject failed", err) return } cmpChecksum(resp.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(resp.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(resp.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(resp.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) // Usually this will be the same as above, since we skip automatic checksum when SHA256 content is sent. // When/if we add a checksum control to PutObjectOptions this will make more sense. resp, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, UserMetadata: nil, DisableContentSha256: false, SendContentMd5: false, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // The checksum will not be enabled on HTTP, since it uses SHA256 blocks. if mustParseBool(os.Getenv(enableHTTPS)) { cmpChecksum(resp.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(resp.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(resp.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(resp.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) } // Set SHA256 header manually sh256 := sha256.Sum256(b) meta = map[string]string{"x-amz-checksum-sha256": base64.StdEncoding.EncodeToString(sh256[:])} args["metadata"] = meta resp, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(b), int64(bufSize), minio.PutObjectOptions{ DisableMultipart: true, UserMetadata: meta, DisableContentSha256: true, SendContentMd5: false, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } cmpChecksum(resp.ChecksumSHA256, meta["x-amz-checksum-sha256"]) cmpChecksum(resp.ChecksumSHA1, meta["x-amz-checksum-sha1"]) cmpChecksum(resp.ChecksumCRC32, meta["x-amz-checksum-crc32"]) cmpChecksum(resp.ChecksumCRC32C, meta["x-amz-checksum-crc32c"]) delete(args, "metadata") } logSuccess(testName, function, args, startTime) } func testGetObjectAttributes() { startTime := time.Now() testName := getFuncName() function := "GetObjectAttributes(ctx, bucketName, objectName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.ObjectAttributesOptions{}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ TrailingHeaders: true, Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket( context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}, ) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } bucketNameV := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-versioned-") args["bucketName"] = bucketNameV err = c.MakeBucket( context.Background(), bucketNameV, minio.MakeBucketOptions{Region: "us-east-1"}, ) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketNameV) if err != nil { logError(testName, function, args, startTime, "", "Unable to enable versioning", err) return } defer cleanupBucket(bucketName, c) defer cleanupVersionedBucket(bucketNameV, c) testFiles := make(map[string]*objectAttributesNewObject) testFiles["file1"] = &objectAttributesNewObject{ Object: "file1", ObjectReaderType: "datafile-1.03-MB", Bucket: bucketNameV, ContentType: "custom/contenttype", SendContentMd5: false, } testFiles["file2"] = &objectAttributesNewObject{ Object: "file2", ObjectReaderType: "datafile-129-MB", Bucket: bucketName, ContentType: "custom/contenttype", SendContentMd5: false, } for i, v := range testFiles { bufSize := dataFileMap[v.ObjectReaderType] reader := getDataReader(v.ObjectReaderType) args["objectName"] = v.Object testFiles[i].UploadInfo, err = c.PutObject(context.Background(), v.Bucket, v.Object, reader, int64(bufSize), minio.PutObjectOptions{ ContentType: v.ContentType, SendContentMd5: v.SendContentMd5, Checksum: minio.ChecksumCRC32C, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } } testTable := make(map[string]objectAttributesTableTest) testTable["none-versioned"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{}, test: objectAttributesTestOptions{ TestFileName: "file2", StorageClass: "STANDARD", HasFullChecksum: true, HasPartChecksums: true, HasParts: true, }, } testTable["0-to-0-marker"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{ PartNumberMarker: 0, MaxParts: 0, }, test: objectAttributesTestOptions{ TestFileName: "file2", StorageClass: "STANDARD", HasFullChecksum: true, HasPartChecksums: true, HasParts: true, }, } testTable["0-marker-to-max"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{ PartNumberMarker: 0, MaxParts: 10000, }, test: objectAttributesTestOptions{ TestFileName: "file2", StorageClass: "STANDARD", HasFullChecksum: true, HasPartChecksums: true, HasParts: true, }, } testTable["0-to-1-marker"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{ PartNumberMarker: 0, MaxParts: 1, }, test: objectAttributesTestOptions{ TestFileName: "file2", StorageClass: "STANDARD", HasFullChecksum: true, HasPartChecksums: true, HasParts: true, }, } testTable["7-to-6-marker"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{ PartNumberMarker: 7, MaxParts: 6, }, test: objectAttributesTestOptions{ TestFileName: "file2", StorageClass: "STANDARD", HasFullChecksum: true, HasPartChecksums: true, HasParts: true, }, } testTable["versioned"] = objectAttributesTableTest{ opts: minio.ObjectAttributesOptions{}, test: objectAttributesTestOptions{ TestFileName: "file1", StorageClass: "STANDARD", HasFullChecksum: true, }, } for i, v := range testTable { tf, ok := testFiles[v.test.TestFileName] if !ok { continue } args["objectName"] = tf.Object args["bucketName"] = tf.Bucket if tf.UploadInfo.VersionID != "" { v.opts.VersionID = tf.UploadInfo.VersionID } s, err := c.GetObjectAttributes(context.Background(), tf.Bucket, tf.Object, v.opts) if err != nil { logError(testName, function, args, startTime, "", "GetObjectAttributes failed", err) return } v.test.NumberOfParts = s.ObjectParts.PartsCount v.test.ETag = tf.UploadInfo.ETag v.test.ObjectSize = int(tf.UploadInfo.Size) err = validateObjectAttributeRequest(s, &v.opts, &v.test) if err != nil { logError(testName, function, args, startTime, "", "Validating GetObjectsAttributes response failed, table test: "+i, err) return } } logSuccess(testName, function, args, startTime) } func testGetObjectAttributesSSECEncryption() { startTime := time.Now() testName := getFuncName() function := "GetObjectAttributes(ctx, bucketName, objectName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.ObjectAttributesOptions{}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ TrailingHeaders: true, Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Secure: mustParseBool(os.Getenv(enableHTTPS)), Transport: createHTTPTransport(), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket( context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}, ) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) objectName := "encrypted-object" args["objectName"] = objectName bufSize := dataFileMap["datafile-11-MB"] reader := getDataReader("datafile-11-MB") sse := encrypt.DefaultPBKDF([]byte("word1 word2 word3 word4"), []byte(bucketName+objectName)) info, err := c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ ContentType: "content/custom", SendContentMd5: false, ServerSideEncryption: sse, PartSize: uint64(bufSize) / 2, Checksum: minio.ChecksumCRC32C, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } opts := minio.ObjectAttributesOptions{ ServerSideEncryption: sse, } attr, err := c.GetObjectAttributes(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "GetObjectAttributes with empty bucket name should have failed", nil) return } err = validateObjectAttributeRequest(attr, &opts, &objectAttributesTestOptions{ TestFileName: info.Key, ETag: info.ETag, NumberOfParts: 2, ObjectSize: int(info.Size), HasFullChecksum: true, HasParts: true, HasPartChecksums: true, }) if err != nil { logError(testName, function, args, startTime, "", "Validating GetObjectsAttributes response failed", err) return } logSuccess(testName, function, args, startTime) } func testGetObjectAttributesErrorCases() { startTime := time.Now() testName := getFuncName() function := "GetObjectAttributes(ctx, bucketName, objectName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.ObjectAttributesOptions{}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ TrailingHeaders: true, Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) unknownBucket := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-bucket-") unknownObject := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-object-") _, err = c.GetObjectAttributes(context.Background(), unknownBucket, unknownObject, minio.ObjectAttributesOptions{}) if err == nil { logError(testName, function, args, startTime, "", "GetObjectAttributes failed", nil) return } errorResponse := err.(minio.ErrorResponse) if errorResponse.Code != "NoSuchBucket" { logError(testName, function, args, startTime, "", "Invalid error code, expected NoSuchBucket but got "+errorResponse.Code, nil) return } bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket( context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}, ) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } bucketNameV := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-versioned-") args["bucketName"] = bucketNameV err = c.MakeBucket( context.Background(), bucketNameV, minio.MakeBucketOptions{Region: "us-east-1"}, ) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } err = c.EnableVersioning(context.Background(), bucketNameV) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) defer cleanupVersionedBucket(bucketNameV, c) _, err = c.GetObjectAttributes(context.Background(), bucketName, unknownObject, minio.ObjectAttributesOptions{}) if err == nil { logError(testName, function, args, startTime, "", "GetObjectAttributes failed", nil) return } errorResponse = err.(minio.ErrorResponse) if errorResponse.Code != "NoSuchKey" { logError(testName, function, args, startTime, "", "Invalid error code, expected NoSuchKey but got "+errorResponse.Code, nil) return } _, err = c.GetObjectAttributes(context.Background(), bucketName, "", minio.ObjectAttributesOptions{}) if err == nil { logError(testName, function, args, startTime, "", "GetObjectAttributes with empty object name should have failed", nil) return } _, err = c.GetObjectAttributes(context.Background(), "", unknownObject, minio.ObjectAttributesOptions{}) if err == nil { logError(testName, function, args, startTime, "", "GetObjectAttributes with empty bucket name should have failed", nil) return } _, err = c.GetObjectAttributes(context.Background(), bucketNameV, unknownObject, minio.ObjectAttributesOptions{ VersionID: uuid.NewString(), }) if err == nil { logError(testName, function, args, startTime, "", "GetObjectAttributes with empty bucket name should have failed", nil) return } errorResponse = err.(minio.ErrorResponse) if errorResponse.Code != "NoSuchVersion" { logError(testName, function, args, startTime, "", "Invalid error code, expected NoSuchVersion but got "+errorResponse.Code, nil) return } logSuccess(testName, function, args, startTime) } type objectAttributesNewObject struct { Object string ObjectReaderType string Bucket string ContentType string SendContentMd5 bool UploadInfo minio.UploadInfo } type objectAttributesTableTest struct { opts minio.ObjectAttributesOptions test objectAttributesTestOptions } type objectAttributesTestOptions struct { TestFileName string ETag string NumberOfParts int StorageClass string ObjectSize int HasPartChecksums bool HasFullChecksum bool HasParts bool } func validateObjectAttributeRequest(OA *minio.ObjectAttributes, opts *minio.ObjectAttributesOptions, test *objectAttributesTestOptions) (err error) { if opts.VersionID != "" { if OA.VersionID != opts.VersionID { err = fmt.Errorf("Expected versionId %s but got versionId %s", opts.VersionID, OA.VersionID) return } } partsMissingChecksum := false foundPartChecksum := false for _, v := range OA.ObjectParts.Parts { checksumFound := false if v.ChecksumSHA256 != "" { checksumFound = true } else if v.ChecksumSHA1 != "" { checksumFound = true } else if v.ChecksumCRC32 != "" { checksumFound = true } else if v.ChecksumCRC32C != "" { checksumFound = true } if !checksumFound { partsMissingChecksum = true } else { foundPartChecksum = true } } if test.HasPartChecksums { if partsMissingChecksum { err = fmt.Errorf("One or all parts were missing a checksum") return } } else { if foundPartChecksum { err = fmt.Errorf("Did not expect ObjectParts to have checksums but found one") return } } hasFullObjectChecksum := (OA.Checksum.ChecksumCRC32 != "" || OA.Checksum.ChecksumCRC32C != "" || OA.Checksum.ChecksumSHA1 != "" || OA.Checksum.ChecksumSHA256 != "") if test.HasFullChecksum { if !hasFullObjectChecksum { err = fmt.Errorf("Full object checksum not found") return } } else { if hasFullObjectChecksum { err = fmt.Errorf("Did not expect a full object checksum but we got one") return } } if OA.ETag != test.ETag { err = fmt.Errorf("Etags do not match, got %s but expected %s", OA.ETag, test.ETag) return } if test.HasParts { if len(OA.ObjectParts.Parts) < 1 { err = fmt.Errorf("Was expecting ObjectParts but none were present") return } } if OA.StorageClass == "" { err = fmt.Errorf("Was expecting a StorageClass but got none") return } if OA.ObjectSize != test.ObjectSize { err = fmt.Errorf("Was expecting a ObjectSize but got none") return } if test.HasParts { if opts.MaxParts == 0 { if len(OA.ObjectParts.Parts) != OA.ObjectParts.PartsCount { err = fmt.Errorf("expected %s parts but got %d", OA.ObjectParts.PartsCount, len(OA.ObjectParts.Parts)) return } } else if (opts.MaxParts + opts.PartNumberMarker) > OA.ObjectParts.PartsCount { if len(OA.ObjectParts.Parts) != (OA.ObjectParts.PartsCount - opts.PartNumberMarker) { err = fmt.Errorf("expected %d parts but got %d", (OA.ObjectParts.PartsCount - opts.PartNumberMarker), len(OA.ObjectParts.Parts)) return } } else if opts.MaxParts != 0 { if opts.MaxParts != len(OA.ObjectParts.Parts) { err = fmt.Errorf("expected %d parts but got %d", opts.MaxParts, len(OA.ObjectParts.Parts)) return } } } if OA.ObjectParts.NextPartNumberMarker == OA.ObjectParts.PartsCount { if OA.ObjectParts.IsTruncated { err = fmt.Errorf("Expected ObjectParts to NOT be truncated, but it was") return } } if OA.ObjectParts.NextPartNumberMarker != OA.ObjectParts.PartsCount { if !OA.ObjectParts.IsTruncated { err = fmt.Errorf("Expected ObjectParts to be truncated, but it was NOT") return } } return } // Test PutObject using a large data to trigger multipart readat func testPutObjectWithMetadata() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{UserMetadata: metadata, Progress: progress}", } if !isFullMode() { logIgnored(testName, function, args, startTime, "Skipping functional tests for short/quick runs") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "Make bucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Object custom metadata customContentType := "custom/contenttype" args["metadata"] = map[string][]string{ "Content-Type": {customContentType}, "X-Amz-Meta-CustomKey": {"extra spaces in value"}, } _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ ContentType: customContentType, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes returned by PutObject does not match GetObject, expected "+string(bufSize)+" got "+string(st.Size), err) return } if st.ContentType != customContentType && st.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "ContentType does not match, expected "+customContentType+" got "+st.ContentType, err) return } if err := crcMatchesName(r, "datafile-129-MB"); err != nil { logError(testName, function, args, startTime, "", "data CRC check failed", err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Object Close failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Object already closed, should respond with error", err) return } logSuccess(testName, function, args, startTime) } func testPutObjectWithContentLanguage() { // initialize logging params objectName := "test-object" startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": objectName, "size": -1, "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) data := []byte{} _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(data), int64(0), minio.PutObjectOptions{ ContentLanguage: "en", }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } objInfo, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if objInfo.Metadata.Get("Content-Language") != "en" { logError(testName, function, args, startTime, "", "Expected content-language 'en' doesn't match with StatObject return value", err) return } logSuccess(testName, function, args, startTime) } // Test put object with streaming signature. func testPutObjectStreaming() { // initialize logging params objectName := "test-object" startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size,opts)" args := map[string]interface{}{ "bucketName": "", "objectName": objectName, "size": -1, "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload an object. sizes := []int64{0, 64*1024 - 1, 64 * 1024} for _, size := range sizes { data := newRandomReader(size, size) ui, err := c.PutObject(context.Background(), bucketName, objectName, data, int64(size), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectStreaming failed", err) return } if ui.Size != size { logError(testName, function, args, startTime, "", "PutObjectStreaming result has unexpected size", nil) return } objInfo, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if objInfo.Size != size { logError(testName, function, args, startTime, "", "Unexpected size", err) return } } logSuccess(testName, function, args, startTime) } // Test get object seeker from the end, using whence set to '2'. func testGetObjectSeekEnd() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes read does not match, expected "+string(int64(bufSize))+" got "+string(st.Size), err) return } pos, err := r.Seek(-100, 2) if err != nil { logError(testName, function, args, startTime, "", "Object Seek failed", err) return } if pos != st.Size-100 { logError(testName, function, args, startTime, "", "Incorrect position", err) return } buf2 := make([]byte, 100) m, err := readFull(r, buf2) if err != nil { logError(testName, function, args, startTime, "", "Error reading through readFull", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "Number of bytes dont match, expected "+string(len(buf2))+" got "+string(m), err) return } hexBuf1 := fmt.Sprintf("%02x", buf[len(buf)-100:]) hexBuf2 := fmt.Sprintf("%02x", buf2[:m]) if hexBuf1 != hexBuf2 { logError(testName, function, args, startTime, "", "Values at same index dont match", err) return } pos, err = r.Seek(-100, 2) if err != nil { logError(testName, function, args, startTime, "", "Object Seek failed", err) return } if pos != st.Size-100 { logError(testName, function, args, startTime, "", "Incorrect position", err) return } if err = r.Close(); err != nil { logError(testName, function, args, startTime, "", "ObjectClose failed", err) return } logSuccess(testName, function, args, startTime) } // Test get object reader to not throw error on being closed twice. func testGetObjectClosedTwice() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+" got "+string(st.Size), err) return } if err := crcMatchesName(r, "datafile-33-kB"); err != nil { logError(testName, function, args, startTime, "", "data CRC check failed", err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Object Close failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Already closed object. No error returned", err) return } logSuccess(testName, function, args, startTime) } // Test RemoveObjects request where context cancels after timeout func testRemoveObjectsContext() { // Initialize logging params. startTime := time.Now() testName := getFuncName() function := "RemoveObjects(ctx, bucketName, objectsCh)" args := map[string]interface{}{ "bucketName": "", } // Seed random based on current tie. rand.Seed(time.Now().Unix()) // Instantiate new minio client. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Enable tracing, write to stdout. // c.TraceOn(os.Stderr) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate put data. r := bytes.NewReader(bytes.Repeat([]byte("a"), 8)) // Multi remove of 20 objects. nrObjects := 20 objectsCh := make(chan minio.ObjectInfo) go func() { defer close(objectsCh) for i := 0; i < nrObjects; i++ { objectName := "sample" + strconv.Itoa(i) + ".txt" info, err := c.PutObject(context.Background(), bucketName, objectName, r, 8, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) continue } objectsCh <- minio.ObjectInfo{ Key: info.Key, VersionID: info.VersionID, } } }() // Set context to cancel in 1 nanosecond. ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx defer cancel() // Call RemoveObjects API with short timeout. errorCh := c.RemoveObjects(ctx, bucketName, objectsCh, minio.RemoveObjectsOptions{}) // Check for error. select { case r := <-errorCh: if r.Err == nil { logError(testName, function, args, startTime, "", "RemoveObjects should fail on short timeout", err) return } } // Set context with longer timeout. ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) args["ctx"] = ctx defer cancel() // Perform RemoveObjects with the longer timeout. Expect the removals to succeed. errorCh = c.RemoveObjects(ctx, bucketName, objectsCh, minio.RemoveObjectsOptions{}) select { case r, more := <-errorCh: if more || r.Err != nil { logError(testName, function, args, startTime, "", "Unexpected error", r.Err) return } } logSuccess(testName, function, args, startTime) } // Test removing multiple objects with Remove API func testRemoveMultipleObjects() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "RemoveObjects(bucketName, objectsCh)" args := map[string]interface{}{ "bucketName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Enable tracing, write to stdout. // c.TraceOn(os.Stderr) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) r := bytes.NewReader(bytes.Repeat([]byte("a"), 8)) // Multi remove of 1100 objects nrObjects := 200 objectsCh := make(chan minio.ObjectInfo) go func() { defer close(objectsCh) // Upload objects and send them to objectsCh for i := 0; i < nrObjects; i++ { objectName := "sample" + strconv.Itoa(i) + ".txt" info, err := c.PutObject(context.Background(), bucketName, objectName, r, 8, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) continue } objectsCh <- minio.ObjectInfo{ Key: info.Key, VersionID: info.VersionID, } } }() // Call RemoveObjects API errorCh := c.RemoveObjects(context.Background(), bucketName, objectsCh, minio.RemoveObjectsOptions{}) // Check if errorCh doesn't receive any error select { case r, more := <-errorCh: if more { logError(testName, function, args, startTime, "", "Unexpected error", r.Err) return } } logSuccess(testName, function, args, startTime) } // Test removing multiple objects and check for results func testRemoveMultipleObjectsWithResult() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "RemoveObjects(bucketName, objectsCh)" args := map[string]interface{}{ "bucketName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Enable tracing, write to stdout. // c.TraceOn(os.Stderr) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupVersionedBucket(bucketName, c) r := bytes.NewReader(bytes.Repeat([]byte("a"), 8)) nrObjects := 10 nrLockedObjects := 5 objectsCh := make(chan minio.ObjectInfo) go func() { defer close(objectsCh) // Upload objects and send them to objectsCh for i := 0; i < nrObjects; i++ { objectName := "sample" + strconv.Itoa(i) + ".txt" info, err := c.PutObject(context.Background(), bucketName, objectName, r, 8, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } if i < nrLockedObjects { // t := time.Date(2130, time.April, 25, 14, 0, 0, 0, time.UTC) t := time.Now().Add(5 * time.Minute) m := minio.RetentionMode(minio.Governance) opts := minio.PutObjectRetentionOptions{ GovernanceBypass: false, RetainUntilDate: &t, Mode: &m, VersionID: info.VersionID, } err = c.PutObjectRetention(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "Error setting retention", err) return } } objectsCh <- minio.ObjectInfo{ Key: info.Key, VersionID: info.VersionID, } } }() // Call RemoveObjects API resultCh := c.RemoveObjectsWithResult(context.Background(), bucketName, objectsCh, minio.RemoveObjectsOptions{}) var foundNil, foundErr int for { // Check if errorCh doesn't receive any error select { case deleteRes, ok := <-resultCh: if !ok { goto out } if deleteRes.ObjectName == "" { logError(testName, function, args, startTime, "", "Unexpected object name", nil) return } if deleteRes.ObjectVersionID == "" { logError(testName, function, args, startTime, "", "Unexpected object version ID", nil) return } if deleteRes.Err == nil { foundNil++ } else { foundErr++ } } } out: if foundNil+foundErr != nrObjects { logError(testName, function, args, startTime, "", "Unexpected number of results", nil) return } if foundNil != nrObjects-nrLockedObjects { logError(testName, function, args, startTime, "", "Unexpected number of nil errors", nil) return } if foundErr != nrLockedObjects { logError(testName, function, args, startTime, "", "Unexpected number of errors", nil) return } logSuccess(testName, function, args, startTime) } // Tests FPutObject of a big file to trigger multipart func testFPutObjectMultipart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutObject(bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "fileName": "", "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload 4 parts to utilize all 3 'workers' in multipart and still have a part to upload. fileName := getMintDataDirFilePath("datafile-129-MB") if fileName == "" { // Make a temp file with minPartSize bytes of data. file, err := os.CreateTemp(os.TempDir(), "FPutObjectTest") if err != nil { logError(testName, function, args, startTime, "", "TempFile creation failed", err) return } // Upload 2 parts to utilize all 3 'workers' in multipart and still have a part to upload. if _, err = io.Copy(file, getDataReader("datafile-129-MB")); err != nil { logError(testName, function, args, startTime, "", "Copy failed", err) return } if err = file.Close(); err != nil { logError(testName, function, args, startTime, "", "File Close failed", err) return } fileName = file.Name() args["fileName"] = fileName } totalSize := dataFileMap["datafile-129-MB"] // Set base object name objectName := bucketName + "FPutObject" + "-standard" args["objectName"] = objectName objectContentType := "testapplication/octet-stream" args["objectContentType"] = objectContentType // Perform standard FPutObject with contentType provided (Expecting application/octet-stream) _, err = c.FPutObject(context.Background(), bucketName, objectName, fileName, minio.PutObjectOptions{ContentType: objectContentType}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } objInfo, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Unexpected error", err) return } if objInfo.Size != int64(totalSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(int64(totalSize))+" got "+string(objInfo.Size), err) return } if objInfo.ContentType != objectContentType && objInfo.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "ContentType doesn't match", err) return } logSuccess(testName, function, args, startTime) } // Tests FPutObject with null contentType (default = application/octet-stream) func testFPutObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutObject(bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "fileName": "", "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") location := "us-east-1" // Make a new bucket. args["bucketName"] = bucketName args["location"] = location function = "MakeBucket(bucketName, location)" err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: location}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload 3 parts worth of data to use all 3 of multiparts 'workers' and have an extra part. // Use different data in part for multipart tests to check parts are uploaded in correct order. fName := getMintDataDirFilePath("datafile-129-MB") if fName == "" { // Make a temp file with minPartSize bytes of data. file, err := os.CreateTemp(os.TempDir(), "FPutObjectTest") if err != nil { logError(testName, function, args, startTime, "", "TempFile creation failed", err) return } // Upload 3 parts to utilize all 3 'workers' in multipart and still have a part to upload. if _, err = io.Copy(file, getDataReader("datafile-129-MB")); err != nil { logError(testName, function, args, startTime, "", "File copy failed", err) return } // Close the file pro-actively for windows. if err = file.Close(); err != nil { logError(testName, function, args, startTime, "", "File close failed", err) return } defer os.Remove(file.Name()) fName = file.Name() } // Set base object name function = "FPutObject(bucketName, objectName, fileName, opts)" objectName := bucketName + "FPutObject" args["objectName"] = objectName + "-standard" args["fileName"] = fName args["opts"] = minio.PutObjectOptions{ContentType: "application/octet-stream"} // Perform standard FPutObject with contentType provided (Expecting application/octet-stream) ui, err := c.FPutObject(context.Background(), bucketName, objectName+"-standard", fName, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } if ui.Size != int64(dataFileMap["datafile-129-MB"]) { logError(testName, function, args, startTime, "", "FPutObject returned an unexpected upload size", err) return } // Perform FPutObject with no contentType provided (Expecting application/octet-stream) args["objectName"] = objectName + "-Octet" _, err = c.FPutObject(context.Background(), bucketName, objectName+"-Octet", fName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "File close failed", err) return } srcFile, err := os.Open(fName) if err != nil { logError(testName, function, args, startTime, "", "File open failed", err) return } defer srcFile.Close() // Add extension to temp file name tmpFile, err := os.Create(fName + ".gtar") if err != nil { logError(testName, function, args, startTime, "", "File create failed", err) return } _, err = io.Copy(tmpFile, srcFile) if err != nil { logError(testName, function, args, startTime, "", "File copy failed", err) return } tmpFile.Close() // Perform FPutObject with no contentType provided (Expecting application/x-gtar) args["objectName"] = objectName + "-GTar" args["opts"] = minio.PutObjectOptions{} _, err = c.FPutObject(context.Background(), bucketName, objectName+"-GTar", fName+".gtar", minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } // Check headers function = "StatObject(bucketName, objectName, opts)" args["objectName"] = objectName + "-standard" rStandard, err := c.StatObject(context.Background(), bucketName, objectName+"-standard", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rStandard.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "ContentType does not match, expected application/octet-stream, got "+rStandard.ContentType, err) return } function = "StatObject(bucketName, objectName, opts)" args["objectName"] = objectName + "-Octet" rOctet, err := c.StatObject(context.Background(), bucketName, objectName+"-Octet", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rOctet.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "ContentType does not match, expected application/octet-stream, got "+rOctet.ContentType, err) return } function = "StatObject(bucketName, objectName, opts)" args["objectName"] = objectName + "-GTar" rGTar, err := c.StatObject(context.Background(), bucketName, objectName+"-GTar", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rGTar.ContentType != "application/x-gtar" && rGTar.ContentType != "application/octet-stream" && rGTar.ContentType != "application/x-tar" { logError(testName, function, args, startTime, "", "ContentType does not match, expected application/x-tar or application/octet-stream, got "+rGTar.ContentType, err) return } os.Remove(fName + ".gtar") logSuccess(testName, function, args, startTime) } // Tests FPutObject request when context cancels after timeout func testFPutObjectContext() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutObject(bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "fileName": "", "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload 1 parts worth of data to use multipart upload. // Use different data in part for multipart tests to check parts are uploaded in correct order. fName := getMintDataDirFilePath("datafile-1-MB") if fName == "" { // Make a temp file with 1 MiB bytes of data. file, err := os.CreateTemp(os.TempDir(), "FPutObjectContextTest") if err != nil { logError(testName, function, args, startTime, "", "TempFile creation failed", err) return } // Upload 1 parts to trigger multipart upload if _, err = io.Copy(file, getDataReader("datafile-1-MB")); err != nil { logError(testName, function, args, startTime, "", "File copy failed", err) return } // Close the file pro-actively for windows. if err = file.Close(); err != nil { logError(testName, function, args, startTime, "", "File close failed", err) return } defer os.Remove(file.Name()) fName = file.Name() } // Set base object name objectName := bucketName + "FPutObjectContext" args["objectName"] = objectName ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx defer cancel() // Perform FPutObject with contentType provided (Expecting application/octet-stream) _, err = c.FPutObject(ctx, bucketName, objectName+"-Shorttimeout", fName, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err == nil { logError(testName, function, args, startTime, "", "FPutObject should fail on short timeout", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) defer cancel() // Perform FPutObject with a long timeout. Expect the put object to succeed _, err = c.FPutObject(ctx, bucketName, objectName+"-Longtimeout", fName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject shouldn't fail on long timeout", err) return } _, err = c.StatObject(context.Background(), bucketName, objectName+"-Longtimeout", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } logSuccess(testName, function, args, startTime) } // Tests FPutObject request when context cancels after timeout func testFPutObjectContextV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutObjectContext(ctx, bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "opts": "minio.PutObjectOptions{ContentType:objectContentType}", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload 1 parts worth of data to use multipart upload. // Use different data in part for multipart tests to check parts are uploaded in correct order. fName := getMintDataDirFilePath("datafile-1-MB") if fName == "" { // Make a temp file with 1 MiB bytes of data. file, err := os.CreateTemp(os.TempDir(), "FPutObjectContextTest") if err != nil { logError(testName, function, args, startTime, "", "Temp file creation failed", err) return } // Upload 1 parts to trigger multipart upload if _, err = io.Copy(file, getDataReader("datafile-1-MB")); err != nil { logError(testName, function, args, startTime, "", "File copy failed", err) return } // Close the file pro-actively for windows. if err = file.Close(); err != nil { logError(testName, function, args, startTime, "", "File close failed", err) return } defer os.Remove(file.Name()) fName = file.Name() } // Set base object name objectName := bucketName + "FPutObjectContext" args["objectName"] = objectName ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx defer cancel() // Perform FPutObject with contentType provided (Expecting application/octet-stream) _, err = c.FPutObject(ctx, bucketName, objectName+"-Shorttimeout", fName, minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err == nil { logError(testName, function, args, startTime, "", "FPutObject should fail on short timeout", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) defer cancel() // Perform FPutObject with a long timeout. Expect the put object to succeed _, err = c.FPutObject(ctx, bucketName, objectName+"-Longtimeout", fName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject shouldn't fail on longer timeout", err) return } _, err = c.StatObject(context.Background(), bucketName, objectName+"-Longtimeout", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } logSuccess(testName, function, args, startTime) } // Test validates putObject with context to see if request cancellation is honored. func testPutObjectContext() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(ctx, bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", "opts": "", } // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Make a new bucket. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket call failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := fmt.Sprintf("test-file-%v", rand.Uint32()) args["objectName"] = objectName ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) cancel() args["ctx"] = ctx args["opts"] = minio.PutObjectOptions{ContentType: "binary/octet-stream"} _, err = c.PutObject(ctx, bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err == nil { logError(testName, function, args, startTime, "", "PutObject should fail on short timeout", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) args["ctx"] = ctx defer cancel() reader = getDataReader("datafile-33-kB") defer reader.Close() _, err = c.PutObject(ctx, bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject with long timeout failed", err) return } logSuccess(testName, function, args, startTime) } // Tests get object with s3zip extensions. func testGetObjectS3Zip() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{"x-minio-extract": true} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer func() { // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } }() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") + ".zip" args["objectName"] = objectName var zipFile bytes.Buffer zw := zip.NewWriter(&zipFile) rng := rand.New(rand.NewSource(0xc0cac01a)) const nFiles = 500 for i := 0; i <= nFiles; i++ { if i == nFiles { // Make one large, compressible file. i = 1000000 } b := make([]byte, i) if i < nFiles { rng.Read(b) } wc, err := zw.Create(fmt.Sprintf("test/small/file-%d.bin", i)) if err != nil { logError(testName, function, args, startTime, "", "zw.Create failed", err) return } wc.Write(b) } err = zw.Close() if err != nil { logError(testName, function, args, startTime, "", "zw.Close failed", err) return } buf := zipFile.Bytes() // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat object failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(len(buf))+", got "+string(st.Size), err) return } r.Close() zr, err := zip.NewReader(bytes.NewReader(buf), int64(len(buf))) if err != nil { logError(testName, function, args, startTime, "", "zip.NewReader failed", err) return } lOpts := minio.ListObjectsOptions{} lOpts.Set("x-minio-extract", "true") lOpts.Prefix = objectName + "/" lOpts.Recursive = true list := c.ListObjects(context.Background(), bucketName, lOpts) listed := map[string]minio.ObjectInfo{} for item := range list { if item.Err != nil { break } listed[item.Key] = item } if len(listed) == 0 { // Assume we are running against non-minio. args["SKIPPED"] = true logIgnored(testName, function, args, startTime, "s3zip does not appear to be present") return } for _, file := range zr.File { if file.FileInfo().IsDir() { continue } args["zipfile"] = file.Name zfr, err := file.Open() if err != nil { logError(testName, function, args, startTime, "", "file.Open failed", err) return } want, err := io.ReadAll(zfr) if err != nil { logError(testName, function, args, startTime, "", "fzip file read failed", err) return } opts := minio.GetObjectOptions{} opts.Set("x-minio-extract", "true") key := path.Join(objectName, file.Name) r, err = c.GetObject(context.Background(), bucketName, key, opts) if err != nil { terr := minio.ToErrorResponse(err) if terr.StatusCode != http.StatusNotFound { logError(testName, function, args, startTime, "", "GetObject failed", err) } return } got, err := io.ReadAll(r) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } r.Close() if !bytes.Equal(want, got) { logError(testName, function, args, startTime, "", "Content mismatch", err) return } oi, ok := listed[key] if !ok { logError(testName, function, args, startTime, "", "Object Missing", fmt.Errorf("%s not present in listing", key)) return } if int(oi.Size) != len(got) { logError(testName, function, args, startTime, "", "Object Size Incorrect", fmt.Errorf("listing %d, read %d", oi.Size, len(got))) return } delete(listed, key) } delete(args, "zipfile") if len(listed) > 0 { logError(testName, function, args, startTime, "", "Extra listed objects", fmt.Errorf("left over: %v", listed)) return } logSuccess(testName, function, args, startTime) } // Tests get object ReaderSeeker interface methods. func testGetObjectReadSeekFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer func() { // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } }() // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat object failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } // This following function helps us to compare data from the reader after seek // with the data from the original buffer cmpData := func(r io.Reader, start, end int) { if end-start == 0 { return } buffer := bytes.NewBuffer([]byte{}) if _, err := io.CopyN(buffer, r, int64(bufSize)); err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "CopyN failed", err) return } } if !bytes.Equal(buf[start:end], buffer.Bytes()) { logError(testName, function, args, startTime, "", "Incorrect read bytes v/s original buffer", err) return } } // Generic seek error for errors other than io.EOF seekErr := errors.New("seek error") testCases := []struct { offset int64 whence int pos int64 err error shouldCmp bool start int end int }{ // Start from offset 0, fetch data and compare {0, 0, 0, nil, true, 0, 0}, // Start from offset 2048, fetch data and compare {2048, 0, 2048, nil, true, 2048, bufSize}, // Start from offset larger than possible {int64(bufSize) + 1024, 0, 0, seekErr, false, 0, 0}, // Move to offset 0 without comparing {0, 0, 0, nil, false, 0, 0}, // Move one step forward and compare {1, 1, 1, nil, true, 1, bufSize}, // Move larger than possible {int64(bufSize), 1, 0, seekErr, false, 0, 0}, // Provide negative offset with CUR_SEEK {int64(-1), 1, 0, seekErr, false, 0, 0}, // Test with whence SEEK_END and with positive offset {1024, 2, int64(bufSize) - 1024, io.EOF, true, 0, 0}, // Test with whence SEEK_END and with negative offset {-1024, 2, int64(bufSize) - 1024, nil, true, bufSize - 1024, bufSize}, // Test with whence SEEK_END and with large negative offset {-int64(bufSize) * 2, 2, 0, seekErr, true, 0, 0}, } for i, testCase := range testCases { // Perform seek operation n, err := r.Seek(testCase.offset, testCase.whence) // We expect an error if testCase.err == seekErr && err == nil { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", unexpected err value: expected: "+testCase.err.Error()+", found: "+err.Error(), err) return } // We expect a specific error if testCase.err != seekErr && testCase.err != err { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", unexpected err value: expected: "+testCase.err.Error()+", found: "+err.Error(), err) return } // If we expect an error go to the next loop if testCase.err != nil { continue } // Check the returned seek pos if n != testCase.pos { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", number of bytes seeked does not match, expected "+string(testCase.pos)+", got "+string(n), err) return } // Compare only if shouldCmp is activated if testCase.shouldCmp { cmpData(r, testCase.start, testCase.end) } } logSuccess(testName, function, args, startTime) } // Tests get object ReaderAt interface methods. func testGetObjectReadAtFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } offset := int64(2048) // read directly buf1 := make([]byte, 512) buf2 := make([]byte, 512) buf3 := make([]byte, 512) buf4 := make([]byte, 512) // Test readAt before stat is called such that objectInfo doesn't change. m, err := r.ReadAt(buf1, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf1) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf1))+", got "+string(m), err) return } if !bytes.Equal(buf1, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } m, err = r.ReadAt(buf2, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf2))+", got "+string(m), err) return } if !bytes.Equal(buf2, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf3, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf3) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf3))+", got "+string(m), err) return } if !bytes.Equal(buf3, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf4, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf4) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf4))+", got "+string(m), err) return } if !bytes.Equal(buf4, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } buf5 := make([]byte, len(buf)) // Read the whole object. m, err = r.ReadAt(buf5, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } if m != len(buf5) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf5))+", got "+string(m), err) return } if !bytes.Equal(buf, buf5) { logError(testName, function, args, startTime, "", "Incorrect data read in GetObject, than what was previously uploaded", err) return } buf6 := make([]byte, len(buf)+1) // Read the whole object and beyond. _, err = r.ReadAt(buf6, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } logSuccess(testName, function, args, startTime) } // Reproduces issue https://github.com/minio/minio-go/issues/1137 func testGetObjectReadAtWhenEOFWasReached() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // read directly buf1 := make([]byte, len(buf)) buf2 := make([]byte, 512) m, err := r.Read(buf1) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "Read failed", err) return } } if m != len(buf1) { logError(testName, function, args, startTime, "", "Read read shorter bytes before reaching EOF, expected "+string(len(buf1))+", got "+string(m), err) return } if !bytes.Equal(buf1, buf) { logError(testName, function, args, startTime, "", "Incorrect count of Read data", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } m, err = r.ReadAt(buf2, 512) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf2))+", got "+string(m), err) return } if !bytes.Equal(buf2, buf[512:1024]) { logError(testName, function, args, startTime, "", "Incorrect count of ReadAt data", err) return } logSuccess(testName, function, args, startTime) } // Test Presigned Post Policy func testPresignedPostPolicy() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PresignedPostPolicy(policy)" args := map[string]interface{}{ "policy": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") // Azure requires the key to not start with a number metadataKey := randString(60, rand.NewSource(time.Now().UnixNano()), "user") metadataValue := randString(60, rand.NewSource(time.Now().UnixNano()), "") buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } policy := minio.NewPostPolicy() if err := policy.SetBucket(""); err == nil { logError(testName, function, args, startTime, "", "SetBucket did not fail for invalid conditions", err) return } if err := policy.SetKey(""); err == nil { logError(testName, function, args, startTime, "", "SetKey did not fail for invalid conditions", err) return } if err := policy.SetExpires(time.Date(1, time.January, 1, 0, 0, 0, 0, time.UTC)); err == nil { logError(testName, function, args, startTime, "", "SetExpires did not fail for invalid conditions", err) return } if err := policy.SetContentType(""); err == nil { logError(testName, function, args, startTime, "", "SetContentType did not fail for invalid conditions", err) return } if err := policy.SetContentLengthRange(1024*1024, 1024); err == nil { logError(testName, function, args, startTime, "", "SetContentLengthRange did not fail for invalid conditions", err) return } if err := policy.SetUserMetadata("", ""); err == nil { logError(testName, function, args, startTime, "", "SetUserMetadata did not fail for invalid conditions", err) return } policy.SetBucket(bucketName) policy.SetKey(objectName) policy.SetExpires(time.Now().UTC().AddDate(0, 0, 10)) // expires in 10 days policy.SetContentType("binary/octet-stream") policy.SetContentLengthRange(10, 1024*1024) policy.SetUserMetadata(metadataKey, metadataValue) // Add CRC32C checksum := minio.ChecksumCRC32C.ChecksumBytes(buf) policy.SetChecksum(checksum) args["policy"] = policy.String() presignedPostPolicyURL, formData, err := c.PresignedPostPolicy(context.Background(), policy) if err != nil { logError(testName, function, args, startTime, "", "PresignedPostPolicy failed", err) return } var formBuf bytes.Buffer writer := multipart.NewWriter(&formBuf) for k, v := range formData { writer.WriteField(k, v) } // Get a 33KB file to upload and test if set post policy works filePath := getMintDataDirFilePath("datafile-33-kB") if filePath == "" { // Make a temp file with 33 KB data. file, err := os.CreateTemp(os.TempDir(), "PresignedPostPolicyTest") if err != nil { logError(testName, function, args, startTime, "", "TempFile creation failed", err) return } if _, err = io.Copy(file, getDataReader("datafile-33-kB")); err != nil { logError(testName, function, args, startTime, "", "Copy failed", err) return } if err = file.Close(); err != nil { logError(testName, function, args, startTime, "", "File Close failed", err) return } filePath = file.Name() } // add file to post request f, err := os.Open(filePath) defer f.Close() if err != nil { logError(testName, function, args, startTime, "", "File open failed", err) return } w, err := writer.CreateFormFile("file", filePath) if err != nil { logError(testName, function, args, startTime, "", "CreateFormFile failed", err) return } _, err = io.Copy(w, f) if err != nil { logError(testName, function, args, startTime, "", "Copy failed", err) return } writer.Close() httpClient := &http.Client{ // Setting a sensible time out of 30secs to wait for response // headers. Request is pro-actively canceled after 30secs // with no response. Timeout: 30 * time.Second, Transport: createHTTPTransport(), } args["url"] = presignedPostPolicyURL.String() req, err := http.NewRequest(http.MethodPost, presignedPostPolicyURL.String(), bytes.NewReader(formBuf.Bytes())) if err != nil { logError(testName, function, args, startTime, "", "Http request failed", err) return } req.Header.Set("Content-Type", writer.FormDataContentType()) // make post request with correct form data res, err := httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "Http request failed", err) return } defer res.Body.Close() if res.StatusCode != http.StatusNoContent { logError(testName, function, args, startTime, "", "Http request failed", errors.New(res.Status)) return } // expected path should be absolute path of the object var scheme string if mustParseBool(os.Getenv(enableHTTPS)) { scheme = "https://" } else { scheme = "http://" } expectedLocation := scheme + os.Getenv(serverEndpoint) + "/" + bucketName + "/" + objectName expectedLocationBucketDNS := scheme + bucketName + "." + os.Getenv(serverEndpoint) + "/" + objectName if !strings.Contains(expectedLocation, "s3.amazonaws.com/") { // Test when not against AWS S3. if val, ok := res.Header["Location"]; ok { if val[0] != expectedLocation && val[0] != expectedLocationBucketDNS { logError(testName, function, args, startTime, "", fmt.Sprintf("Location in header response is incorrect. Want %q or %q, got %q", expectedLocation, expectedLocationBucketDNS, val[0]), err) return } } else { logError(testName, function, args, startTime, "", "Location not found in header response", err) return } } want := checksum.Encoded() if got := res.Header.Get("X-Amz-Checksum-Crc32c"); got != want { logError(testName, function, args, startTime, "", fmt.Sprintf("Want checksum %q, got %q", want, got), nil) return } logSuccess(testName, function, args, startTime) } // Tests copy object func testCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(dst, src)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Make a new bucket in 'us-east-1' (destination bucket). err = c.MakeBucket(context.Background(), bucketName+"-copy", minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName+"-copy", c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Check the various fields of source object against destination object. objInfo, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } // Copy Source src := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, // Set copy conditions. MatchETag: objInfo.ETag, MatchModifiedSince: time.Date(2014, time.April, 0, 0, 0, 0, 0, time.UTC), } args["src"] = src dst := minio.CopyDestOptions{ Bucket: bucketName + "-copy", Object: objectName + "-copy", } // Perform the Copy if _, err = c.CopyObject(context.Background(), dst, src); err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } // Source object r, err = c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Destination object readerCopy, err := c.GetObject(context.Background(), bucketName+"-copy", objectName+"-copy", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Check the various fields of source object against destination object. objInfo, err = r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } objInfoCopy, err := readerCopy.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if objInfo.Size != objInfoCopy.Size { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(objInfoCopy.Size)+", got "+string(objInfo.Size), err) return } if err := crcMatchesName(r, "datafile-33-kB"); err != nil { logError(testName, function, args, startTime, "", "data CRC check failed", err) return } if err := crcMatchesName(readerCopy, "datafile-33-kB"); err != nil { logError(testName, function, args, startTime, "", "copy data CRC check failed", err) return } // Close all the get readers before proceeding with CopyObject operations. r.Close() readerCopy.Close() // CopyObject again but with wrong conditions src = minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, MatchUnmodifiedSince: time.Date(2014, time.April, 0, 0, 0, 0, 0, time.UTC), NoMatchETag: objInfo.ETag, } // Perform the Copy which should fail _, err = c.CopyObject(context.Background(), dst, src) if err == nil { logError(testName, function, args, startTime, "", "CopyObject did not fail for invalid conditions", err) return } src = minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, } dst = minio.CopyDestOptions{ Bucket: bucketName, Object: objectName, ReplaceMetadata: true, UserMetadata: map[string]string{ "Copy": "should be same", }, } args["dst"] = dst args["src"] = src _, err = c.CopyObject(context.Background(), dst, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject shouldn't fail", err) return } oi, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } stOpts := minio.StatObjectOptions{} stOpts.SetMatchETag(oi.ETag) objInfo, err = c.StatObject(context.Background(), bucketName, objectName, stOpts) if err != nil { logError(testName, function, args, startTime, "", "CopyObject ETag should match and not fail", err) return } if objInfo.Metadata.Get("x-amz-meta-copy") != "should be same" { logError(testName, function, args, startTime, "", "CopyObject modified metadata should match", err) return } logSuccess(testName, function, args, startTime) } // Tests SSE-C get object ReaderSeeker interface methods. func testSSECEncryptedGetObjectReadSeekFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer func() { // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } }() // Generate 129MiB of data. bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ ContentType: "binary/octet-stream", ServerSideEncryption: encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+objectName)), }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{ ServerSideEncryption: encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+objectName)), }) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer r.Close() st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat object failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } // This following function helps us to compare data from the reader after seek // with the data from the original buffer cmpData := func(r io.Reader, start, end int) { if end-start == 0 { return } buffer := bytes.NewBuffer([]byte{}) if _, err := io.CopyN(buffer, r, int64(bufSize)); err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "CopyN failed", err) return } } if !bytes.Equal(buf[start:end], buffer.Bytes()) { logError(testName, function, args, startTime, "", "Incorrect read bytes v/s original buffer", err) return } } testCases := []struct { offset int64 whence int pos int64 err error shouldCmp bool start int end int }{ // Start from offset 0, fetch data and compare {0, 0, 0, nil, true, 0, 0}, // Start from offset 2048, fetch data and compare {2048, 0, 2048, nil, true, 2048, bufSize}, // Start from offset larger than possible {int64(bufSize) + 1024, 0, 0, io.EOF, false, 0, 0}, // Move to offset 0 without comparing {0, 0, 0, nil, false, 0, 0}, // Move one step forward and compare {1, 1, 1, nil, true, 1, bufSize}, // Move larger than possible {int64(bufSize), 1, 0, io.EOF, false, 0, 0}, // Provide negative offset with CUR_SEEK {int64(-1), 1, 0, fmt.Errorf("Negative position not allowed for 1"), false, 0, 0}, // Test with whence SEEK_END and with positive offset {1024, 2, 0, io.EOF, false, 0, 0}, // Test with whence SEEK_END and with negative offset {-1024, 2, int64(bufSize) - 1024, nil, true, bufSize - 1024, bufSize}, // Test with whence SEEK_END and with large negative offset {-int64(bufSize) * 2, 2, 0, fmt.Errorf("Seeking at negative offset not allowed for 2"), false, 0, 0}, // Test with invalid whence {0, 3, 0, fmt.Errorf("Invalid whence 3"), false, 0, 0}, } for i, testCase := range testCases { // Perform seek operation n, err := r.Seek(testCase.offset, testCase.whence) if err != nil && testCase.err == nil { // We expected success. logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } if err == nil && testCase.err != nil { // We expected failure, but got success. logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } if err != nil && testCase.err != nil { if err.Error() != testCase.err.Error() { // We expect a specific error logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } } // Check the returned seek pos if n != testCase.pos { logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, number of bytes seeked does not match, expected %d, got %d", i+1, testCase.pos, n), err) return } // Compare only if shouldCmp is activated if testCase.shouldCmp { cmpData(r, testCase.start, testCase.end) } } logSuccess(testName, function, args, startTime) } // Tests SSE-S3 get object ReaderSeeker interface methods. func testSSES3EncryptedGetObjectReadSeekFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer func() { // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } }() // Generate 129MiB of data. bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ ContentType: "binary/octet-stream", ServerSideEncryption: encrypt.NewSSE(), }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer r.Close() st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat object failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } // This following function helps us to compare data from the reader after seek // with the data from the original buffer cmpData := func(r io.Reader, start, end int) { if end-start == 0 { return } buffer := bytes.NewBuffer([]byte{}) if _, err := io.CopyN(buffer, r, int64(bufSize)); err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "CopyN failed", err) return } } if !bytes.Equal(buf[start:end], buffer.Bytes()) { logError(testName, function, args, startTime, "", "Incorrect read bytes v/s original buffer", err) return } } testCases := []struct { offset int64 whence int pos int64 err error shouldCmp bool start int end int }{ // Start from offset 0, fetch data and compare {0, 0, 0, nil, true, 0, 0}, // Start from offset 2048, fetch data and compare {2048, 0, 2048, nil, true, 2048, bufSize}, // Start from offset larger than possible {int64(bufSize) + 1024, 0, 0, io.EOF, false, 0, 0}, // Move to offset 0 without comparing {0, 0, 0, nil, false, 0, 0}, // Move one step forward and compare {1, 1, 1, nil, true, 1, bufSize}, // Move larger than possible {int64(bufSize), 1, 0, io.EOF, false, 0, 0}, // Provide negative offset with CUR_SEEK {int64(-1), 1, 0, fmt.Errorf("Negative position not allowed for 1"), false, 0, 0}, // Test with whence SEEK_END and with positive offset {1024, 2, 0, io.EOF, false, 0, 0}, // Test with whence SEEK_END and with negative offset {-1024, 2, int64(bufSize) - 1024, nil, true, bufSize - 1024, bufSize}, // Test with whence SEEK_END and with large negative offset {-int64(bufSize) * 2, 2, 0, fmt.Errorf("Seeking at negative offset not allowed for 2"), false, 0, 0}, // Test with invalid whence {0, 3, 0, fmt.Errorf("Invalid whence 3"), false, 0, 0}, } for i, testCase := range testCases { // Perform seek operation n, err := r.Seek(testCase.offset, testCase.whence) if err != nil && testCase.err == nil { // We expected success. logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } if err == nil && testCase.err != nil { // We expected failure, but got success. logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } if err != nil && testCase.err != nil { if err.Error() != testCase.err.Error() { // We expect a specific error logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, unexpected err value: expected: %s, found: %s", i+1, testCase.err, err), err) return } } // Check the returned seek pos if n != testCase.pos { logError(testName, function, args, startTime, "", fmt.Sprintf("Test %d, number of bytes seeked does not match, expected %d, got %d", i+1, testCase.pos, n), err) return } // Compare only if shouldCmp is activated if testCase.shouldCmp { cmpData(r, testCase.start, testCase.end) } } logSuccess(testName, function, args, startTime) } // Tests SSE-C get object ReaderAt interface methods. func testSSECEncryptedGetObjectReadAtFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 129MiB of data. bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ ContentType: "binary/octet-stream", ServerSideEncryption: encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+objectName)), }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{ ServerSideEncryption: encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+objectName)), }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } defer r.Close() offset := int64(2048) // read directly buf1 := make([]byte, 512) buf2 := make([]byte, 512) buf3 := make([]byte, 512) buf4 := make([]byte, 512) // Test readAt before stat is called such that objectInfo doesn't change. m, err := r.ReadAt(buf1, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf1) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf1))+", got "+string(m), err) return } if !bytes.Equal(buf1, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } m, err = r.ReadAt(buf2, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf2))+", got "+string(m), err) return } if !bytes.Equal(buf2, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf3, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf3) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf3))+", got "+string(m), err) return } if !bytes.Equal(buf3, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf4, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf4) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf4))+", got "+string(m), err) return } if !bytes.Equal(buf4, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } buf5 := make([]byte, len(buf)) // Read the whole object. m, err = r.ReadAt(buf5, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } if m != len(buf5) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf5))+", got "+string(m), err) return } if !bytes.Equal(buf, buf5) { logError(testName, function, args, startTime, "", "Incorrect data read in GetObject, than what was previously uploaded", err) return } buf6 := make([]byte, len(buf)+1) // Read the whole object and beyond. _, err = r.ReadAt(buf6, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } logSuccess(testName, function, args, startTime) } // Tests SSE-S3 get object ReaderAt interface methods. func testSSES3EncryptedGetObjectReadAtFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 129MiB of data. bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ ContentType: "binary/octet-stream", ServerSideEncryption: encrypt.NewSSE(), }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } defer r.Close() offset := int64(2048) // read directly buf1 := make([]byte, 512) buf2 := make([]byte, 512) buf3 := make([]byte, 512) buf4 := make([]byte, 512) // Test readAt before stat is called such that objectInfo doesn't change. m, err := r.ReadAt(buf1, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf1) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf1))+", got "+string(m), err) return } if !bytes.Equal(buf1, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+", got "+string(st.Size), err) return } m, err = r.ReadAt(buf2, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf2))+", got "+string(m), err) return } if !bytes.Equal(buf2, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf3, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf3) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf3))+", got "+string(m), err) return } if !bytes.Equal(buf3, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf4, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf4) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf4))+", got "+string(m), err) return } if !bytes.Equal(buf4, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } buf5 := make([]byte, len(buf)) // Read the whole object. m, err = r.ReadAt(buf5, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } if m != len(buf5) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf5))+", got "+string(m), err) return } if !bytes.Equal(buf, buf5) { logError(testName, function, args, startTime, "", "Incorrect data read in GetObject, than what was previously uploaded", err) return } buf6 := make([]byte, len(buf)+1) // Read the whole object and beyond. _, err = r.ReadAt(buf6, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } logSuccess(testName, function, args, startTime) } // testSSECEncryptionPutGet tests encryption with customer provided encryption keys func testSSECEncryptionPutGet() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutEncryptedObject(bucketName, objectName, reader, sse)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "sse": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) testCases := []struct { buf []byte }{ {buf: bytes.Repeat([]byte("F"), 1)}, {buf: bytes.Repeat([]byte("F"), 15)}, {buf: bytes.Repeat([]byte("F"), 16)}, {buf: bytes.Repeat([]byte("F"), 17)}, {buf: bytes.Repeat([]byte("F"), 31)}, {buf: bytes.Repeat([]byte("F"), 32)}, {buf: bytes.Repeat([]byte("F"), 33)}, {buf: bytes.Repeat([]byte("F"), 1024)}, {buf: bytes.Repeat([]byte("F"), 1024*2)}, {buf: bytes.Repeat([]byte("F"), 1024*1024)}, } const password = "correct horse battery staple" // https://xkcd.com/936/ for i, testCase := range testCases { // Generate a random object name objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Secured object sse := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) args["sse"] = sse // Put encrypted data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(testCase.buf), int64(len(testCase.buf)), minio.PutObjectOptions{ServerSideEncryption: sse}) if err != nil { logError(testName, function, args, startTime, "", "PutEncryptedObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{ServerSideEncryption: sse}) if err != nil { logError(testName, function, args, startTime, "", "GetEncryptedObject failed", err) return } defer r.Close() // Compare the sent object with the received one recvBuffer := bytes.NewBuffer([]byte{}) if _, err = io.Copy(recvBuffer, r); err != nil { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", error: "+err.Error(), err) return } if recvBuffer.Len() != len(testCase.buf) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Number of bytes of received object does not match, expected "+string(len(testCase.buf))+", got "+string(recvBuffer.Len()), err) return } if !bytes.Equal(testCase.buf, recvBuffer.Bytes()) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Encrypted sent is not equal to decrypted, expected "+string(testCase.buf)+", got "+string(recvBuffer.Bytes()), err) return } logSuccess(testName, function, args, startTime) } logSuccess(testName, function, args, startTime) } // TestEncryptionFPut tests encryption with customer specified encryption keys func testSSECEncryptionFPut() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutEncryptedObject(bucketName, objectName, filePath, contentType, sse)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "filePath": "", "contentType": "", "sse": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Object custom metadata customContentType := "custom/contenttype" args["metadata"] = customContentType testCases := []struct { buf []byte }{ {buf: bytes.Repeat([]byte("F"), 0)}, {buf: bytes.Repeat([]byte("F"), 1)}, {buf: bytes.Repeat([]byte("F"), 15)}, {buf: bytes.Repeat([]byte("F"), 16)}, {buf: bytes.Repeat([]byte("F"), 17)}, {buf: bytes.Repeat([]byte("F"), 31)}, {buf: bytes.Repeat([]byte("F"), 32)}, {buf: bytes.Repeat([]byte("F"), 33)}, {buf: bytes.Repeat([]byte("F"), 1024)}, {buf: bytes.Repeat([]byte("F"), 1024*2)}, {buf: bytes.Repeat([]byte("F"), 1024*1024)}, } const password = "correct horse battery staple" // https://xkcd.com/936/ for i, testCase := range testCases { // Generate a random object name objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Secured object sse := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) args["sse"] = sse // Generate a random file name. fileName := randString(60, rand.NewSource(time.Now().UnixNano()), "") file, err := os.Create(fileName) if err != nil { logError(testName, function, args, startTime, "", "file create failed", err) return } _, err = file.Write(testCase.buf) if err != nil { logError(testName, function, args, startTime, "", "file write failed", err) return } file.Close() // Put encrypted data if _, err = c.FPutObject(context.Background(), bucketName, objectName, fileName, minio.PutObjectOptions{ServerSideEncryption: sse}); err != nil { logError(testName, function, args, startTime, "", "FPutEncryptedObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{ServerSideEncryption: sse}) if err != nil { logError(testName, function, args, startTime, "", "GetEncryptedObject failed", err) return } defer r.Close() // Compare the sent object with the received one recvBuffer := bytes.NewBuffer([]byte{}) if _, err = io.Copy(recvBuffer, r); err != nil { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", error: "+err.Error(), err) return } if recvBuffer.Len() != len(testCase.buf) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Number of bytes of received object does not match, expected "+string(len(testCase.buf))+", got "+string(recvBuffer.Len()), err) return } if !bytes.Equal(testCase.buf, recvBuffer.Bytes()) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Encrypted sent is not equal to decrypted, expected "+string(testCase.buf)+", got "+string(recvBuffer.Bytes()), err) return } os.Remove(fileName) } logSuccess(testName, function, args, startTime) } // testSSES3EncryptionPutGet tests SSE-S3 encryption func testSSES3EncryptionPutGet() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutEncryptedObject(bucketName, objectName, reader, sse)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "sse": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) testCases := []struct { buf []byte }{ {buf: bytes.Repeat([]byte("F"), 1)}, {buf: bytes.Repeat([]byte("F"), 15)}, {buf: bytes.Repeat([]byte("F"), 16)}, {buf: bytes.Repeat([]byte("F"), 17)}, {buf: bytes.Repeat([]byte("F"), 31)}, {buf: bytes.Repeat([]byte("F"), 32)}, {buf: bytes.Repeat([]byte("F"), 33)}, {buf: bytes.Repeat([]byte("F"), 1024)}, {buf: bytes.Repeat([]byte("F"), 1024*2)}, {buf: bytes.Repeat([]byte("F"), 1024*1024)}, } for i, testCase := range testCases { // Generate a random object name objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Secured object sse := encrypt.NewSSE() args["sse"] = sse // Put encrypted data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(testCase.buf), int64(len(testCase.buf)), minio.PutObjectOptions{ServerSideEncryption: sse}) if err != nil { logError(testName, function, args, startTime, "", "PutEncryptedObject failed", err) return } // Read the data back without any encryption headers r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetEncryptedObject failed", err) return } defer r.Close() // Compare the sent object with the received one recvBuffer := bytes.NewBuffer([]byte{}) if _, err = io.Copy(recvBuffer, r); err != nil { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", error: "+err.Error(), err) return } if recvBuffer.Len() != len(testCase.buf) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Number of bytes of received object does not match, expected "+string(len(testCase.buf))+", got "+string(recvBuffer.Len()), err) return } if !bytes.Equal(testCase.buf, recvBuffer.Bytes()) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Encrypted sent is not equal to decrypted, expected "+string(testCase.buf)+", got "+string(recvBuffer.Bytes()), err) return } logSuccess(testName, function, args, startTime) } logSuccess(testName, function, args, startTime) } // TestSSES3EncryptionFPut tests server side encryption func testSSES3EncryptionFPut() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutEncryptedObject(bucketName, objectName, filePath, contentType, sse)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "filePath": "", "contentType": "", "sse": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Object custom metadata customContentType := "custom/contenttype" args["metadata"] = customContentType testCases := []struct { buf []byte }{ {buf: bytes.Repeat([]byte("F"), 0)}, {buf: bytes.Repeat([]byte("F"), 1)}, {buf: bytes.Repeat([]byte("F"), 15)}, {buf: bytes.Repeat([]byte("F"), 16)}, {buf: bytes.Repeat([]byte("F"), 17)}, {buf: bytes.Repeat([]byte("F"), 31)}, {buf: bytes.Repeat([]byte("F"), 32)}, {buf: bytes.Repeat([]byte("F"), 33)}, {buf: bytes.Repeat([]byte("F"), 1024)}, {buf: bytes.Repeat([]byte("F"), 1024*2)}, {buf: bytes.Repeat([]byte("F"), 1024*1024)}, } for i, testCase := range testCases { // Generate a random object name objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Secured object sse := encrypt.NewSSE() args["sse"] = sse // Generate a random file name. fileName := randString(60, rand.NewSource(time.Now().UnixNano()), "") file, err := os.Create(fileName) if err != nil { logError(testName, function, args, startTime, "", "file create failed", err) return } _, err = file.Write(testCase.buf) if err != nil { logError(testName, function, args, startTime, "", "file write failed", err) return } file.Close() // Put encrypted data if _, err = c.FPutObject(context.Background(), bucketName, objectName, fileName, minio.PutObjectOptions{ServerSideEncryption: sse}); err != nil { logError(testName, function, args, startTime, "", "FPutEncryptedObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetEncryptedObject failed", err) return } defer r.Close() // Compare the sent object with the received one recvBuffer := bytes.NewBuffer([]byte{}) if _, err = io.Copy(recvBuffer, r); err != nil { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", error: "+err.Error(), err) return } if recvBuffer.Len() != len(testCase.buf) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Number of bytes of received object does not match, expected "+string(len(testCase.buf))+", got "+string(recvBuffer.Len()), err) return } if !bytes.Equal(testCase.buf, recvBuffer.Bytes()) { logError(testName, function, args, startTime, "", "Test "+string(i+1)+", Encrypted sent is not equal to decrypted, expected "+string(testCase.buf)+", got "+string(recvBuffer.Bytes()), err) return } os.Remove(fileName) } logSuccess(testName, function, args, startTime) } func testBucketNotification() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "SetBucketNotification(bucketName)" args := map[string]interface{}{ "bucketName": "", } if os.Getenv("NOTIFY_BUCKET") == "" || os.Getenv("NOTIFY_SERVICE") == "" || os.Getenv("NOTIFY_REGION") == "" || os.Getenv("NOTIFY_ACCOUNTID") == "" || os.Getenv("NOTIFY_RESOURCE") == "" { logIgnored(testName, function, args, startTime, "Skipped notification test as it is not configured") return } // Seed random based on current time. rand.Seed(time.Now().Unix()) c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable to debug // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) bucketName := os.Getenv("NOTIFY_BUCKET") args["bucketName"] = bucketName topicArn := notification.NewArn("aws", os.Getenv("NOTIFY_SERVICE"), os.Getenv("NOTIFY_REGION"), os.Getenv("NOTIFY_ACCOUNTID"), os.Getenv("NOTIFY_RESOURCE")) queueArn := notification.NewArn("aws", "dummy-service", "dummy-region", "dummy-accountid", "dummy-resource") topicConfig := notification.NewConfig(topicArn) topicConfig.AddEvents(notification.ObjectCreatedAll, notification.ObjectRemovedAll) topicConfig.AddFilterSuffix("jpg") queueConfig := notification.NewConfig(queueArn) queueConfig.AddEvents(notification.ObjectCreatedAll) queueConfig.AddFilterPrefix("photos/") config := notification.Configuration{} config.AddTopic(topicConfig) // Add the same topicConfig again, should have no effect // because it is duplicated config.AddTopic(topicConfig) if len(config.TopicConfigs) != 1 { logError(testName, function, args, startTime, "", "Duplicate entry added", err) return } // Add and remove a queue config config.AddQueue(queueConfig) config.RemoveQueueByArn(queueArn) err = c.SetBucketNotification(context.Background(), bucketName, config) if err != nil { logError(testName, function, args, startTime, "", "SetBucketNotification failed", err) return } config, err = c.GetBucketNotification(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketNotification failed", err) return } if len(config.TopicConfigs) != 1 { logError(testName, function, args, startTime, "", "Topic config is empty", err) return } if config.TopicConfigs[0].Filter.S3Key.FilterRules[0].Value != "jpg" { logError(testName, function, args, startTime, "", "Couldn't get the suffix", err) return } err = c.RemoveAllBucketNotification(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "RemoveAllBucketNotification failed", err) return } // Delete all objects and buckets if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Tests comprehensive list of all methods. func testFunctional() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "testFunctional()" functionAll := "" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, nil, startTime, "", "MinIO client object creation failed", err) return } // Enable to debug // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket. function = "MakeBucket(bucketName, region)" functionAll = "MakeBucket(bucketName, region)" args["bucketName"] = bucketName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) defer cleanupBucket(bucketName, c) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } // Generate a random file name. fileName := randString(60, rand.NewSource(time.Now().UnixNano()), "") file, err := os.Create(fileName) if err != nil { logError(testName, function, args, startTime, "", "File creation failed", err) return } for i := 0; i < 3; i++ { buf := make([]byte, rand.Intn(1<<19)) _, err = file.Write(buf) if err != nil { logError(testName, function, args, startTime, "", "File write failed", err) return } } file.Close() // Verify if bucket exits and you have access. var exists bool function = "BucketExists(bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } exists, err = c.BucketExists(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "BucketExists failed", err) return } if !exists { logError(testName, function, args, startTime, "", "Could not find the bucket", err) return } // Asserting the default bucket policy. function = "GetBucketPolicy(ctx, bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } nilPolicy, err := c.GetBucketPolicy(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketPolicy failed", err) return } if nilPolicy != "" { logError(testName, function, args, startTime, "", "policy should be set to nil", err) return } // Set the bucket policy to 'public readonly'. function = "SetBucketPolicy(bucketName, readOnlyPolicy)" functionAll += ", " + function readOnlyPolicy := `{"Version":"2012-10-17","Statement":[{"Effect":"Allow","Principal":{"AWS":["*"]},"Action":["s3:ListBucket"],"Resource":["arn:aws:s3:::` + bucketName + `"]}]}` args = map[string]interface{}{ "bucketName": bucketName, "bucketPolicy": readOnlyPolicy, } err = c.SetBucketPolicy(context.Background(), bucketName, readOnlyPolicy) if err != nil { logError(testName, function, args, startTime, "", "SetBucketPolicy failed", err) return } // should return policy `readonly`. function = "GetBucketPolicy(ctx, bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } _, err = c.GetBucketPolicy(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketPolicy failed", err) return } // Make the bucket 'public writeonly'. function = "SetBucketPolicy(bucketName, writeOnlyPolicy)" functionAll += ", " + function writeOnlyPolicy := `{"Version":"2012-10-17","Statement":[{"Effect":"Allow","Principal":{"AWS":["*"]},"Action":["s3:ListBucketMultipartUploads"],"Resource":["arn:aws:s3:::` + bucketName + `"]}]}` args = map[string]interface{}{ "bucketName": bucketName, "bucketPolicy": writeOnlyPolicy, } err = c.SetBucketPolicy(context.Background(), bucketName, writeOnlyPolicy) if err != nil { logError(testName, function, args, startTime, "", "SetBucketPolicy failed", err) return } // should return policy `writeonly`. function = "GetBucketPolicy(ctx, bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } _, err = c.GetBucketPolicy(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketPolicy failed", err) return } // Make the bucket 'public read/write'. function = "SetBucketPolicy(bucketName, readWritePolicy)" functionAll += ", " + function readWritePolicy := `{"Version":"2012-10-17","Statement":[{"Effect":"Allow","Principal":{"AWS":["*"]},"Action":["s3:ListBucket","s3:ListBucketMultipartUploads"],"Resource":["arn:aws:s3:::` + bucketName + `"]}]}` args = map[string]interface{}{ "bucketName": bucketName, "bucketPolicy": readWritePolicy, } err = c.SetBucketPolicy(context.Background(), bucketName, readWritePolicy) if err != nil { logError(testName, function, args, startTime, "", "SetBucketPolicy failed", err) return } // should return policy `readwrite`. function = "GetBucketPolicy(bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } _, err = c.GetBucketPolicy(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketPolicy failed", err) return } // List all buckets. function = "ListBuckets()" functionAll += ", " + function args = nil buckets, err := c.ListBuckets(context.Background()) if len(buckets) == 0 { logError(testName, function, args, startTime, "", "Found bucket list to be empty", err) return } if err != nil { logError(testName, function, args, startTime, "", "ListBuckets failed", err) return } // Verify if previously created bucket is listed in list buckets. bucketFound := false for _, bucket := range buckets { if bucket.Name == bucketName { bucketFound = true } } // If bucket not found error out. if !bucketFound { logError(testName, function, args, startTime, "", "Bucket: "+bucketName+" not found", err) return } objectName := bucketName + "unique" // Generate data buf := bytes.Repeat([]byte("f"), 1<<19) function = "PutObject(bucketName, objectName, reader, contentType)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "contentType": "", } _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName + "-nolength", "contentType": "binary/octet-stream", } _, err = c.PutObject(context.Background(), bucketName, objectName+"-nolength", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Instantiate a done channel to close all listing. doneCh := make(chan struct{}) defer close(doneCh) objFound := false isRecursive := true // Recursive is true. function = "ListObjects(bucketName, objectName, isRecursive, doneCh)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "isRecursive": isRecursive, } for obj := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{UseV1: true, Prefix: objectName, Recursive: true}) { if obj.Key == objectName { objFound = true break } } if !objFound { logError(testName, function, args, startTime, "", "Object "+objectName+" not found", err) return } objFound = false isRecursive = true // Recursive is true. function = "ListObjects()" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "isRecursive": isRecursive, } for obj := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{Prefix: objectName, Recursive: isRecursive}) { if obj.Key == objectName { objFound = true break } } if !objFound { logError(testName, function, args, startTime, "", "Object "+objectName+" not found", err) return } incompObjNotFound := true function = "ListIncompleteUploads(bucketName, objectName, isRecursive, doneCh)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "isRecursive": isRecursive, } for objIncompl := range c.ListIncompleteUploads(context.Background(), bucketName, objectName, isRecursive) { if objIncompl.Key != "" { incompObjNotFound = false break } } if !incompObjNotFound { logError(testName, function, args, startTime, "", "Unexpected dangling incomplete upload found", err) return } function = "GetObject(bucketName, objectName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, } newReader, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } newReadBytes, err := io.ReadAll(newReader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(newReadBytes, buf) { logError(testName, function, args, startTime, "", "GetObject bytes mismatch", err) return } newReader.Close() function = "FGetObject(bucketName, objectName, fileName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "fileName": fileName + "-f", } err = c.FGetObject(context.Background(), bucketName, objectName, fileName+"-f", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FGetObject failed", err) return } function = "PresignedHeadObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": "", "expires": 3600 * time.Second, } if _, err = c.PresignedHeadObject(context.Background(), bucketName, "", 3600*time.Second, nil); err == nil { logError(testName, function, args, startTime, "", "PresignedHeadObject success", err) return } // Generate presigned HEAD object url. function = "PresignedHeadObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "expires": 3600 * time.Second, } presignedHeadURL, err := c.PresignedHeadObject(context.Background(), bucketName, objectName, 3600*time.Second, nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject failed", err) return } transport := createHTTPTransport() if err != nil { logError(testName, function, args, startTime, "", "DefaultTransport failed", err) return } httpClient := &http.Client{ // Setting a sensible time out of 30secs to wait for response // headers. Request is pro-actively canceled after 30secs // with no response. Timeout: 30 * time.Second, Transport: transport, } req, err := http.NewRequest(http.MethodHead, presignedHeadURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject request was incorrect", err) return } // Verify if presigned url works. resp, err := httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject response incorrect", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedHeadObject response incorrect, status "+string(resp.StatusCode), err) return } if resp.Header.Get("ETag") == "" { logError(testName, function, args, startTime, "", "PresignedHeadObject response incorrect", err) return } resp.Body.Close() function = "PresignedGetObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": "", "expires": 3600 * time.Second, } _, err = c.PresignedGetObject(context.Background(), bucketName, "", 3600*time.Second, nil) if err == nil { logError(testName, function, args, startTime, "", "PresignedGetObject success", err) return } // Generate presigned GET object url. function = "PresignedGetObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "expires": 3600 * time.Second, } presignedGetURL, err := c.PresignedGetObject(context.Background(), bucketName, objectName, 3600*time.Second, nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject failed", err) return } // Verify if presigned url works. req, err = http.NewRequest(http.MethodGet, presignedGetURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject request incorrect", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect, status "+string(resp.StatusCode), err) return } newPresignedBytes, err := io.ReadAll(resp.Body) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } resp.Body.Close() if !bytes.Equal(newPresignedBytes, buf) { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } // Set request parameters. reqParams := make(url.Values) reqParams.Set("response-content-disposition", "attachment; filename=\"test.txt\"") args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "expires": 3600 * time.Second, "reqParams": reqParams, } presignedGetURL, err = c.PresignedGetObject(context.Background(), bucketName, objectName, 3600*time.Second, reqParams) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject failed", err) return } // Verify if presigned url works. req, err = http.NewRequest(http.MethodGet, presignedGetURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject request incorrect", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect, status "+string(resp.StatusCode), err) return } newPresignedBytes, err = io.ReadAll(resp.Body) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } if !bytes.Equal(newPresignedBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch for presigned GET URL", err) return } if resp.Header.Get("Content-Disposition") != "attachment; filename=\"test.txt\"" { logError(testName, function, args, startTime, "", "wrong Content-Disposition received "+string(resp.Header.Get("Content-Disposition")), err) return } function = "PresignedPutObject(bucketName, objectName, expires)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": "", "expires": 3600 * time.Second, } _, err = c.PresignedPutObject(context.Background(), bucketName, "", 3600*time.Second) if err == nil { logError(testName, function, args, startTime, "", "PresignedPutObject success", err) return } function = "PresignedPutObject(bucketName, objectName, expires)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName + "-presigned", "expires": 3600 * time.Second, } presignedPutURL, err := c.PresignedPutObject(context.Background(), bucketName, objectName+"-presigned", 3600*time.Second) if err != nil { logError(testName, function, args, startTime, "", "PresignedPutObject failed", err) return } buf = bytes.Repeat([]byte("g"), 1<<19) req, err = http.NewRequest(http.MethodPut, presignedPutURL.String(), bytes.NewReader(buf)) if err != nil { logError(testName, function, args, startTime, "", "Couldn't make HTTP request with PresignedPutObject URL", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedPutObject failed", err) return } newReader, err = c.GetObject(context.Background(), bucketName, objectName+"-presigned", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject after PresignedPutObject failed", err) return } newReadBytes, err = io.ReadAll(newReader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll after GetObject failed", err) return } if !bytes.Equal(newReadBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch", err) return } function = "PresignHeader(method, bucketName, objectName, expires, reqParams, extraHeaders)" functionAll += ", " + function presignExtraHeaders := map[string][]string{ "mysecret": {"abcxxx"}, } args = map[string]interface{}{ "method": "PUT", "bucketName": bucketName, "objectName": objectName + "-presign-custom", "expires": 3600 * time.Second, "extraHeaders": presignExtraHeaders, } presignedURL, err := c.PresignHeader(context.Background(), "PUT", bucketName, objectName+"-presign-custom", 3600*time.Second, nil, presignExtraHeaders) if err != nil { logError(testName, function, args, startTime, "", "Presigned failed", err) return } // Generate data more than 32K buf = bytes.Repeat([]byte("1"), rand.Intn(1<<10)+32*1024) req, err = http.NewRequest(http.MethodPut, presignedURL.String(), bytes.NewReader(buf)) if err != nil { logError(testName, function, args, startTime, "", "HTTP request to Presigned URL failed", err) return } req.Header.Add("mysecret", "abcxxx") resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "HTTP request to Presigned URL failed", err) return } // Download the uploaded object to verify args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName + "-presign-custom", } newReader, err = c.GetObject(context.Background(), bucketName, objectName+"-presign-custom", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject of uploaded custom-presigned object failed", err) return } newReadBytes, err = io.ReadAll(newReader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed during get on custom-presigned put object", err) return } newReader.Close() if !bytes.Equal(newReadBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch on custom-presigned object upload verification", err) return } function = "RemoveObject(bucketName, objectName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, } err = c.RemoveObject(context.Background(), bucketName, objectName, minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "RemoveObject failed", err) return } args["objectName"] = objectName + "-f" err = c.RemoveObject(context.Background(), bucketName, objectName+"-f", minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "RemoveObject failed", err) return } args["objectName"] = objectName + "-nolength" err = c.RemoveObject(context.Background(), bucketName, objectName+"-nolength", minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "RemoveObject failed", err) return } args["objectName"] = objectName + "-presigned" err = c.RemoveObject(context.Background(), bucketName, objectName+"-presigned", minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "RemoveObject failed", err) return } args["objectName"] = objectName + "-presign-custom" err = c.RemoveObject(context.Background(), bucketName, objectName+"-presign-custom", minio.RemoveObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "RemoveObject failed", err) return } function = "RemoveBucket(bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } err = c.RemoveBucket(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "RemoveBucket failed", err) return } err = c.RemoveBucket(context.Background(), bucketName) if err == nil { logError(testName, function, args, startTime, "", "RemoveBucket did not fail for invalid bucket name", err) return } if err.Error() != "The specified bucket does not exist" { logError(testName, function, args, startTime, "", "RemoveBucket failed", err) return } os.Remove(fileName) os.Remove(fileName + "-f") logSuccess(testName, functionAll, args, startTime) } // Test for validating GetObject Reader* methods functioning when the // object is modified in the object store. func testGetObjectModified() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Make a new bucket. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload an object. objectName := "myobject" args["objectName"] = objectName content := "helloworld" _, err = c.PutObject(context.Background(), bucketName, objectName, strings.NewReader(content), int64(len(content)), minio.PutObjectOptions{ContentType: "application/text"}) if err != nil { logError(testName, function, args, startTime, "", "Failed to upload "+objectName+", to bucket "+bucketName, err) return } defer c.RemoveObject(context.Background(), bucketName, objectName, minio.RemoveObjectOptions{}) reader, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Failed to GetObject "+objectName+", from bucket "+bucketName, err) return } defer reader.Close() // Read a few bytes of the object. b := make([]byte, 5) n, err := reader.ReadAt(b, 0) if err != nil { logError(testName, function, args, startTime, "", "Failed to read object "+objectName+", from bucket "+bucketName+" at an offset", err) return } // Upload different contents to the same object while object is being read. newContent := "goodbyeworld" _, err = c.PutObject(context.Background(), bucketName, objectName, strings.NewReader(newContent), int64(len(newContent)), minio.PutObjectOptions{ContentType: "application/text"}) if err != nil { logError(testName, function, args, startTime, "", "Failed to upload "+objectName+", to bucket "+bucketName, err) return } // Confirm that a Stat() call in between doesn't change the Object's cached etag. _, err = reader.Stat() expectedError := "At least one of the pre-conditions you specified did not hold" if err.Error() != expectedError { logError(testName, function, args, startTime, "", "Expected Stat to fail with error "+expectedError+", but received "+err.Error(), err) return } // Read again only to find object contents have been modified since last read. _, err = reader.ReadAt(b, int64(n)) if err.Error() != expectedError { logError(testName, function, args, startTime, "", "Expected ReadAt to fail with error "+expectedError+", but received "+err.Error(), err) return } logSuccess(testName, function, args, startTime) } // Test validates putObject to upload a file seeked at a given offset. func testPutObjectUploadSeekedObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, fileToUpload, contentType)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "fileToUpload": "", "contentType": "binary/octet-stream", } // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Make a new bucket. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) var tempfile *os.File if fileName := getMintDataDirFilePath("datafile-100-kB"); fileName != "" { tempfile, err = os.Open(fileName) if err != nil { logError(testName, function, args, startTime, "", "File open failed", err) return } args["fileToUpload"] = fileName } else { tempfile, err = os.CreateTemp("", "minio-go-upload-test-") if err != nil { logError(testName, function, args, startTime, "", "TempFile create failed", err) return } args["fileToUpload"] = tempfile.Name() // Generate 100kB data if _, err = io.Copy(tempfile, getDataReader("datafile-100-kB")); err != nil { logError(testName, function, args, startTime, "", "File copy failed", err) return } defer os.Remove(tempfile.Name()) // Seek back to the beginning of the file. tempfile.Seek(0, 0) } length := 100 * humanize.KiByte objectName := fmt.Sprintf("test-file-%v", rand.Uint32()) args["objectName"] = objectName offset := length / 2 if _, err = tempfile.Seek(int64(offset), 0); err != nil { logError(testName, function, args, startTime, "", "TempFile seek failed", err) return } _, err = c.PutObject(context.Background(), bucketName, objectName, tempfile, int64(length-offset), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } tempfile.Close() obj, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer obj.Close() n, err := obj.Seek(int64(offset), 0) if err != nil { logError(testName, function, args, startTime, "", "Seek failed", err) return } if n != int64(offset) { logError(testName, function, args, startTime, "", fmt.Sprintf("Invalid offset returned, expected %d got %d", int64(offset), n), err) return } _, err = c.PutObject(context.Background(), bucketName, objectName+"getobject", obj, int64(length-offset), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName+"getobject", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if st.Size != int64(length-offset) { logError(testName, function, args, startTime, "", fmt.Sprintf("Invalid offset returned, expected %d got %d", int64(length-offset), n), err) return } logSuccess(testName, function, args, startTime) } // Tests bucket re-create errors. func testMakeBucketErrorV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "MakeBucket(bucketName, region)" args := map[string]interface{}{ "bucketName": "", "region": "eu-west-1", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") region := "eu-west-1" args["bucketName"] = bucketName args["region"] = region // Make a new bucket in 'eu-west-1'. if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: region}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: region}); err == nil { logError(testName, function, args, startTime, "", "MakeBucket did not fail for existing bucket name", err) return } // Verify valid error response from server. if minio.ToErrorResponse(err).Code != "BucketAlreadyExists" && minio.ToErrorResponse(err).Code != "BucketAlreadyOwnedByYou" { logError(testName, function, args, startTime, "", "Invalid error returned by server", err) return } logSuccess(testName, function, args, startTime) } // Test get object reader to not throw error on being closed twice. func testGetObjectClosedTwiceV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "MakeBucket(bucketName, region)" args := map[string]interface{}{ "bucketName": "", "region": "eu-west-1", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(bufSize)+" got "+string(st.Size), err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if err := r.Close(); err == nil { logError(testName, function, args, startTime, "", "Object is already closed, should return error", err) return } logSuccess(testName, function, args, startTime) } // Tests FPutObject hidden contentType setting func testFPutObjectV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FPutObject(bucketName, objectName, fileName, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "fileName": "", "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Make a temp file with 11*1024*1024 bytes of data. file, err := os.CreateTemp(os.TempDir(), "FPutObjectTest") if err != nil { logError(testName, function, args, startTime, "", "TempFile creation failed", err) return } r := bytes.NewReader(bytes.Repeat([]byte("b"), 11*1024*1024)) n, err := io.CopyN(file, r, 11*1024*1024) if err != nil { logError(testName, function, args, startTime, "", "Copy failed", err) return } if n != int64(11*1024*1024) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(int64(11*1024*1024))+" got "+string(n), err) return } // Close the file pro-actively for windows. err = file.Close() if err != nil { logError(testName, function, args, startTime, "", "File close failed", err) return } // Set base object name objectName := bucketName + "FPutObject" args["objectName"] = objectName args["fileName"] = file.Name() // Perform standard FPutObject with contentType provided (Expecting application/octet-stream) _, err = c.FPutObject(context.Background(), bucketName, objectName+"-standard", file.Name(), minio.PutObjectOptions{ContentType: "application/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } // Perform FPutObject with no contentType provided (Expecting application/octet-stream) args["objectName"] = objectName + "-Octet" args["contentType"] = "" _, err = c.FPutObject(context.Background(), bucketName, objectName+"-Octet", file.Name(), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } // Add extension to temp file name fileName := file.Name() err = os.Rename(fileName, fileName+".gtar") if err != nil { logError(testName, function, args, startTime, "", "Rename failed", err) return } // Perform FPutObject with no contentType provided (Expecting application/x-gtar) args["objectName"] = objectName + "-Octet" args["contentType"] = "" args["fileName"] = fileName + ".gtar" _, err = c.FPutObject(context.Background(), bucketName, objectName+"-GTar", fileName+".gtar", minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FPutObject failed", err) return } // Check headers and sizes rStandard, err := c.StatObject(context.Background(), bucketName, objectName+"-standard", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rStandard.Size != 11*1024*1024 { logError(testName, function, args, startTime, "", "Unexpected size", nil) return } if rStandard.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "Content-Type headers mismatched, expected: application/octet-stream , got "+rStandard.ContentType, err) return } rOctet, err := c.StatObject(context.Background(), bucketName, objectName+"-Octet", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rOctet.ContentType != "application/octet-stream" { logError(testName, function, args, startTime, "", "Content-Type headers mismatched, expected: application/octet-stream , got "+rOctet.ContentType, err) return } if rOctet.Size != 11*1024*1024 { logError(testName, function, args, startTime, "", "Unexpected size", nil) return } rGTar, err := c.StatObject(context.Background(), bucketName, objectName+"-GTar", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if rGTar.Size != 11*1024*1024 { logError(testName, function, args, startTime, "", "Unexpected size", nil) return } if rGTar.ContentType != "application/x-gtar" && rGTar.ContentType != "application/octet-stream" && rGTar.ContentType != "application/x-tar" { logError(testName, function, args, startTime, "", "Content-Type headers mismatched, expected: application/x-tar , got "+rGTar.ContentType, err) return } os.Remove(fileName + ".gtar") logSuccess(testName, function, args, startTime) } // Tests various bucket supported formats. func testMakeBucketRegionsV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "MakeBucket(bucketName, region)" args := map[string]interface{}{ "bucketName": "", "region": "eu-west-1", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket in 'eu-central-1'. if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "eu-west-1"}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } if err = cleanupBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed while removing bucket recursively", err) return } // Make a new bucket with '.' in its name, in 'us-west-2'. This // request is internally staged into a path style instead of // virtual host style. if err = c.MakeBucket(context.Background(), bucketName+".withperiod", minio.MakeBucketOptions{Region: "us-west-2"}); err != nil { args["bucketName"] = bucketName + ".withperiod" args["region"] = "us-west-2" logError(testName, function, args, startTime, "", "MakeBucket test with a bucket name with period, '.', failed", err) return } // Delete all objects and buckets if err = cleanupBucket(bucketName+".withperiod", c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed while removing bucket recursively", err) return } logSuccess(testName, function, args, startTime) } // Tests get object ReaderSeeker interface methods. func testGetObjectReadSeekFunctionalV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data. _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer r.Close() st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(int64(bufSize))+" got "+string(st.Size), err) return } offset := int64(2048) n, err := r.Seek(offset, 0) if err != nil { logError(testName, function, args, startTime, "", "Seek failed", err) return } if n != offset { logError(testName, function, args, startTime, "", "Number of seeked bytes does not match, expected "+string(offset)+" got "+string(n), err) return } n, err = r.Seek(0, 1) if err != nil { logError(testName, function, args, startTime, "", "Seek failed", err) return } if n != offset { logError(testName, function, args, startTime, "", "Number of seeked bytes does not match, expected "+string(offset)+" got "+string(n), err) return } _, err = r.Seek(offset, 2) if err == nil { logError(testName, function, args, startTime, "", "Seek on positive offset for whence '2' should error out", err) return } n, err = r.Seek(-offset, 2) if err != nil { logError(testName, function, args, startTime, "", "Seek failed", err) return } if n != st.Size-offset { logError(testName, function, args, startTime, "", "Number of seeked bytes does not match, expected "+string(st.Size-offset)+" got "+string(n), err) return } var buffer1 bytes.Buffer if _, err = io.CopyN(&buffer1, r, st.Size); err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "Copy failed", err) return } } if !bytes.Equal(buf[len(buf)-int(offset):], buffer1.Bytes()) { logError(testName, function, args, startTime, "", "Incorrect read bytes v/s original buffer", err) return } // Seek again and read again. n, err = r.Seek(offset-1, 0) if err != nil { logError(testName, function, args, startTime, "", "Seek failed", err) return } if n != (offset - 1) { logError(testName, function, args, startTime, "", "Number of seeked bytes does not match, expected "+string(offset-1)+" got "+string(n), err) return } var buffer2 bytes.Buffer if _, err = io.CopyN(&buffer2, r, st.Size); err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "Copy failed", err) return } } // Verify now lesser bytes. if !bytes.Equal(buf[2047:], buffer2.Bytes()) { logError(testName, function, args, startTime, "", "Incorrect read bytes v/s original buffer", err) return } logSuccess(testName, function, args, startTime) } // Tests get object ReaderAt interface methods. func testGetObjectReadAtFunctionalV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(bucketName, objectName)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName buf, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } // Save the data _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer r.Close() st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(bufSize)+" got "+string(st.Size), err) return } offset := int64(2048) // Read directly buf2 := make([]byte, 512) buf3 := make([]byte, 512) buf4 := make([]byte, 512) m, err := r.ReadAt(buf2, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf2) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf2))+" got "+string(m), err) return } if !bytes.Equal(buf2, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf3, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf3) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf3))+" got "+string(m), err) return } if !bytes.Equal(buf3, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } offset += 512 m, err = r.ReadAt(buf4, offset) if err != nil { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } if m != len(buf4) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf4))+" got "+string(m), err) return } if !bytes.Equal(buf4, buf[offset:offset+512]) { logError(testName, function, args, startTime, "", "Incorrect read between two ReadAt from same offset", err) return } buf5 := make([]byte, bufSize) // Read the whole object. m, err = r.ReadAt(buf5, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } if m != len(buf5) { logError(testName, function, args, startTime, "", "ReadAt read shorter bytes before reaching EOF, expected "+string(len(buf5))+" got "+string(m), err) return } if !bytes.Equal(buf, buf5) { logError(testName, function, args, startTime, "", "Incorrect data read in GetObject, than what was previously uploaded", err) return } buf6 := make([]byte, bufSize+1) // Read the whole object and beyond. _, err = r.ReadAt(buf6, 0) if err != nil { if err != io.EOF { logError(testName, function, args, startTime, "", "ReadAt failed", err) return } } logSuccess(testName, function, args, startTime) } // Tests copy object func testCopyObjectV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Make a new bucket in 'us-east-1' (destination bucket). err = c.MakeBucket(context.Background(), bucketName+"-copy", minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName+"-copy", c) // Generate 33K of data. bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } r, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Check the various fields of source object against destination object. objInfo, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } r.Close() // Copy Source src := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, MatchModifiedSince: time.Date(2014, time.April, 0, 0, 0, 0, 0, time.UTC), MatchETag: objInfo.ETag, } args["source"] = src // Set copy conditions. dst := minio.CopyDestOptions{ Bucket: bucketName + "-copy", Object: objectName + "-copy", } args["destination"] = dst // Perform the Copy _, err = c.CopyObject(context.Background(), dst, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } // Source object r, err = c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Destination object readerCopy, err := c.GetObject(context.Background(), bucketName+"-copy", objectName+"-copy", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } // Check the various fields of source object against destination object. objInfo, err = r.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } objInfoCopy, err := readerCopy.Stat() if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } if objInfo.Size != objInfoCopy.Size { logError(testName, function, args, startTime, "", "Number of bytes does not match, expected "+string(objInfoCopy.Size)+" got "+string(objInfo.Size), err) return } // Close all the readers. r.Close() readerCopy.Close() // CopyObject again but with wrong conditions src = minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, MatchUnmodifiedSince: time.Date(2014, time.April, 0, 0, 0, 0, 0, time.UTC), NoMatchETag: objInfo.ETag, } // Perform the Copy which should fail _, err = c.CopyObject(context.Background(), dst, src) if err == nil { logError(testName, function, args, startTime, "", "CopyObject did not fail for invalid conditions", err) return } logSuccess(testName, function, args, startTime) } func testComposeObjectErrorCasesWrapper(c *minio.Client) { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{} // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err := c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Test that more than 10K source objects cannot be // concatenated. srcArr := [10001]minio.CopySrcOptions{} srcSlice := srcArr[:] dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "object", } args["destination"] = dst // Just explain about srcArr in args["sourceList"] // to stop having 10,001 null headers logged args["sourceList"] = "source array of 10,001 elements" if _, err := c.ComposeObject(context.Background(), dst, srcSlice...); err == nil { logError(testName, function, args, startTime, "", "Expected error in ComposeObject", err) return } else if err.Error() != "There must be as least one and up to 10000 source objects." { logError(testName, function, args, startTime, "", "Got unexpected error", err) return } // Create a source with invalid offset spec and check that // error is returned: // 1. Create the source object. const badSrcSize = 5 * 1024 * 1024 buf := bytes.Repeat([]byte("1"), badSrcSize) _, err = c.PutObject(context.Background(), bucketName, "badObject", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // 2. Set invalid range spec on the object (going beyond // object size) badSrc := minio.CopySrcOptions{ Bucket: bucketName, Object: "badObject", MatchRange: true, Start: 1, End: badSrcSize, } // 3. ComposeObject call should fail. if _, err := c.ComposeObject(context.Background(), dst, badSrc); err == nil { logError(testName, function, args, startTime, "", "ComposeObject expected to fail", err) return } else if !strings.Contains(err.Error(), "has invalid segment-to-copy") { logError(testName, function, args, startTime, "", "Got invalid error", err) return } logSuccess(testName, function, args, startTime) } // Test expected error cases func testComposeObjectErrorCasesV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } testComposeObjectErrorCasesWrapper(c) } func testComposeMultipleSources(c *minio.Client) { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{ "destination": "", "sourceList": "", } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err := c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Upload a small source object const srcSize = 1024 * 1024 * 5 buf := bytes.Repeat([]byte("1"), srcSize) _, err = c.PutObject(context.Background(), bucketName, "srcObject", bytes.NewReader(buf), int64(srcSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // We will append 10 copies of the object. srcs := []minio.CopySrcOptions{} for i := 0; i < 10; i++ { srcs = append(srcs, minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObject", }) } // make the last part very small srcs[9].MatchRange = true args["sourceList"] = srcs dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject", } args["destination"] = dst ui, err := c.ComposeObject(context.Background(), dst, srcs...) if err != nil { logError(testName, function, args, startTime, "", "ComposeObject failed", err) return } if ui.Size != 9*srcSize+1 { logError(testName, function, args, startTime, "", "ComposeObject returned unexpected size", err) return } objProps, err := c.StatObject(context.Background(), bucketName, "dstObject", minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if objProps.Size != 9*srcSize+1 { logError(testName, function, args, startTime, "", "Size mismatched! Expected "+string(10000*srcSize)+" got "+string(objProps.Size), err) return } logSuccess(testName, function, args, startTime) } // Test concatenating multiple 10K objects V2 func testCompose10KSourcesV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } testComposeMultipleSources(c) } func testEncryptedEmptyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, objectSize, opts)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) sse := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"object")) // 1. create an sse-c encrypted object to copy by uploading const srcSize = 0 var buf []byte // Empty buffer args["objectName"] = "object" _, err = c.PutObject(context.Background(), bucketName, "object", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ServerSideEncryption: sse}) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } // 2. Test CopyObject for an empty object src := minio.CopySrcOptions{ Bucket: bucketName, Object: "object", Encryption: sse, } dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "new-object", Encryption: sse, } if _, err = c.CopyObject(context.Background(), dst, src); err != nil { function = "CopyObject(dst, src)" logError(testName, function, map[string]interface{}{}, startTime, "", "CopyObject failed", err) return } // 3. Test Key rotation newSSE := encrypt.DefaultPBKDF([]byte("Don't Panic"), []byte(bucketName+"new-object")) src = minio.CopySrcOptions{ Bucket: bucketName, Object: "new-object", Encryption: sse, } dst = minio.CopyDestOptions{ Bucket: bucketName, Object: "new-object", Encryption: newSSE, } if _, err = c.CopyObject(context.Background(), dst, src); err != nil { function = "CopyObject(dst, src)" logError(testName, function, map[string]interface{}{}, startTime, "", "CopyObject with key rotation failed", err) return } // 4. Download the object. reader, err := c.GetObject(context.Background(), bucketName, "new-object", minio.GetObjectOptions{ServerSideEncryption: newSSE}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer reader.Close() decBytes, err := io.ReadAll(reader) if err != nil { logError(testName, function, map[string]interface{}{}, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(decBytes, buf) { logError(testName, function, map[string]interface{}{}, startTime, "", "Downloaded object doesn't match the empty encrypted object", err) return } delete(args, "objectName") logSuccess(testName, function, args, startTime) } func testEncryptedCopyObjectWrapper(c *minio.Client, bucketName string, sseSrc, sseDst encrypt.ServerSide) { // initialize logging params startTime := time.Now() testName := getFuncNameLoc(2) function := "CopyObject(destination, source)" args := map[string]interface{}{} var srcEncryption, dstEncryption encrypt.ServerSide // Make a new bucket in 'us-east-1' (source bucket). err := c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // 1. create an sse-c encrypted object to copy by uploading const srcSize = 1024 * 1024 buf := bytes.Repeat([]byte("abcde"), srcSize) // gives a buffer of 5MiB _, err = c.PutObject(context.Background(), bucketName, "srcObject", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ ServerSideEncryption: sseSrc, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } if sseSrc != nil && sseSrc.Type() != encrypt.S3 { srcEncryption = sseSrc } // 2. copy object and change encryption key src := minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObject", Encryption: srcEncryption, } args["source"] = src dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject", Encryption: sseDst, } args["destination"] = dst _, err = c.CopyObject(context.Background(), dst, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } if sseDst != nil && sseDst.Type() != encrypt.S3 { dstEncryption = sseDst } // 3. get copied object and check if content is equal coreClient := minio.Core{c} reader, _, _, err := coreClient.GetObject(context.Background(), bucketName, "dstObject", minio.GetObjectOptions{ServerSideEncryption: dstEncryption}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } decBytes, err := io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(decBytes, buf) { logError(testName, function, args, startTime, "", "Downloaded object mismatched for encrypted object", err) return } reader.Close() // Test key rotation for source object in-place. var newSSE encrypt.ServerSide if sseSrc != nil && sseSrc.Type() == encrypt.SSEC { newSSE = encrypt.DefaultPBKDF([]byte("Don't Panic"), []byte(bucketName+"srcObject")) // replace key } if sseSrc != nil && sseSrc.Type() == encrypt.S3 { newSSE = encrypt.NewSSE() } if newSSE != nil { dst = minio.CopyDestOptions{ Bucket: bucketName, Object: "srcObject", Encryption: newSSE, } args["destination"] = dst _, err = c.CopyObject(context.Background(), dst, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } // Get copied object and check if content is equal reader, _, _, err = coreClient.GetObject(context.Background(), bucketName, "srcObject", minio.GetObjectOptions{ServerSideEncryption: newSSE}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } decBytes, err = io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(decBytes, buf) { logError(testName, function, args, startTime, "", "Downloaded object mismatched for encrypted object", err) return } reader.Close() // Test in-place decryption. dst = minio.CopyDestOptions{ Bucket: bucketName, Object: "srcObject", } args["destination"] = dst src = minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObject", Encryption: newSSE, } args["source"] = src _, err = c.CopyObject(context.Background(), dst, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject Key rotation failed", err) return } } // Get copied decrypted object and check if content is equal reader, _, _, err = coreClient.GetObject(context.Background(), bucketName, "srcObject", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } defer reader.Close() decBytes, err = io.ReadAll(reader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(decBytes, buf) { logError(testName, function, args, startTime, "", "Downloaded object mismatched for encrypted object", err) return } logSuccess(testName, function, args, startTime) } // Test encrypted copy object func testUnencryptedToSSECCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseDst := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"dstObject")) // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, nil, sseDst) } // Test encrypted copy object func testUnencryptedToSSES3CopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") var sseSrc encrypt.ServerSide sseDst := encrypt.NewSSE() // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testUnencryptedToUnencryptedCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") var sseSrc, sseDst encrypt.ServerSide // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSECToSSECCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"srcObject")) sseDst := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"dstObject")) // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSECToSSES3CopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"srcObject")) sseDst := encrypt.NewSSE() // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSECToUnencryptedCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"srcObject")) var sseDst encrypt.ServerSide // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSES3ToSSECCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.NewSSE() sseDst := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"dstObject")) // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSES3ToSSES3CopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.NewSSE() sseDst := encrypt.NewSSE() // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedSSES3ToUnencryptedCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.NewSSE() var sseDst encrypt.ServerSide // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } // Test encrypted copy object func testEncryptedCopyObjectV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") sseSrc := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"srcObject")) sseDst := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+"dstObject")) // c.TraceOn(os.Stderr) testEncryptedCopyObjectWrapper(c, bucketName, sseSrc, sseDst) } func testDecryptedCopyObject() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v2 client object creation failed", err) return } bucketName, objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-"), "object" if err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}); err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) encryption := encrypt.DefaultPBKDF([]byte("correct horse battery staple"), []byte(bucketName+objectName)) _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(bytes.Repeat([]byte("a"), 1024*1024)), 1024*1024, minio.PutObjectOptions{ ServerSideEncryption: encryption, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } src := minio.CopySrcOptions{ Bucket: bucketName, Object: objectName, Encryption: encrypt.SSECopy(encryption), } args["source"] = src dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "decrypted-" + objectName, } args["destination"] = dst if _, err = c.CopyObject(context.Background(), dst, src); err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } if _, err = c.GetObject(context.Background(), bucketName, "decrypted-"+objectName, minio.GetObjectOptions{}); err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } logSuccess(testName, function, args, startTime) } func testSSECMultipartEncryptedToSSECCopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 6MB of data buf := bytes.Repeat([]byte("abcdef"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" srcencryption := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) // Upload a 6MB object using multipart mechanism uploadID, err := c.NewMultipartUpload(context.Background(), bucketName, objectName, minio.PutObjectOptions{ServerSideEncryption: srcencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } var completeParts []minio.CompletePart part, err := c.PutObjectPart(context.Background(), bucketName, objectName, uploadID, 1, bytes.NewReader(buf[:5*1024*1024]), 5*1024*1024, minio.PutObjectPartOptions{SSE: srcencryption}, ) if err != nil { logError(testName, function, args, startTime, "", "PutObjectPart call failed", err) return } completeParts = append(completeParts, minio.CompletePart{PartNumber: part.PartNumber, ETag: part.ETag}) part, err = c.PutObjectPart(context.Background(), bucketName, objectName, uploadID, 2, bytes.NewReader(buf[5*1024*1024:]), 1024*1024, minio.PutObjectPartOptions{SSE: srcencryption}, ) if err != nil { logError(testName, function, args, startTime, "", "PutObjectPart call failed", err) return } completeParts = append(completeParts, minio.CompletePart{PartNumber: part.PartNumber, ETag: part.ETag}) // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), bucketName, objectName, uploadID, completeParts, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.DefaultPBKDF([]byte(password), []byte(destBucketName+destObjectName)) uploadID, err = c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) encrypt.SSECopy(srcencryption).Marshal(header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = objInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err = c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (6*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{ServerSideEncryption: dstencryption} getOpts.SetRange(0, 6*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 6*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 6MB", err) return } getOpts.SetRange(6*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 6*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:6*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 6MB", err) return } if getBuf[6*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation func testSSECEncryptedToSSECCopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" srcencryption := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) putmetadata := map[string]string{ "Content-Type": "binary/octet-stream", } opts := minio.PutObjectOptions{ UserMetadata: putmetadata, ServerSideEncryption: srcencryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.DefaultPBKDF([]byte(password), []byte(destBucketName+destObjectName)) uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) encrypt.SSECopy(srcencryption).Marshal(header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{ServerSideEncryption: dstencryption} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for SSEC encrypted to unencrypted copy func testSSECEncryptedToUnencryptedCopyPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" srcencryption := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) opts := minio.PutObjectOptions{ UserMetadata: map[string]string{ "Content-Type": "binary/octet-stream", }, ServerSideEncryption: srcencryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" var dstencryption encrypt.ServerSide uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) encrypt.SSECopy(srcencryption).Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for SSEC encrypted to SSE-S3 encrypted copy func testSSECEncryptedToSSES3CopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" srcencryption := encrypt.DefaultPBKDF([]byte(password), []byte(bucketName+objectName)) putmetadata := map[string]string{ "Content-Type": "binary/octet-stream", } opts := minio.PutObjectOptions{ UserMetadata: putmetadata, ServerSideEncryption: srcencryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.NewSSE() uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) encrypt.SSECopy(srcencryption).Marshal(header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for unencrypted to SSEC encryption copy part func testUnencryptedToSSECCopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" putmetadata := map[string]string{ "Content-Type": "binary/octet-stream", } opts := minio.PutObjectOptions{ UserMetadata: putmetadata, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.DefaultPBKDF([]byte(password), []byte(destBucketName+destObjectName)) uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{ServerSideEncryption: dstencryption} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for unencrypted to unencrypted copy func testUnencryptedToUnencryptedCopyPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") putmetadata := map[string]string{ "Content-Type": "binary/octet-stream", } opts := minio.PutObjectOptions{ UserMetadata: putmetadata, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for unencrypted to SSE-S3 encrypted copy func testUnencryptedToSSES3CopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") opts := minio.PutObjectOptions{ UserMetadata: map[string]string{ "Content-Type": "binary/octet-stream", }, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.NewSSE() uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for SSE-S3 to SSEC encryption copy part func testSSES3EncryptedToSSECCopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") password := "correct horse battery staple" srcEncryption := encrypt.NewSSE() opts := minio.PutObjectOptions{ UserMetadata: map[string]string{ "Content-Type": "binary/octet-stream", }, ServerSideEncryption: srcEncryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcEncryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.DefaultPBKDF([]byte(password), []byte(destBucketName+destObjectName)) uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{ServerSideEncryption: dstencryption} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for unencrypted to unencrypted copy func testSSES3EncryptedToUnencryptedCopyPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") srcEncryption := encrypt.NewSSE() opts := minio.PutObjectOptions{ UserMetadata: map[string]string{ "Content-Type": "binary/octet-stream", }, ServerSideEncryption: srcEncryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcEncryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } // Test Core CopyObjectPart implementation for unencrypted to SSE-S3 encrypted copy func testSSES3EncryptedToSSES3CopyObjectPart() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObjectPart(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object client, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Instantiate new core client object. c := minio.Core{client} // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, client) // Make a buffer with 5MB of data buf := bytes.Repeat([]byte("abcde"), 1024*1024) // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") srcEncryption := encrypt.NewSSE() opts := minio.PutObjectOptions{ UserMetadata: map[string]string{ "Content-Type": "binary/octet-stream", }, ServerSideEncryption: srcEncryption, } uploadInfo, err := c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), "", "", opts) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{ServerSideEncryption: srcEncryption}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", fmt.Sprintf("Error: number of bytes does not match, want %v, got %v\n", len(buf), st.Size), err) return } destBucketName := bucketName destObjectName := objectName + "-dest" dstencryption := encrypt.NewSSE() uploadID, err := c.NewMultipartUpload(context.Background(), destBucketName, destObjectName, minio.PutObjectOptions{ServerSideEncryption: dstencryption}) if err != nil { logError(testName, function, args, startTime, "", "NewMultipartUpload call failed", err) return } // Content of the destination object will be two copies of // `objectName` concatenated, followed by first byte of // `objectName`. metadata := make(map[string]string) header := make(http.Header) dstencryption.Marshal(header) for k, v := range header { metadata[k] = v[0] } metadata["x-amz-copy-source-if-match"] = uploadInfo.ETag // First of three parts fstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 1, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Second of three parts sndPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 2, 0, -1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Last of three parts lstPart, err := c.CopyObjectPart(context.Background(), bucketName, objectName, destBucketName, destObjectName, uploadID, 3, 0, 1, metadata) if err != nil { logError(testName, function, args, startTime, "", "CopyObjectPart call failed", err) return } // Complete the multipart upload _, err = c.CompleteMultipartUpload(context.Background(), destBucketName, destObjectName, uploadID, []minio.CompletePart{fstPart, sndPart, lstPart}, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "CompleteMultipartUpload call failed", err) return } // Stat the object and check its length matches objInfo, err := c.StatObject(context.Background(), destBucketName, destObjectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject call failed", err) return } if objInfo.Size != (5*1024*1024)*2+1 { logError(testName, function, args, startTime, "", "Destination object has incorrect size!", err) return } // Now we read the data back getOpts := minio.GetObjectOptions{} getOpts.SetRange(0, 5*1024*1024-1) r, _, _, err := c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf := make([]byte, 5*1024*1024) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf, buf) { logError(testName, function, args, startTime, "", "Got unexpected data in first 5MB", err) return } getOpts.SetRange(5*1024*1024, 0) r, _, _, err = c.GetObject(context.Background(), destBucketName, destObjectName, getOpts) if err != nil { logError(testName, function, args, startTime, "", "GetObject call failed", err) return } getBuf = make([]byte, 5*1024*1024+1) _, err = readFull(r, getBuf) if err != nil { logError(testName, function, args, startTime, "", "Read buffer failed", err) return } if !bytes.Equal(getBuf[:5*1024*1024], buf) { logError(testName, function, args, startTime, "", "Got unexpected data in second 5MB", err) return } if getBuf[5*1024*1024] != buf[0] { logError(testName, function, args, startTime, "", "Got unexpected data in last byte of copied object!", err) return } logSuccess(testName, function, args, startTime) // Do not need to remove destBucketName its same as bucketName. } func testUserMetadataCopying() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // c.TraceOn(os.Stderr) testUserMetadataCopyingWrapper(c) } func testUserMetadataCopyingWrapper(c *minio.Client) { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") // Make a new bucket in 'us-east-1' (source bucket). err := c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) fetchMeta := func(object string) (h http.Header) { objInfo, err := c.StatObject(context.Background(), bucketName, object, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } h = make(http.Header) for k, vs := range objInfo.Metadata { if strings.HasPrefix(strings.ToLower(k), "x-amz-meta-") { h.Add(k, vs[0]) } } return h } // 1. create a client encrypted object to copy by uploading const srcSize = 1024 * 1024 buf := bytes.Repeat([]byte("abcde"), srcSize) // gives a buffer of 5MiB metadata := make(http.Header) metadata.Set("x-amz-meta-myheader", "myvalue") m := make(map[string]string) m["x-amz-meta-myheader"] = "myvalue" _, err = c.PutObject(context.Background(), bucketName, "srcObject", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{UserMetadata: m}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectWithMetadata failed", err) return } if !reflect.DeepEqual(metadata, fetchMeta("srcObject")) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } // 2. create source src := minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObject", } // 2.1 create destination with metadata set dst1 := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject-1", UserMetadata: map[string]string{"notmyheader": "notmyvalue"}, ReplaceMetadata: true, } // 3. Check that copying to an object with metadata set resets // the headers on the copy. args["source"] = src args["destination"] = dst1 _, err = c.CopyObject(context.Background(), dst1, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } expectedHeaders := make(http.Header) expectedHeaders.Set("x-amz-meta-notmyheader", "notmyvalue") if !reflect.DeepEqual(expectedHeaders, fetchMeta("dstObject-1")) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } // 4. create destination with no metadata set and same source dst2 := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject-2", } // 5. Check that copying to an object with no metadata set, // copies metadata. args["source"] = src args["destination"] = dst2 _, err = c.CopyObject(context.Background(), dst2, src) if err != nil { logError(testName, function, args, startTime, "", "CopyObject failed", err) return } expectedHeaders = metadata if !reflect.DeepEqual(expectedHeaders, fetchMeta("dstObject-2")) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } // 6. Compose a pair of sources. dst3 := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject-3", ReplaceMetadata: true, } function = "ComposeObject(destination, sources)" args["source"] = []minio.CopySrcOptions{src, src} args["destination"] = dst3 _, err = c.ComposeObject(context.Background(), dst3, src, src) if err != nil { logError(testName, function, args, startTime, "", "ComposeObject failed", err) return } // Check that no headers are copied in this case if !reflect.DeepEqual(make(http.Header), fetchMeta("dstObject-3")) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } // 7. Compose a pair of sources with dest user metadata set. dst4 := minio.CopyDestOptions{ Bucket: bucketName, Object: "dstObject-4", UserMetadata: map[string]string{"notmyheader": "notmyvalue"}, ReplaceMetadata: true, } function = "ComposeObject(destination, sources)" args["source"] = []minio.CopySrcOptions{src, src} args["destination"] = dst4 _, err = c.ComposeObject(context.Background(), dst4, src, src) if err != nil { logError(testName, function, args, startTime, "", "ComposeObject failed", err) return } // Check that no headers are copied in this case expectedHeaders = make(http.Header) expectedHeaders.Set("x-amz-meta-notmyheader", "notmyvalue") if !reflect.DeepEqual(expectedHeaders, fetchMeta("dstObject-4")) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } logSuccess(testName, function, args, startTime) } func testUserMetadataCopyingV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "CopyObject(destination, source)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // c.TraceOn(os.Stderr) testUserMetadataCopyingWrapper(c) } func testStorageClassMetadataPutObject() { // initialize logging params startTime := time.Now() function := "testStorageClassMetadataPutObject()" args := map[string]interface{}{} testName := getFuncName() // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) fetchMeta := func(object string) (h http.Header) { objInfo, err := c.StatObject(context.Background(), bucketName, object, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } h = make(http.Header) for k, vs := range objInfo.Metadata { if strings.HasPrefix(strings.ToLower(k), "x-amz-storage-class") { for _, v := range vs { h.Add(k, v) } } } return h } metadata := make(http.Header) metadata.Set("x-amz-storage-class", "REDUCED_REDUNDANCY") emptyMetadata := make(http.Header) const srcSize = 1024 * 1024 buf := bytes.Repeat([]byte("abcde"), srcSize) // gives a buffer of 1MiB _, err = c.PutObject(context.Background(), bucketName, "srcObjectRRSClass", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{StorageClass: "REDUCED_REDUNDANCY"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Get the returned metadata returnedMeta := fetchMeta("srcObjectRRSClass") // The response metada should either be equal to metadata (with REDUCED_REDUNDANCY) or emptyMetadata (in case of gateways) if !reflect.DeepEqual(metadata, returnedMeta) && !reflect.DeepEqual(emptyMetadata, returnedMeta) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } metadata = make(http.Header) metadata.Set("x-amz-storage-class", "STANDARD") _, err = c.PutObject(context.Background(), bucketName, "srcObjectSSClass", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{StorageClass: "STANDARD"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } if reflect.DeepEqual(metadata, fetchMeta("srcObjectSSClass")) { logError(testName, function, args, startTime, "", "Metadata verification failed, STANDARD storage class should not be a part of response metadata", err) return } logSuccess(testName, function, args, startTime) } func testStorageClassInvalidMetadataPutObject() { // initialize logging params startTime := time.Now() function := "testStorageClassInvalidMetadataPutObject()" args := map[string]interface{}{} testName := getFuncName() // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) const srcSize = 1024 * 1024 buf := bytes.Repeat([]byte("abcde"), srcSize) // gives a buffer of 1MiB _, err = c.PutObject(context.Background(), bucketName, "srcObjectRRSClass", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{StorageClass: "INVALID_STORAGE_CLASS"}) if err == nil { logError(testName, function, args, startTime, "", "PutObject with invalid storage class passed, was expected to fail", err) return } logSuccess(testName, function, args, startTime) } func testStorageClassMetadataCopyObject() { // initialize logging params startTime := time.Now() function := "testStorageClassMetadataCopyObject()" args := map[string]interface{}{} testName := getFuncName() // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Secure: mustParseBool(os.Getenv(enableHTTPS)), Transport: createHTTPTransport(), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO v4 client object creation failed", err) return } // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test") // Make a new bucket in 'us-east-1' (source bucket). err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) fetchMeta := func(object string) (h http.Header) { objInfo, err := c.StatObject(context.Background(), bucketName, object, minio.StatObjectOptions{}) args["bucket"] = bucketName args["object"] = object if err != nil { logError(testName, function, args, startTime, "", "Stat failed", err) return } h = make(http.Header) for k, vs := range objInfo.Metadata { if strings.HasPrefix(strings.ToLower(k), "x-amz-storage-class") { for _, v := range vs { h.Add(k, v) } } } return h } metadata := make(http.Header) metadata.Set("x-amz-storage-class", "REDUCED_REDUNDANCY") emptyMetadata := make(http.Header) const srcSize = 1024 * 1024 buf := bytes.Repeat([]byte("abcde"), srcSize) // Put an object with RRS Storage class _, err = c.PutObject(context.Background(), bucketName, "srcObjectRRSClass", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{StorageClass: "REDUCED_REDUNDANCY"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Make server side copy of object uploaded in previous step src := minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObjectRRSClass", } dst := minio.CopyDestOptions{ Bucket: bucketName, Object: "srcObjectRRSClassCopy", } if _, err = c.CopyObject(context.Background(), dst, src); err != nil { logError(testName, function, args, startTime, "", "CopyObject failed on RRS", err) return } // Get the returned metadata returnedMeta := fetchMeta("srcObjectRRSClassCopy") // The response metada should either be equal to metadata (with REDUCED_REDUNDANCY) or emptyMetadata (in case of gateways) if !reflect.DeepEqual(metadata, returnedMeta) && !reflect.DeepEqual(emptyMetadata, returnedMeta) { logError(testName, function, args, startTime, "", "Metadata match failed", err) return } metadata = make(http.Header) metadata.Set("x-amz-storage-class", "STANDARD") // Put an object with Standard Storage class _, err = c.PutObject(context.Background(), bucketName, "srcObjectSSClass", bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{StorageClass: "STANDARD"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Make server side copy of object uploaded in previous step src = minio.CopySrcOptions{ Bucket: bucketName, Object: "srcObjectSSClass", } dst = minio.CopyDestOptions{ Bucket: bucketName, Object: "srcObjectSSClassCopy", } if _, err = c.CopyObject(context.Background(), dst, src); err != nil { logError(testName, function, args, startTime, "", "CopyObject failed on SS", err) return } // Fetch the meta data of copied object if reflect.DeepEqual(metadata, fetchMeta("srcObjectSSClassCopy")) { logError(testName, function, args, startTime, "", "Metadata verification failed, STANDARD storage class should not be a part of response metadata", err) return } logSuccess(testName, function, args, startTime) } // Test put object with size -1 byte object. func testPutObjectNoLengthV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "size": -1, "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) objectName := bucketName + "unique" args["objectName"] = objectName bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() args["size"] = bufSize // Upload an object. _, err = c.PutObject(context.Background(), bucketName, objectName, reader, -1, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectWithSize failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Expected upload object size "+string(bufSize)+" got "+string(st.Size), err) return } logSuccess(testName, function, args, startTime) } // Test put objects of unknown size. func testPutObjectsUnknownV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader,size,opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "size": "", "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Issues are revealed by trying to upload multiple files of unknown size // sequentially (on 4GB machines) for i := 1; i <= 4; i++ { // Simulate that we could be receiving byte slices of data that we want // to upload as a file rpipe, wpipe := io.Pipe() defer rpipe.Close() go func() { b := []byte("test") wpipe.Write(b) wpipe.Close() }() // Upload the object. objectName := fmt.Sprintf("%sunique%d", bucketName, i) args["objectName"] = objectName ui, err := c.PutObject(context.Background(), bucketName, objectName, rpipe, -1, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectStreaming failed", err) return } if ui.Size != 4 { logError(testName, function, args, startTime, "", "Expected upload object size "+string(4)+" got "+string(ui.Size), nil) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObjectStreaming failed", err) return } if st.Size != int64(4) { logError(testName, function, args, startTime, "", "Expected upload object size "+string(4)+" got "+string(st.Size), err) return } } logSuccess(testName, function, args, startTime) } // Test put object with 0 byte object. func testPutObject0ByteV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(bucketName, objectName, reader, size, opts)" args := map[string]interface{}{ "bucketName": "", "objectName": "", "size": 0, "opts": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) objectName := bucketName + "unique" args["objectName"] = objectName args["opts"] = minio.PutObjectOptions{} // Upload an object. _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader([]byte("")), 0, minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObjectWithSize failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObjectWithSize failed", err) return } if st.Size != 0 { logError(testName, function, args, startTime, "", "Expected upload object size 0 but got "+string(st.Size), err) return } logSuccess(testName, function, args, startTime) } // Test expected error cases func testComposeObjectErrorCases() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } testComposeObjectErrorCasesWrapper(c) } // Test concatenating multiple 10K objects V4 func testCompose10KSources() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ComposeObject(destination, sourceList)" args := map[string]interface{}{} // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } testComposeMultipleSources(c) } // Tests comprehensive list of all methods. func testFunctionalV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "testFunctionalV2()" functionAll := "" args := map[string]interface{}{} // Seed random based on current time. rand.Seed(time.Now().Unix()) c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Secure: mustParseBool(os.Getenv(enableHTTPS)), Transport: createHTTPTransport(), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable to debug // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") location := "us-east-1" // Make a new bucket. function = "MakeBucket(bucketName, location)" functionAll = "MakeBucket(bucketName, location)" args = map[string]interface{}{ "bucketName": bucketName, "location": location, } err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: location}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Generate a random file name. fileName := randString(60, rand.NewSource(time.Now().UnixNano()), "") file, err := os.Create(fileName) if err != nil { logError(testName, function, args, startTime, "", "file create failed", err) return } for i := 0; i < 3; i++ { buf := make([]byte, rand.Intn(1<<19)) _, err = file.Write(buf) if err != nil { logError(testName, function, args, startTime, "", "file write failed", err) return } } file.Close() // Verify if bucket exits and you have access. var exists bool function = "BucketExists(bucketName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, } exists, err = c.BucketExists(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "BucketExists failed", err) return } if !exists { logError(testName, function, args, startTime, "", "Could not find existing bucket "+bucketName, err) return } // Make the bucket 'public read/write'. function = "SetBucketPolicy(bucketName, bucketPolicy)" functionAll += ", " + function readWritePolicy := `{"Version": "2012-10-17","Statement": [{"Action": ["s3:ListBucketMultipartUploads", "s3:ListBucket"],"Effect": "Allow","Principal": {"AWS": ["*"]},"Resource": ["arn:aws:s3:::` + bucketName + `"],"Sid": ""}]}` args = map[string]interface{}{ "bucketName": bucketName, "bucketPolicy": readWritePolicy, } err = c.SetBucketPolicy(context.Background(), bucketName, readWritePolicy) if err != nil { logError(testName, function, args, startTime, "", "SetBucketPolicy failed", err) return } // List all buckets. function = "ListBuckets()" functionAll += ", " + function args = nil buckets, err := c.ListBuckets(context.Background()) if len(buckets) == 0 { logError(testName, function, args, startTime, "", "List buckets cannot be empty", err) return } if err != nil { logError(testName, function, args, startTime, "", "ListBuckets failed", err) return } // Verify if previously created bucket is listed in list buckets. bucketFound := false for _, bucket := range buckets { if bucket.Name == bucketName { bucketFound = true } } // If bucket not found error out. if !bucketFound { logError(testName, function, args, startTime, "", "Bucket "+bucketName+"not found", err) return } objectName := bucketName + "unique" // Generate data buf := bytes.Repeat([]byte("n"), rand.Intn(1<<19)) args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "contentType": "", } _, err = c.PutObject(context.Background(), bucketName, objectName, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } st, err := c.StatObject(context.Background(), bucketName, objectName, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", "Expected uploaded object length "+string(len(buf))+" got "+string(st.Size), err) return } objectNameNoLength := objectName + "-nolength" args["objectName"] = objectNameNoLength _, err = c.PutObject(context.Background(), bucketName, objectNameNoLength, bytes.NewReader(buf), int64(len(buf)), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } st, err = c.StatObject(context.Background(), bucketName, objectNameNoLength, minio.StatObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "StatObject failed", err) return } if st.Size != int64(len(buf)) { logError(testName, function, args, startTime, "", "Expected uploaded object length "+string(len(buf))+" got "+string(st.Size), err) return } // Instantiate a done channel to close all listing. doneCh := make(chan struct{}) defer close(doneCh) objFound := false isRecursive := true // Recursive is true. function = "ListObjects(bucketName, objectName, isRecursive, doneCh)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "isRecursive": isRecursive, } for obj := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{UseV1: true, Prefix: objectName, Recursive: isRecursive}) { if obj.Key == objectName { objFound = true break } } if !objFound { logError(testName, function, args, startTime, "", "Could not find existing object "+objectName, err) return } incompObjNotFound := true function = "ListIncompleteUploads(bucketName, objectName, isRecursive, doneCh)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "isRecursive": isRecursive, } for objIncompl := range c.ListIncompleteUploads(context.Background(), bucketName, objectName, isRecursive) { if objIncompl.Key != "" { incompObjNotFound = false break } } if !incompObjNotFound { logError(testName, function, args, startTime, "", "Unexpected dangling incomplete upload found", err) return } function = "GetObject(bucketName, objectName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, } newReader, err := c.GetObject(context.Background(), bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } newReadBytes, err := io.ReadAll(newReader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } newReader.Close() if !bytes.Equal(newReadBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch", err) return } function = "FGetObject(bucketName, objectName, fileName)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "fileName": fileName + "-f", } err = c.FGetObject(context.Background(), bucketName, objectName, fileName+"-f", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FgetObject failed", err) return } // Generate presigned HEAD object url. function = "PresignedHeadObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "expires": 3600 * time.Second, } presignedHeadURL, err := c.PresignedHeadObject(context.Background(), bucketName, objectName, 3600*time.Second, nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject failed", err) return } httpClient := &http.Client{ // Setting a sensible time out of 30secs to wait for response // headers. Request is pro-actively canceled after 30secs // with no response. Timeout: 30 * time.Second, Transport: createHTTPTransport(), } req, err := http.NewRequest(http.MethodHead, presignedHeadURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject URL head request failed", err) return } // Verify if presigned url works. resp, err := httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedHeadObject URL head request failed", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedHeadObject URL returns status "+string(resp.StatusCode), err) return } if resp.Header.Get("ETag") == "" { logError(testName, function, args, startTime, "", "Got empty ETag", err) return } resp.Body.Close() // Generate presigned GET object url. function = "PresignedGetObject(bucketName, objectName, expires, reqParams)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName, "expires": 3600 * time.Second, } presignedGetURL, err := c.PresignedGetObject(context.Background(), bucketName, objectName, 3600*time.Second, nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject failed", err) return } // Verify if presigned url works. req, err = http.NewRequest(http.MethodGet, presignedGetURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject request incorrect", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedGetObject URL returns status "+string(resp.StatusCode), err) return } newPresignedBytes, err := io.ReadAll(resp.Body) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } resp.Body.Close() if !bytes.Equal(newPresignedBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch", err) return } // Set request parameters. reqParams := make(url.Values) reqParams.Set("response-content-disposition", "attachment; filename=\"test.txt\"") // Generate presigned GET object url. args["reqParams"] = reqParams presignedGetURL, err = c.PresignedGetObject(context.Background(), bucketName, objectName, 3600*time.Second, reqParams) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject failed", err) return } // Verify if presigned url works. req, err = http.NewRequest(http.MethodGet, presignedGetURL.String(), nil) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject request incorrect", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "PresignedGetObject response incorrect", err) return } if resp.StatusCode != http.StatusOK { logError(testName, function, args, startTime, "", "PresignedGetObject URL returns status "+string(resp.StatusCode), err) return } newPresignedBytes, err = io.ReadAll(resp.Body) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed", err) return } if !bytes.Equal(newPresignedBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch", err) return } // Verify content disposition. if resp.Header.Get("Content-Disposition") != "attachment; filename=\"test.txt\"" { logError(testName, function, args, startTime, "", "wrong Content-Disposition received ", err) return } function = "PresignedPutObject(bucketName, objectName, expires)" functionAll += ", " + function args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName + "-presigned", "expires": 3600 * time.Second, } presignedPutURL, err := c.PresignedPutObject(context.Background(), bucketName, objectName+"-presigned", 3600*time.Second) if err != nil { logError(testName, function, args, startTime, "", "PresignedPutObject failed", err) return } // Generate data more than 32K buf = bytes.Repeat([]byte("1"), rand.Intn(1<<10)+32*1024) req, err = http.NewRequest(http.MethodPut, presignedPutURL.String(), bytes.NewReader(buf)) if err != nil { logError(testName, function, args, startTime, "", "HTTP request to PresignedPutObject URL failed", err) return } resp, err = httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "HTTP request to PresignedPutObject URL failed", err) return } // Download the uploaded object to verify args = map[string]interface{}{ "bucketName": bucketName, "objectName": objectName + "-presigned", } newReader, err = c.GetObject(context.Background(), bucketName, objectName+"-presigned", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject of uploaded presigned object failed", err) return } newReadBytes, err = io.ReadAll(newReader) if err != nil { logError(testName, function, args, startTime, "", "ReadAll failed during get on presigned put object", err) return } newReader.Close() if !bytes.Equal(newReadBytes, buf) { logError(testName, function, args, startTime, "", "Bytes mismatch on presigned object upload verification", err) return } function = "PresignHeader(method, bucketName, objectName, expires, reqParams, extraHeaders)" functionAll += ", " + function presignExtraHeaders := map[string][]string{ "mysecret": {"abcxxx"}, } args = map[string]interface{}{ "method": "PUT", "bucketName": bucketName, "objectName": objectName + "-presign-custom", "expires": 3600 * time.Second, "extraHeaders": presignExtraHeaders, } _, err = c.PresignHeader(context.Background(), "PUT", bucketName, objectName+"-presign-custom", 3600*time.Second, nil, presignExtraHeaders) if err == nil { logError(testName, function, args, startTime, "", "Presigned with extra headers succeeded", err) return } os.Remove(fileName) os.Remove(fileName + "-f") logSuccess(testName, functionAll, args, startTime) } // Test get object with GetObject with context func testGetObjectContext() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(ctx, bucketName, objectName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx cancel() r, err := c.GetObject(ctx, bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed unexpectedly", err) return } if _, err = r.Stat(); err == nil { logError(testName, function, args, startTime, "", "GetObject should fail on short timeout", err) return } r.Close() ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) args["ctx"] = ctx defer cancel() // Read the data back r, err = c.GetObject(ctx, bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "object Stat call failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match: want "+string(bufSize)+", got"+string(st.Size), err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", "object Close() call failed", err) return } logSuccess(testName, function, args, startTime) } // Test get object with FGetObject with a user provided context func testFGetObjectContext() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FGetObject(ctx, bucketName, objectName, fileName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", "fileName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-1-MB"] reader := getDataReader("datafile-1-MB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx defer cancel() fileName := "tempfile-context" args["fileName"] = fileName // Read the data back err = c.FGetObject(ctx, bucketName, objectName, fileName+"-f", minio.GetObjectOptions{}) if err == nil { logError(testName, function, args, startTime, "", "FGetObject should fail on short timeout", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) defer cancel() // Read the data back err = c.FGetObject(ctx, bucketName, objectName, fileName+"-fcontext", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FGetObject with long timeout failed", err) return } if err = os.Remove(fileName + "-fcontext"); err != nil { logError(testName, function, args, startTime, "", "Remove file failed", err) return } logSuccess(testName, function, args, startTime) } // Test get object with GetObject with a user provided context func testGetObjectRanges() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(ctx, bucketName, objectName, fileName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", "fileName": "", } ctx, cancel := context.WithTimeout(context.Background(), 5*time.Minute) defer cancel() rng := rand.NewSource(time.Now().UnixNano()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rng, "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() // Save the data objectName := randString(60, rng, "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } // Read the data back tests := []struct { start int64 end int64 }{ { start: 1024, end: 1024 + 1<<20, }, { start: 20e6, end: 20e6 + 10000, }, { start: 40e6, end: 40e6 + 10000, }, { start: 60e6, end: 60e6 + 10000, }, { start: 80e6, end: 80e6 + 10000, }, { start: 120e6, end: int64(bufSize), }, } for _, test := range tests { wantRC := getDataReader("datafile-129-MB") io.CopyN(io.Discard, wantRC, test.start) want := mustCrcReader(io.LimitReader(wantRC, test.end-test.start+1)) opts := minio.GetObjectOptions{} opts.SetRange(test.start, test.end) args["opts"] = fmt.Sprintf("%+v", test) obj, err := c.GetObject(ctx, bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "FGetObject with long timeout failed", err) return } err = crcMatches(obj, want) if err != nil { logError(testName, function, args, startTime, "", fmt.Sprintf("GetObject offset %d -> %d", test.start, test.end), err) return } } logSuccess(testName, function, args, startTime) } // Test get object ACLs with GetObjectACL with custom provided context func testGetObjectACLContext() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObjectACL(ctx, bucketName, objectName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-1-MB"] reader := getDataReader("datafile-1-MB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Add meta data to add a canned acl metaData := map[string]string{ "X-Amz-Acl": "public-read-write", } _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ ContentType: "binary/octet-stream", UserMetadata: metaData, }) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) args["ctx"] = ctx defer cancel() // Read the data back objectInfo, getObjectACLErr := c.GetObjectACL(ctx, bucketName, objectName) if getObjectACLErr != nil { logError(testName, function, args, startTime, "", "GetObjectACL failed. ", getObjectACLErr) return } s, ok := objectInfo.Metadata["X-Amz-Acl"] if !ok { logError(testName, function, args, startTime, "", "GetObjectACL fail unable to find \"X-Amz-Acl\"", nil) return } if len(s) != 1 { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Acl\" canned acl expected \"1\" got "+fmt.Sprintf(`"%d"`, len(s)), nil) return } // Do a very limited testing if this is not AWS S3 if os.Getenv(serverEndpoint) != "s3.amazonaws.com" { if s[0] != "private" { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Acl\" expected \"private\" but got"+fmt.Sprintf("%q", s[0]), nil) return } logSuccess(testName, function, args, startTime) return } if s[0] != "public-read-write" { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Acl\" expected \"public-read-write\" but got"+fmt.Sprintf("%q", s[0]), nil) return } bufSize = dataFileMap["datafile-1-MB"] reader2 := getDataReader("datafile-1-MB") defer reader2.Close() // Save the data objectName = randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Add meta data to add a canned acl metaData = map[string]string{ "X-Amz-Grant-Read": "id=fooread@minio.go", "X-Amz-Grant-Write": "id=foowrite@minio.go", } _, err = c.PutObject(context.Background(), bucketName, objectName, reader2, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream", UserMetadata: metaData}) if err != nil { logError(testName, function, args, startTime, "", "PutObject failed", err) return } ctx, cancel = context.WithTimeout(context.Background(), 10*time.Second) args["ctx"] = ctx defer cancel() // Read the data back objectInfo, getObjectACLErr = c.GetObjectACL(ctx, bucketName, objectName) if getObjectACLErr == nil { logError(testName, function, args, startTime, "", "GetObjectACL fail", getObjectACLErr) return } if len(objectInfo.Metadata) != 3 { logError(testName, function, args, startTime, "", "GetObjectACL fail expected \"3\" ACLs but got "+fmt.Sprintf(`"%d"`, len(objectInfo.Metadata)), nil) return } s, ok = objectInfo.Metadata["X-Amz-Grant-Read"] if !ok { logError(testName, function, args, startTime, "", "GetObjectACL fail unable to find \"X-Amz-Grant-Read\"", nil) return } if len(s) != 1 { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Grant-Read\" acl expected \"1\" got "+fmt.Sprintf(`"%d"`, len(s)), nil) return } if s[0] != "fooread@minio.go" { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Grant-Read\" acl expected \"fooread@minio.go\" got "+fmt.Sprintf("%q", s), nil) return } s, ok = objectInfo.Metadata["X-Amz-Grant-Write"] if !ok { logError(testName, function, args, startTime, "", "GetObjectACL fail unable to find \"X-Amz-Grant-Write\"", nil) return } if len(s) != 1 { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Grant-Write\" acl expected \"1\" got "+fmt.Sprintf(`"%d"`, len(s)), nil) return } if s[0] != "foowrite@minio.go" { logError(testName, function, args, startTime, "", "GetObjectACL fail \"X-Amz-Grant-Write\" acl expected \"foowrite@minio.go\" got "+fmt.Sprintf("%q", s), nil) return } logSuccess(testName, function, args, startTime) } // Test validates putObject with context to see if request cancellation is honored for V2. func testPutObjectContextV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "PutObject(ctx, bucketName, objectName, reader, size, opts)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", "size": "", "opts": "", } // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Make a new bucket. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datatfile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() objectName := fmt.Sprintf("test-file-%v", rand.Uint32()) args["objectName"] = objectName ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second) args["ctx"] = ctx args["size"] = bufSize defer cancel() _, err = c.PutObject(ctx, bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject with short timeout failed", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) args["ctx"] = ctx defer cancel() reader = getDataReader("datafile-33-kB") defer reader.Close() _, err = c.PutObject(ctx, bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject with long timeout failed", err) return } logSuccess(testName, function, args, startTime) } // Test get object with GetObject with custom context func testGetObjectContextV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetObject(ctx, bucketName, objectName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx cancel() r, err := c.GetObject(ctx, bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject failed unexpectedly", err) return } if _, err = r.Stat(); err == nil { logError(testName, function, args, startTime, "", "GetObject should fail on short timeout", err) return } r.Close() ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) defer cancel() // Read the data back r, err = c.GetObject(ctx, bucketName, objectName, minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "GetObject shouldn't fail on longer timeout", err) return } st, err := r.Stat() if err != nil { logError(testName, function, args, startTime, "", "object Stat call failed", err) return } if st.Size != int64(bufSize) { logError(testName, function, args, startTime, "", "Number of bytes in stat does not match, expected "+string(bufSize)+" got "+string(st.Size), err) return } if err := r.Close(); err != nil { logError(testName, function, args, startTime, "", " object Close() call failed", err) return } logSuccess(testName, function, args, startTime) } // Test get object with FGetObject with custom context func testFGetObjectContextV2() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "FGetObject(ctx, bucketName, objectName,fileName)" args := map[string]interface{}{ "ctx": "", "bucketName": "", "objectName": "", "fileName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV2(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v2 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket call failed", err) return } defer cleanupBucket(bucketName, c) bufSize := dataFileMap["datatfile-1-MB"] reader := getDataReader("datafile-1-MB") defer reader.Close() // Save the data objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } ctx, cancel := context.WithTimeout(context.Background(), 1*time.Nanosecond) args["ctx"] = ctx defer cancel() fileName := "tempfile-context" args["fileName"] = fileName // Read the data back err = c.FGetObject(ctx, bucketName, objectName, fileName+"-f", minio.GetObjectOptions{}) if err == nil { logError(testName, function, args, startTime, "", "FGetObject should fail on short timeout", err) return } ctx, cancel = context.WithTimeout(context.Background(), 1*time.Hour) defer cancel() // Read the data back err = c.FGetObject(ctx, bucketName, objectName, fileName+"-fcontext", minio.GetObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "FGetObject call shouldn't fail on long timeout", err) return } if err = os.Remove(fileName + "-fcontext"); err != nil { logError(testName, function, args, startTime, "", "Remove file failed", err) return } logSuccess(testName, function, args, startTime) } // Test list object v1 and V2 func testListObjects() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "ListObjects(bucketName, objectPrefix, recursive, doneCh)" args := map[string]interface{}{ "bucketName": "", "objectPrefix": "", "recursive": "true", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) testObjects := []struct { name string storageClass string }{ // Special characters {"foo bar", "STANDARD"}, {"foo-%", "STANDARD"}, {"random-object-1", "STANDARD"}, {"random-object-2", "REDUCED_REDUNDANCY"}, } for i, object := range testObjects { bufSize := dataFileMap["datafile-33-kB"] reader := getDataReader("datafile-33-kB") defer reader.Close() _, err = c.PutObject(context.Background(), bucketName, object.name, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream", StorageClass: object.storageClass}) if err != nil { logError(testName, function, args, startTime, "", fmt.Sprintf("PutObject %d call failed", i+1), err) return } } testList := func(listFn func(context.Context, string, minio.ListObjectsOptions) <-chan minio.ObjectInfo, bucket string, opts minio.ListObjectsOptions) { var objCursor int // check for object name and storage-class from listing object result for objInfo := range listFn(context.Background(), bucket, opts) { if objInfo.Err != nil { logError(testName, function, args, startTime, "", "ListObjects failed unexpectedly", err) return } if objInfo.Key != testObjects[objCursor].name { logError(testName, function, args, startTime, "", "ListObjects does not return expected object name", err) return } if objInfo.StorageClass != testObjects[objCursor].storageClass { // Ignored as Gateways (Azure/GCS etc) wont return storage class logIgnored(testName, function, args, startTime, "ListObjects doesn't return expected storage class") } objCursor++ } if objCursor != len(testObjects) { logError(testName, function, args, startTime, "", "ListObjects returned unexpected number of items", errors.New("")) return } } testList(c.ListObjects, bucketName, minio.ListObjectsOptions{Recursive: true, UseV1: true}) testList(c.ListObjects, bucketName, minio.ListObjectsOptions{Recursive: true}) testList(c.ListObjects, bucketName, minio.ListObjectsOptions{Recursive: true, WithMetadata: true}) logSuccess(testName, function, args, startTime) } // testCors is runnable against S3 itself. // Just provide the env var MINIO_GO_TEST_BUCKET_CORS with bucket that is public and WILL BE DELETED. // Recreate this manually each time. Minio-go SDK does not support calling // SetPublicBucket (put-public-access-block) on S3, otherwise we could script the whole thing. func testCors() { ctx := context.Background() startTime := time.Now() testName := getFuncName() function := "SetBucketCors(bucketName, cors)" args := map[string]interface{}{ "bucketName": "", "cors": "", } // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Create or reuse a bucket that will get cors settings applied to it and deleted when done bucketName := os.Getenv("MINIO_GO_TEST_BUCKET_CORS") if bucketName == "" { bucketName = randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") err = c.MakeBucket(ctx, bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } } args["bucketName"] = bucketName defer cleanupBucket(bucketName, c) publicPolicy := `{"Version":"2012-10-17","Statement":[{"Effect":"Allow","Principal":{"AWS":["*"]},"Action":["s3:*"],"Resource":["arn:aws:s3:::` + bucketName + `", "arn:aws:s3:::` + bucketName + `/*"]}]}` err = c.SetBucketPolicy(ctx, bucketName, publicPolicy) if err != nil { logError(testName, function, args, startTime, "", "SetBucketPolicy failed", err) return } // Upload an object for testing. objectContents := `some-text-file-contents` reader := strings.NewReader(objectContents) bufSize := int64(len(objectContents)) objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName _, err = c.PutObject(ctx, bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{ContentType: "binary/octet-stream"}) if err != nil { logError(testName, function, args, startTime, "", "PutObject call failed", err) return } bucketURL := c.EndpointURL().String() + "/" + bucketName + "/" objectURL := bucketURL + objectName httpClient := &http.Client{ Timeout: 30 * time.Second, Transport: createHTTPTransport(), } errStrAccessForbidden := `AccessForbiddenCORSResponse: This CORS request is not allowed. This is usually because the evalution of Origin, request method / Access-Control-Request-Method or Access-Control-Request-Headers are not whitelisted` testCases := []struct { name string // Cors rules to apply applyCorsRules []cors.Rule // Outbound request info method string url string headers map[string]string // Wanted response wantStatus int wantHeaders map[string]string wantBodyContains string }{ { name: "apply bucket rules", applyCorsRules: []cors.Rule{ { AllowedOrigin: []string{"https"}, // S3 documents 'https' origin, but it does not actually work, see test below. AllowedMethod: []string{"PUT"}, AllowedHeader: []string{"*"}, }, { AllowedOrigin: []string{"http://www.example1.com"}, AllowedMethod: []string{"PUT"}, AllowedHeader: []string{"*"}, ExposeHeader: []string{"x-amz-server-side-encryption", "x-amz-request-id"}, MaxAgeSeconds: 3600, }, { AllowedOrigin: []string{"http://www.example2.com"}, AllowedMethod: []string{"POST"}, AllowedHeader: []string{"X-My-Special-Header"}, ExposeHeader: []string{"X-AMZ-Request-ID"}, }, { AllowedOrigin: []string{"http://www.example3.com"}, AllowedMethod: []string{"PUT"}, AllowedHeader: []string{"X-Example-3-Special-Header"}, MaxAgeSeconds: 10, }, { AllowedOrigin: []string{"*"}, AllowedMethod: []string{"GET"}, AllowedHeader: []string{"*"}, ExposeHeader: []string{"x-amz-request-id", "X-AMZ-server-side-encryption"}, MaxAgeSeconds: 3600, }, { AllowedOrigin: []string{"http://multiplemethodstest.com"}, AllowedMethod: []string{"POST", "PUT", "DELETE"}, AllowedHeader: []string{"x-abc-*", "x-def-*"}, }, { AllowedOrigin: []string{"http://UPPERCASEEXAMPLE.com"}, AllowedMethod: []string{"DELETE"}, }, { AllowedOrigin: []string{"https://*"}, AllowedMethod: []string{"DELETE"}, AllowedHeader: []string{"x-abc-*", "x-def-*"}, }, }, }, { name: "preflight to object url matches example1 rule", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "PUT", "Access-Control-Request-Headers": "x-another-header,x-could-be-anything", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Methods": "PUT", "Access-Control-Allow-Headers": "x-another-header,x-could-be-anything", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "3600", "Content-Length": "0", // S3 additionally sets the following headers here, MinIO follows fetch spec and does not: // "Access-Control-Expose-Headers": "", }, }, { name: "preflight to bucket url matches example1 rule", method: http.MethodOptions, url: bucketURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "PUT", "Access-Control-Request-Headers": "x-another-header,x-could-be-anything", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Methods": "PUT", "Access-Control-Allow-Headers": "x-another-header,x-could-be-anything", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "3600", "Content-Length": "0", }, }, { name: "preflight matches example2 rule with header given", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example2.com", "Access-Control-Request-Method": "POST", "Access-Control-Request-Headers": "X-My-Special-Header", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example2.com", "Access-Control-Allow-Methods": "POST", "Access-Control-Allow-Headers": "x-my-special-header", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "", "Content-Length": "0", }, }, { name: "preflight matches example2 rule with no header given", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example2.com", "Access-Control-Request-Method": "POST", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example2.com", "Access-Control-Allow-Methods": "POST", "Access-Control-Allow-Headers": "", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "", "Content-Length": "0", }, }, { name: "preflight matches wildcard origin rule", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.couldbeanything.com", "Access-Control-Request-Method": "GET", "Access-Control-Request-Headers": "x-custom-header,x-other-custom-header", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "*", "Access-Control-Allow-Methods": "GET", "Access-Control-Allow-Headers": "x-custom-header,x-other-custom-header", "Access-Control-Allow-Credentials": "", "Access-Control-Max-Age": "3600", "Content-Length": "0", }, }, { name: "preflight does not match any rule", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.couldbeanything.com", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "preflight does not match example1 rule because of method", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "POST", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "s3 processes cors rules even when request is not preflight if cors headers present test get", method: http.MethodGet, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Headers": "x-another-header,x-could-be-anything", "Access-Control-Request-Method": "PUT", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Expose-Headers": "x-amz-server-side-encryption,x-amz-request-id", // S3 additionally sets the following headers here, MinIO follows fetch spec and does not: // "Access-Control-Allow-Headers": "x-another-header,x-could-be-anything", // "Access-Control-Allow-Methods": "PUT", // "Access-Control-Max-Age": "3600", }, }, { name: "s3 processes cors rules even when request is not preflight if cors headers present test put", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "GET", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Origin": "*", "Access-Control-Expose-Headers": "x-amz-request-id,x-amz-server-side-encryption", // S3 additionally sets the following headers here, MinIO follows fetch spec and does not: // "Access-Control-Allow-Headers": "x-another-header,x-could-be-anything", // "Access-Control-Allow-Methods": "PUT", // "Access-Control-Max-Age": "3600", }, }, { name: "s3 processes cors rules even when request is not preflight but there is no rule match", method: http.MethodGet, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Headers": "x-another-header,x-could-be-anything", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Allow-Credentials": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "get request matches wildcard origin rule and returns cors headers", method: http.MethodGet, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Origin": "*", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "x-amz-request-id,X-AMZ-server-side-encryption", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Max-Age": "3600", // "Access-Control-Allow-Methods": "GET", }, }, { name: "head request does not match rule and returns no cors headers", method: http.MethodHead, url: objectURL, headers: map[string]string{ "Origin": "http://www.nomatchingdomainfound.com", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "put request with origin does not match rule and returns no cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.nomatchingdomainfound.com", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "put request with no origin does not match rule and returns no cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{}, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "preflight for delete request with wildcard origin does not match", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.notsecureexample.com", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "preflight for delete request with wildcard https origin matches secureexample", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "https://www.secureexample.com", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Methods": "DELETE", "Access-Control-Allow-Origin": "https://www.secureexample.com", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "preflight for delete request matches secureexample with wildcard https origin and request headers", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "https://www.secureexample.com", "Access-Control-Request-Method": "DELETE", "Access-Control-Request-Headers": "x-abc-1,x-abc-second,x-def-1", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Methods": "DELETE", "Access-Control-Allow-Origin": "https://www.secureexample.com", "Access-Control-Allow-Headers": "x-abc-1,x-abc-second,x-def-1", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "preflight for delete request matches secureexample rejected because request header does not match", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "https://www.secureexample.com", "Access-Control-Request-Method": "DELETE", "Access-Control-Request-Headers": "x-abc-1,x-abc-second,x-def-1,x-does-not-match", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "preflight with https origin is documented by s3 as matching but it does not match", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "https://www.securebutdoesnotmatch.com", "Access-Control-Request-Method": "PUT", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "put no origin no match returns no cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{}, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "put with origin match example1 returns cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "x-amz-server-side-encryption,x-amz-request-id", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Max-Age": "3600", // "Access-Control-Allow-Methods": "PUT", }, }, { name: "put with origin and header match example1 returns cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "x-could-be-anything": "myvalue", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "x-amz-server-side-encryption,x-amz-request-id", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Max-Age": "3600", // "Access-Control-Allow-Methods": "PUT", }, }, { name: "put no match found returns no cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.unmatchingdomain.com", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "", "Access-Control-Allow-Methods": "", "Access-Control-Allow-Origin": "", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "put with origin match example3 returns cors headers", method: http.MethodPut, url: objectURL, headers: map[string]string{ "Origin": "http://www.example3.com", "X-My-Special-Header": "myvalue", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Origin": "http://www.example3.com", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Max-Age": "10", // "Access-Control-Allow-Methods": "PUT", }, }, { name: "preflight matches example1 rule headers case is incorrect", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "PUT", // Fetch standard guarantees that these are sent lowercase, here we test what happens when they are not. "Access-Control-Request-Headers": "X-Another-Header,X-Could-Be-Anything", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Methods": "PUT", "Access-Control-Allow-Headers": "x-another-header,x-could-be-anything", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "3600", "Content-Length": "0", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Expose-Headers": "x-amz-server-side-encryption,x-amz-request-id", }, }, { name: "preflight matches example1 rule headers are not sorted", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://www.example1.com", "Access-Control-Request-Method": "PUT", // Fetch standard guarantees that these are sorted, test what happens when they are not. "Access-Control-Request-Headers": "a-customer-header,b-should-be-last", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Origin": "http://www.example1.com", "Access-Control-Allow-Methods": "PUT", "Access-Control-Allow-Headers": "a-customer-header,b-should-be-last", "Access-Control-Allow-Credentials": "true", "Access-Control-Max-Age": "3600", "Content-Length": "0", // S3 returns the following headers, MinIO follows fetch spec and does not: // "Access-Control-Expose-Headers": "x-amz-server-side-encryption,x-amz-request-id", }, }, { name: "preflight with case sensitivity in origin matches uppercase", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://UPPERCASEEXAMPLE.com", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Methods": "DELETE", "Access-Control-Allow-Origin": "http://UPPERCASEEXAMPLE.com", "Access-Control-Allow-Headers": "", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", }, }, { name: "preflight with case sensitivity in origin does not match when lowercase", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://uppercaseexample.com", "Access-Control-Request-Method": "DELETE", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "preflight match upper case with unknown header but no header restrictions", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://UPPERCASEEXAMPLE.com", "Access-Control-Request-Method": "DELETE", "Access-Control-Request-Headers": "x-unknown-1", }, wantStatus: http.StatusForbidden, wantBodyContains: errStrAccessForbidden, }, { name: "preflight for delete request matches multiplemethodstest.com origin and request headers", method: http.MethodOptions, url: objectURL, headers: map[string]string{ "Origin": "http://multiplemethodstest.com", "Access-Control-Request-Method": "DELETE", "Access-Control-Request-Headers": "x-abc-1", }, wantStatus: http.StatusOK, wantHeaders: map[string]string{ "Access-Control-Allow-Credentials": "true", "Access-Control-Allow-Origin": "http://multiplemethodstest.com", "Access-Control-Allow-Headers": "x-abc-1", "Access-Control-Expose-Headers": "", "Access-Control-Max-Age": "", // S3 returns POST, PUT, DELETE here, MinIO does not as spec does not require it. // "Access-Control-Allow-Methods": "DELETE", }, }, { name: "delete request goes ahead because cors is only for browsers and does not block on the server side", method: http.MethodDelete, url: objectURL, headers: map[string]string{ "Origin": "http://www.justrandom.com", }, wantStatus: http.StatusNoContent, }, } for i, test := range testCases { testName := fmt.Sprintf("%s_%d_%s", testName, i+1, strings.ReplaceAll(test.name, " ", "_")) // Apply the CORS rules if test.applyCorsRules != nil { corsConfig := &cors.Config{ CORSRules: test.applyCorsRules, } err = c.SetBucketCors(ctx, bucketName, corsConfig) if err != nil { logError(testName, function, args, startTime, "", "SetBucketCors failed to apply", err) return } } // Make request if test.method != "" && test.url != "" { req, err := http.NewRequestWithContext(ctx, test.method, test.url, nil) if err != nil { logError(testName, function, args, startTime, "", "HTTP request creation failed", err) return } req.Header.Set("User-Agent", "MinIO-go-FunctionalTest/"+appVersion) for k, v := range test.headers { req.Header.Set(k, v) } resp, err := httpClient.Do(req) if err != nil { logError(testName, function, args, startTime, "", "HTTP request failed", err) return } defer resp.Body.Close() // Check returned status code if resp.StatusCode != test.wantStatus { errStr := fmt.Sprintf(" incorrect status code in response, want: %d, got: %d", test.wantStatus, resp.StatusCode) logError(testName, function, args, startTime, "", errStr, nil) return } // Check returned body if test.wantBodyContains != "" { body, err := io.ReadAll(resp.Body) if err != nil { logError(testName, function, args, startTime, "", "Failed to read response body", err) return } if !strings.Contains(string(body), test.wantBodyContains) { errStr := fmt.Sprintf(" incorrect body in response, want: %s, in got: %s", test.wantBodyContains, string(body)) logError(testName, function, args, startTime, "", errStr, nil) return } } // Check returned response headers for k, v := range test.wantHeaders { gotVal := resp.Header.Get(k) if k == "Access-Control-Expose-Headers" { // MinIO returns this in canonical form, S3 does not. gotVal = strings.ToLower(gotVal) v = strings.ToLower(v) } // Remove all spaces, S3 adds spaces after CSV values in headers, MinIO does not. gotVal = strings.ReplaceAll(gotVal, " ", "") if gotVal != v { errStr := fmt.Sprintf(" incorrect header in response, want: %s: '%s', got: '%s'", k, v, gotVal) logError(testName, function, args, startTime, "", errStr, nil) return } } } logSuccess(testName, function, args, startTime) } logSuccess(testName, function, args, startTime) } func testCorsSetGetDelete() { ctx := context.Background() startTime := time.Now() testName := getFuncName() function := "SetBucketCors(bucketName, cors)" args := map[string]interface{}{ "bucketName": "", "cors": "", } // Instantiate new minio client object c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(ctx, bucketName, minio.MakeBucketOptions{Region: "us-east-1"}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } defer cleanupBucket(bucketName, c) // Set the CORS rules on the new bucket corsRules := []cors.Rule{ { AllowedOrigin: []string{"http://www.example1.com"}, AllowedMethod: []string{"PUT"}, AllowedHeader: []string{"*"}, }, { AllowedOrigin: []string{"http://www.example2.com"}, AllowedMethod: []string{"POST"}, AllowedHeader: []string{"X-My-Special-Header"}, }, { AllowedOrigin: []string{"*"}, AllowedMethod: []string{"GET"}, AllowedHeader: []string{"*"}, }, } corsConfig := cors.NewConfig(corsRules) err = c.SetBucketCors(ctx, bucketName, corsConfig) if err != nil { logError(testName, function, args, startTime, "", "SetBucketCors failed to apply", err) return } // Get the rules and check they match what we set gotCorsConfig, err := c.GetBucketCors(ctx, bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketCors failed", err) return } if !reflect.DeepEqual(corsConfig, gotCorsConfig) { msg := fmt.Sprintf("GetBucketCors returned unexpected rules, expected: %+v, got: %+v", corsConfig, gotCorsConfig) logError(testName, function, args, startTime, "", msg, nil) return } // Delete the rules err = c.SetBucketCors(ctx, bucketName, nil) if err != nil { logError(testName, function, args, startTime, "", "SetBucketCors failed to delete", err) return } // Get the rules and check they are now empty gotCorsConfig, err = c.GetBucketCors(ctx, bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketCors failed", err) return } if gotCorsConfig != nil { logError(testName, function, args, startTime, "", "GetBucketCors returned unexpected rules", nil) return } logSuccess(testName, function, args, startTime) } // Test deleting multiple objects with object retention set in Governance mode func testRemoveObjects() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "RemoveObjects(bucketName, objectsCh, opts)" args := map[string]interface{}{ "bucketName": "", "objectPrefix": "", "recursive": "true", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName objectName := randString(60, rand.NewSource(time.Now().UnixNano()), "") args["objectName"] = objectName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } bufSize := dataFileMap["datafile-129-MB"] reader := getDataReader("datafile-129-MB") defer reader.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Error uploading object", err) return } // Replace with smaller... bufSize = dataFileMap["datafile-10-kB"] reader = getDataReader("datafile-10-kB") defer reader.Close() _, err = c.PutObject(context.Background(), bucketName, objectName, reader, int64(bufSize), minio.PutObjectOptions{}) if err != nil { logError(testName, function, args, startTime, "", "Error uploading object", err) } t := time.Date(2030, time.April, 25, 14, 0, 0, 0, time.UTC) m := minio.RetentionMode(minio.Governance) opts := minio.PutObjectRetentionOptions{ GovernanceBypass: false, RetainUntilDate: &t, Mode: &m, } err = c.PutObjectRetention(context.Background(), bucketName, objectName, opts) if err != nil { logError(testName, function, args, startTime, "", "Error setting retention", err) return } objectsCh := make(chan minio.ObjectInfo) // Send object names that are needed to be removed to objectsCh go func() { defer close(objectsCh) // List all objects from a bucket-name with a matching prefix. for object := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{UseV1: true, Recursive: true}) { if object.Err != nil { logError(testName, function, args, startTime, "", "Error listing objects", object.Err) return } objectsCh <- object } }() for rErr := range c.RemoveObjects(context.Background(), bucketName, objectsCh, minio.RemoveObjectsOptions{}) { // Error is expected here because Retention is set on the object // and RemoveObjects is called without Bypass Governance if rErr.Err == nil { logError(testName, function, args, startTime, "", "Expected error during deletion", nil) return } } objectsCh1 := make(chan minio.ObjectInfo) // Send object names that are needed to be removed to objectsCh go func() { defer close(objectsCh1) // List all objects from a bucket-name with a matching prefix. for object := range c.ListObjects(context.Background(), bucketName, minio.ListObjectsOptions{UseV1: true, Recursive: true}) { if object.Err != nil { logError(testName, function, args, startTime, "", "Error listing objects", object.Err) return } objectsCh1 <- object } }() opts1 := minio.RemoveObjectsOptions{ GovernanceBypass: true, } for rErr := range c.RemoveObjects(context.Background(), bucketName, objectsCh1, opts1) { // Error is not expected here because Retention is set on the object // and RemoveObjects is called with Bypass Governance logError(testName, function, args, startTime, "", "Error detected during deletion", rErr.Err) return } // Delete all objects and buckets if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Test get bucket tags func testGetBucketTagging() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "GetBucketTagging(bucketName)" args := map[string]interface{}{ "bucketName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } _, err = c.GetBucketTagging(context.Background(), bucketName) if minio.ToErrorResponse(err).Code != "NoSuchTagSet" { logError(testName, function, args, startTime, "", "Invalid error from server failed", err) return } if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Test setting tags for bucket func testSetBucketTagging() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "SetBucketTagging(bucketName, tags)" args := map[string]interface{}{ "bucketName": "", "tags": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } _, err = c.GetBucketTagging(context.Background(), bucketName) if minio.ToErrorResponse(err).Code != "NoSuchTagSet" { logError(testName, function, args, startTime, "", "Invalid error from server", err) return } tag := randString(60, rand.NewSource(time.Now().UnixNano()), "") expectedValue := randString(60, rand.NewSource(time.Now().UnixNano()), "") t, err := tags.MapToBucketTags(map[string]string{ tag: expectedValue, }) args["tags"] = t.String() if err != nil { logError(testName, function, args, startTime, "", "tags.MapToBucketTags failed", err) return } err = c.SetBucketTagging(context.Background(), bucketName, t) if err != nil { logError(testName, function, args, startTime, "", "SetBucketTagging failed", err) return } tagging, err := c.GetBucketTagging(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketTagging failed", err) return } if tagging.ToMap()[tag] != expectedValue { msg := fmt.Sprintf("Tag %s; got value %s; wanted %s", tag, tagging.ToMap()[tag], expectedValue) logError(testName, function, args, startTime, "", msg, err) return } // Delete all objects and buckets if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Test removing bucket tags func testRemoveBucketTagging() { // initialize logging params startTime := time.Now() testName := getFuncName() function := "RemoveBucketTagging(bucketName)" args := map[string]interface{}{ "bucketName": "", } // Seed random based on current time. rand.Seed(time.Now().Unix()) // Instantiate new minio client object. c, err := minio.New(os.Getenv(serverEndpoint), &minio.Options{ Creds: credentials.NewStaticV4(os.Getenv(accessKey), os.Getenv(secretKey), ""), Transport: createHTTPTransport(), Secure: mustParseBool(os.Getenv(enableHTTPS)), }) if err != nil { logError(testName, function, args, startTime, "", "MinIO client v4 object creation failed", err) return } // Enable tracing, write to stderr. // c.TraceOn(os.Stderr) // Set user agent. c.SetAppInfo("MinIO-go-FunctionalTest", appVersion) // Generate a new random bucket name. bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "minio-go-test-") args["bucketName"] = bucketName // Make a new bucket. err = c.MakeBucket(context.Background(), bucketName, minio.MakeBucketOptions{Region: "us-east-1", ObjectLocking: true}) if err != nil { logError(testName, function, args, startTime, "", "MakeBucket failed", err) return } _, err = c.GetBucketTagging(context.Background(), bucketName) if minio.ToErrorResponse(err).Code != "NoSuchTagSet" { logError(testName, function, args, startTime, "", "Invalid error from server", err) return } tag := randString(60, rand.NewSource(time.Now().UnixNano()), "") expectedValue := randString(60, rand.NewSource(time.Now().UnixNano()), "") t, err := tags.MapToBucketTags(map[string]string{ tag: expectedValue, }) if err != nil { logError(testName, function, args, startTime, "", "tags.MapToBucketTags failed", err) return } err = c.SetBucketTagging(context.Background(), bucketName, t) if err != nil { logError(testName, function, args, startTime, "", "SetBucketTagging failed", err) return } tagging, err := c.GetBucketTagging(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "GetBucketTagging failed", err) return } if tagging.ToMap()[tag] != expectedValue { msg := fmt.Sprintf("Tag %s; got value %s; wanted %s", tag, tagging.ToMap()[tag], expectedValue) logError(testName, function, args, startTime, "", msg, err) return } err = c.RemoveBucketTagging(context.Background(), bucketName) if err != nil { logError(testName, function, args, startTime, "", "RemoveBucketTagging failed", err) return } _, err = c.GetBucketTagging(context.Background(), bucketName) if minio.ToErrorResponse(err).Code != "NoSuchTagSet" { logError(testName, function, args, startTime, "", "Invalid error from server", err) return } // Delete all objects and buckets if err = cleanupVersionedBucket(bucketName, c); err != nil { logError(testName, function, args, startTime, "", "CleanupBucket failed", err) return } logSuccess(testName, function, args, startTime) } // Convert string to bool and always return false if any error func mustParseBool(str string) bool { b, err := strconv.ParseBool(str) if err != nil { return false } return b } func main() { slog.SetDefault(slog.New(slog.NewJSONHandler( os.Stdout, &slog.HandlerOptions{ Level: slog.LevelInfo, ReplaceAttr: func(groups []string, a slog.Attr) slog.Attr { if a.Key == slog.MessageKey || a.Value.String() == "" { return slog.Attr{} } return a }, }, ))) tls := mustParseBool(os.Getenv(enableHTTPS)) kms := mustParseBool(os.Getenv(enableKMS)) if os.Getenv(enableKMS) == "" { // Default to KMS tests. kms = true } // execute tests if isFullMode() { testCorsSetGetDelete() testCors() testListMultipartUpload() testGetObjectAttributes() testGetObjectAttributesErrorCases() testMakeBucketErrorV2() testGetObjectClosedTwiceV2() testFPutObjectV2() testMakeBucketRegionsV2() testGetObjectReadSeekFunctionalV2() testGetObjectReadAtFunctionalV2() testGetObjectRanges() testCopyObjectV2() testFunctionalV2() testComposeObjectErrorCasesV2() testCompose10KSourcesV2() testUserMetadataCopyingV2() testPutObjectWithChecksums() testPutObjectWithTrailingChecksums() testPutMultipartObjectWithChecksums(false) testPutMultipartObjectWithChecksums(true) testPutObject0ByteV2() testPutObjectNoLengthV2() testPutObjectsUnknownV2() testGetObjectContextV2() testFPutObjectContextV2() testFGetObjectContextV2() testPutObjectContextV2() testPutObjectWithVersioning() testMakeBucketError() testMakeBucketRegions() testPutObjectWithMetadata() testPutObjectReadAt() testPutObjectStreaming() testGetObjectSeekEnd() testGetObjectClosedTwice() testGetObjectS3Zip() testRemoveMultipleObjects() testRemoveMultipleObjectsWithResult() testFPutObjectMultipart() testFPutObject() testGetObjectReadSeekFunctional() testGetObjectReadAtFunctional() testGetObjectReadAtWhenEOFWasReached() testPresignedPostPolicy() testCopyObject() testComposeObjectErrorCases() testCompose10KSources() testUserMetadataCopying() testBucketNotification() testFunctional() testGetObjectModified() testPutObjectUploadSeekedObject() testGetObjectContext() testFPutObjectContext() testFGetObjectContext() testGetObjectACLContext() testPutObjectContext() testStorageClassMetadataPutObject() testStorageClassInvalidMetadataPutObject() testStorageClassMetadataCopyObject() testPutObjectWithContentLanguage() testListObjects() testRemoveObjects() testListObjectVersions() testStatObjectWithVersioning() testGetObjectWithVersioning() testCopyObjectWithVersioning() testConcurrentCopyObjectWithVersioning() testComposeObjectWithVersioning() testRemoveObjectWithVersioning() testRemoveObjectsWithVersioning() testObjectTaggingWithVersioning() testTrailingChecksums() testPutObjectWithAutomaticChecksums() testGetBucketTagging() testSetBucketTagging() testRemoveBucketTagging() // SSE-C tests will only work over TLS connection. if tls { testGetObjectAttributesSSECEncryption() testSSECEncryptionPutGet() testSSECEncryptionFPut() testSSECEncryptedGetObjectReadAtFunctional() testSSECEncryptedGetObjectReadSeekFunctional() testEncryptedCopyObjectV2() testEncryptedSSECToSSECCopyObject() testEncryptedSSECToUnencryptedCopyObject() testUnencryptedToSSECCopyObject() testUnencryptedToUnencryptedCopyObject() testEncryptedEmptyObject() testDecryptedCopyObject() testSSECEncryptedToSSECCopyObjectPart() testSSECMultipartEncryptedToSSECCopyObjectPart() testSSECEncryptedToUnencryptedCopyPart() testUnencryptedToSSECCopyObjectPart() testUnencryptedToUnencryptedCopyPart() testEncryptedSSECToSSES3CopyObject() testEncryptedSSES3ToSSECCopyObject() testSSECEncryptedToSSES3CopyObjectPart() testSSES3EncryptedToSSECCopyObjectPart() } // KMS tests if kms { testSSES3EncryptionPutGet() testSSES3EncryptionFPut() testSSES3EncryptedGetObjectReadAtFunctional() testSSES3EncryptedGetObjectReadSeekFunctional() testEncryptedSSES3ToSSES3CopyObject() testEncryptedSSES3ToUnencryptedCopyObject() testUnencryptedToSSES3CopyObject() testUnencryptedToSSES3CopyObjectPart() testSSES3EncryptedToUnencryptedCopyPart() testSSES3EncryptedToSSES3CopyObjectPart() } } else { testFunctional() testFunctionalV2() } }