// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package main import ( "bytes" "encoding/json" "encoding/xml" "errors" "fmt" "math/rand" "net/http" "os" "reflect" "strings" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/awserr" "github.com/aws/aws-sdk-go/aws/credentials" "github.com/aws/aws-sdk-go/aws/session" "github.com/aws/aws-sdk-go/service/s3" log "github.com/sirupsen/logrus" ) const letterBytes = "abcdefghijklmnopqrstuvwxyz01234569" const ( letterIdxBits = 6 // 6 bits to represent a letter index letterIdxMask = 1<= 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)]) } func isObjectTaggingImplemented(s3Client *s3.S3) bool { bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := randString(60, rand.NewSource(time.Now().UnixNano()), "") startTime := time.Now() function := "isObjectTaggingImplemented" args := map[string]interface{}{ "bucketName": bucket, "objectName": object, } defer cleanup(s3Client, bucket, object, function, args, startTime, true) _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return false } _, err = s3Client.PutObject(&s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("testfile")), Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to success but got %v", err), err).Fatal() return false } _, err = s3Client.GetObjectTagging(&s3.GetObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { if awsErr, ok := err.(awserr.Error); ok { if awsErr.Code() == "NotImplemented" { return false } } } return true } func cleanup(s3Client *s3.S3, bucket string, object string, function string, args map[string]interface{}, startTime time.Time, deleteBucket bool) { // Deleting the object, just in case it was created. Will not check for errors. s3Client.DeleteObject(&s3.DeleteObjectInput{ Bucket: aws.String(bucket), Key: aws.String(object), }) if deleteBucket { _, err := s3Client.DeleteBucket(&s3.DeleteBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go DeleteBucket Failed", err).Fatal() return } } } func testPresignedPutInvalidHash(s3Client *s3.S3) { startTime := time.Now() function := "PresignedPut" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := "presignedTest" expiry := 1 * time.Minute args := map[string]interface{}{ "bucketName": bucket, "objectName": object, "expiry": expiry, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucket, object, function, args, startTime, true) req, _ := s3Client.PutObjectRequest(&s3.PutObjectInput{ Bucket: aws.String(bucket), Key: aws.String(object), ContentType: aws.String("application/octet-stream"), }) req.HTTPRequest.Header.Set("X-Amz-Content-Sha256", "invalid-sha256") url, err := req.Presign(expiry) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go presigned Put request creation failed", err).Fatal() return } rreq, err := http.NewRequest(http.MethodPut, url, bytes.NewReader([]byte(""))) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go presigned PUT request failed", err).Fatal() return } rreq.Header.Set("X-Amz-Content-Sha256", "invalid-sha256") rreq.Header.Set("Content-Type", "application/octet-stream") resp, err := http.DefaultClient.Do(rreq) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go presigned put request failed", err).Fatal() return } defer resp.Body.Close() dec := xml.NewDecoder(resp.Body) errResp := errorResponse{} err = dec.Decode(&errResp) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go unmarshalling xml failed", err).Fatal() return } if errResp.Code != "XAmzContentSHA256Mismatch" { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go presigned PUT expected to fail with XAmzContentSHA256Mismatch but got %v", errResp.Code), errors.New("AWS S3 error code mismatch")).Fatal() return } successLogger(function, args, startTime).Info() } func testListObjects(s3Client *s3.S3) { startTime := time.Now() function := "testListObjects" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object1 := "testObject1" object2 := "testObject2" expiry := 1 * time.Minute args := map[string]interface{}{ "bucketName": bucket, "objectName1": object1, "objectName2": object2, "expiry": expiry, } getKeys := func(objects []*s3.Object) []string { var rv []string for _, obj := range objects { rv = append(rv, *obj.Key) } return rv } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucket, object1, function, args, startTime, true) defer cleanup(s3Client, bucket, object2, function, args, startTime, false) listInput := &s3.ListObjectsV2Input{ Bucket: aws.String(bucket), MaxKeys: aws.Int64(1000), Prefix: aws.String(""), } result, err := s3Client.ListObjectsV2(listInput) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go listobjects expected to success but got %v", err), err).Fatal() return } if *result.KeyCount != 0 { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go listobjects with prefix '' expected 0 key but got %v, %v", result.KeyCount, getKeys(result.Contents)), errors.New("AWS S3 key count mismatch")).Fatal() return } putInput1 := &s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("filetoupload")), Bucket: aws.String(bucket), Key: aws.String(object1), } _, err = s3Client.PutObject(putInput1) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to success but got %v", err), err).Fatal() return } putInput2 := &s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("filetoupload")), Bucket: aws.String(bucket), Key: aws.String(object2), } _, err = s3Client.PutObject(putInput2) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to success but got %v", err), err).Fatal() return } result, err = s3Client.ListObjectsV2(listInput) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go listobjects expected to success but got %v", err), err).Fatal() return } if *result.KeyCount != 2 { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go listobjects with prefix '' expected 2 key but got %v, %v", *result.KeyCount, getKeys(result.Contents)), errors.New("AWS S3 key count mismatch")).Fatal() return } successLogger(function, args, startTime).Info() } func testSelectObject(s3Client *s3.S3) { startTime := time.Now() function := "testSelectObject" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object1 := "object1.csv" object2 := "object2.csv" args := map[string]interface{}{ "bucketName": bucket, "objectName1": object1, "objectName2": object2, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } // Test comma field separator inputCsv1 := `year,gender,ethnicity,firstname,count,rank 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,SOPHIA,119,1 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,CHLOE,106,2 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,EMILY,93,3 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,OLIVIA,89,4 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,EMMA,75,5 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,ISABELLA,67,6 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,TIFFANY,54,7 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,ASHLEY,52,8 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,FIONA,48,9 2011,FEMALE,ASIAN AND PACIFIC ISLANDER,ANGELA,47,10 ` outputCSV1 := `2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 ` putInput1 := &s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader(inputCsv1)), Bucket: aws.String(bucket), Key: aws.String(object1), } _, err = s3Client.PutObject(putInput1) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object failed %v", err), err).Fatal() return } defer cleanup(s3Client, bucket, object1, function, args, startTime, true) params := &s3.SelectObjectContentInput{ Bucket: &bucket, Key: &object1, ExpressionType: aws.String(s3.ExpressionTypeSql), Expression: aws.String("SELECT s._1 FROM S3Object s"), RequestProgress: &s3.RequestProgress{}, InputSerialization: &s3.InputSerialization{ CompressionType: aws.String("NONE"), CSV: &s3.CSVInput{ FileHeaderInfo: aws.String(s3.FileHeaderInfoIgnore), FieldDelimiter: aws.String(","), RecordDelimiter: aws.String("\n"), }, }, OutputSerialization: &s3.OutputSerialization{ CSV: &s3.CSVOutput{}, }, } resp, err := s3Client.SelectObjectContent(params) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object failed %v", err), err).Fatal() return } defer resp.EventStream.Close() payload := "" for event := range resp.EventStream.Events() { switch v := event.(type) { case *s3.RecordsEvent: // s3.RecordsEvent.Records is a byte slice of select records payload = string(v.Payload) } } if err := resp.EventStream.Err(); err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object failed %v", err), err).Fatal() return } if payload != outputCSV1 { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object output mismatch %v", payload), errors.New("AWS S3 select object mismatch")).Fatal() return } // Test unicode field separator inputCsv2 := `"year"╦"gender"╦"ethnicity"╦"firstname"╦"count"╦"rank" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"SOPHIA"╦"119"╦"1" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"CHLOE"╦"106"╦"2" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"EMILY"╦"93"╦"3" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"OLIVIA"╦"89"╦"4" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"EMMA"╦"75"╦"5" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"ISABELLA"╦"67"╦"6" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"TIFFANY"╦"54"╦"7" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"ASHLEY"╦"52"╦"8" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"FIONA"╦"48"╦"9" "2011"╦"FEMALE"╦"ASIAN AND PACIFIC ISLANDER"╦"ANGELA"╦"47"╦"10" ` outputCSV2 := `2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 ` putInput2 := &s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader(inputCsv2)), Bucket: aws.String(bucket), Key: aws.String(object2), } _, err = s3Client.PutObject(putInput2) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object upload failed: %v", err), err).Fatal() return } defer cleanup(s3Client, bucket, object2, function, args, startTime, false) params2 := &s3.SelectObjectContentInput{ Bucket: &bucket, Key: &object2, ExpressionType: aws.String(s3.ExpressionTypeSql), Expression: aws.String("SELECT s._1 FROM S3Object s"), RequestProgress: &s3.RequestProgress{}, InputSerialization: &s3.InputSerialization{ CompressionType: aws.String("NONE"), CSV: &s3.CSVInput{ FileHeaderInfo: aws.String(s3.FileHeaderInfoIgnore), FieldDelimiter: aws.String("╦"), RecordDelimiter: aws.String("\n"), }, }, OutputSerialization: &s3.OutputSerialization{ CSV: &s3.CSVOutput{}, }, } resp, err = s3Client.SelectObjectContent(params2) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object failed for unicode separator %v", err), err).Fatal() return } defer resp.EventStream.Close() for event := range resp.EventStream.Events() { switch v := event.(type) { case *s3.RecordsEvent: // s3.RecordsEvent.Records is a byte slice of select records payload = string(v.Payload) } } if err := resp.EventStream.Err(); err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object failed for unicode separator %v", err), err).Fatal() return } if payload != outputCSV2 { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go Select object output mismatch %v", payload), errors.New("AWS S3 select object mismatch")).Fatal() return } successLogger(function, args, startTime).Info() } func testObjectTagging(s3Client *s3.S3) { startTime := time.Now() function := "testObjectTagging" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := randString(60, rand.NewSource(time.Now().UnixNano()), "") args := map[string]interface{}{ "bucketName": bucket, "objectName": object, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucket, object, function, args, startTime, true) taginput := "Tag1=Value1" tagInputSet := []*s3.Tag{ { Key: aws.String("Tag1"), Value: aws.String("Value1"), }, } _, err = s3Client.PutObject(&s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("testfile")), Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &taginput, }) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to success but got %v", err), err).Fatal() return } tagop, err := s3Client.GetObjectTagging(&s3.GetObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { if awsErr, ok := err.(awserr.Error); ok { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUTObjectTagging expected to success but got %v", awsErr.Code()), err).Fatal() return } } if !reflect.DeepEqual(tagop.TagSet, tagInputSet) { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUTObject Tag input did not match with GetObjectTagging output %v", nil), nil).Fatal() return } taginputSet1 := []*s3.Tag{ { Key: aws.String("Key4"), Value: aws.String("Value4"), }, } _, err = s3Client.PutObjectTagging(&s3.PutObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &s3.Tagging{ TagSet: taginputSet1, }, }) if err != nil { if awsErr, ok := err.(awserr.Error); ok { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUTObjectTagging expected to success but got %v", awsErr.Code()), err).Fatal() return } } tagop, err = s3Client.GetObjectTagging(&s3.GetObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { if awsErr, ok := err.(awserr.Error); ok { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUTObjectTagging expected to success but got %v", awsErr.Code()), err).Fatal() return } } if !reflect.DeepEqual(tagop.TagSet, taginputSet1) { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUTObjectTagging input did not match with GetObjectTagging output %v", nil), nil).Fatal() return } successLogger(function, args, startTime).Info() } func testObjectTaggingErrors(s3Client *s3.S3) { startTime := time.Now() function := "testObjectTaggingErrors" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := randString(60, rand.NewSource(time.Now().UnixNano()), "") args := map[string]interface{}{ "bucketName": bucket, "objectName": object, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucket, object, function, args, startTime, true) _, err = s3Client.PutObject(&s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("testfile")), Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to success but got %v", err), err).Fatal() return } // case 1 : Too many tags > 10 input := &s3.PutObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &s3.Tagging{ TagSet: []*s3.Tag{ { Key: aws.String("Key1"), Value: aws.String("Value3"), }, { Key: aws.String("Key2"), Value: aws.String("Value4"), }, { Key: aws.String("Key3"), Value: aws.String("Value3"), }, { Key: aws.String("Key4"), Value: aws.String("Value3"), }, { Key: aws.String("Key5"), Value: aws.String("Value3"), }, { Key: aws.String("Key6"), Value: aws.String("Value3"), }, { Key: aws.String("Key7"), Value: aws.String("Value3"), }, { Key: aws.String("Key8"), Value: aws.String("Value3"), }, { Key: aws.String("Key9"), Value: aws.String("Value3"), }, { Key: aws.String("Key10"), Value: aws.String("Value3"), }, { Key: aws.String("Key11"), Value: aws.String("Value3"), }, }, }, } _, err = s3Client.PutObjectTagging(input) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go PUT expected to fail but succeeded", err).Fatal() return } if aerr, ok := err.(awserr.Error); ok { if aerr.Code() != "BadRequest" && aerr.Message() != "BadRequest: Object tags cannot be greater than 10" { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to fail but got %v", err), err).Fatal() return } } // case 2 : Duplicate Tag Keys input = &s3.PutObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &s3.Tagging{ TagSet: []*s3.Tag{ { Key: aws.String("Key1"), Value: aws.String("Value3"), }, { Key: aws.String("Key1"), Value: aws.String("Value4"), }, }, }, } _, err = s3Client.PutObjectTagging(input) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go PUT expected to fail but succeeded", err).Fatal() return } if aerr, ok := err.(awserr.Error); ok { if aerr.Code() != "InvalidTag" && aerr.Message() != "InvalidTag: Cannot provide multiple Tags with the same key" { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to fail but got %v", err), err).Fatal() return } } // case 3 : Too long Tag Key input = &s3.PutObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &s3.Tagging{ TagSet: []*s3.Tag{ { Key: aws.String("Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1"), Value: aws.String("Value3"), }, { Key: aws.String("Key1"), Value: aws.String("Value4"), }, }, }, } _, err = s3Client.PutObjectTagging(input) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go PUT expected to fail but succeeded", err).Fatal() return } if aerr, ok := err.(awserr.Error); ok { if aerr.Code() != "InvalidTag" && aerr.Message() != "InvalidTag: The TagKey you have provided is invalid" { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to fail but got %v", err), err).Fatal() return } } // case 4 : Too long Tag value input = &s3.PutObjectTaggingInput{ Bucket: aws.String(bucket), Key: aws.String(object), Tagging: &s3.Tagging{ TagSet: []*s3.Tag{ { Key: aws.String("Key1"), Value: aws.String("Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1Key1"), }, { Key: aws.String("Key1"), Value: aws.String("Value4"), }, }, }, } _, err = s3Client.PutObjectTagging(input) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go PUT expected to fail but succeeded", err).Fatal() return } if aerr, ok := err.(awserr.Error); ok { if aerr.Code() != "InvalidTag" && aerr.Message() != "InvalidTag: The TagValue you have provided is invalid" { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to fail but got %v", err), err).Fatal() return } } successLogger(function, args, startTime).Info() } // Tests bucket re-create errors. func testCreateBucketError(s3Client *s3.S3) { region := s3Client.Config.Region // Amazon S3 returns error in all AWS Regions except in the North Virginia Region. // More details in https://docs.aws.amazon.com/sdk-for-go/api/service/s3/#S3.CreateBucket s3Client.Config.Region = aws.String("us-west-1") // initialize logging params startTime := time.Now() function := "testMakeBucketError" bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") args := map[string]interface{}{ "bucketName": bucketName, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucketName), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucketName, "", function, args, startTime, true) _, errCreating := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucketName), }) if errCreating == nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Should Return Error for Existing bucket", err).Fatal() return } // Verify valid error response from server. if errCreating.(s3.RequestFailure).Code() != "BucketAlreadyExists" && errCreating.(s3.RequestFailure).Code() != "BucketAlreadyOwnedByYou" { failureLog(function, args, startTime, "", "Invalid error returned by server", err).Fatal() return } // Restore region in s3Client s3Client.Config.Region = region successLogger(function, args, startTime).Info() } func testListMultipartUploads(s3Client *s3.S3) { startTime := time.Now() function := "testListMultipartUploads" bucket := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := randString(60, rand.NewSource(time.Now().UnixNano()), "") args := map[string]interface{}{ "bucketName": bucket, "objectName": object, } _, errCreating := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucket), }) if errCreating != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", errCreating).Fatal() return } defer cleanup(s3Client, bucket, object, function, args, startTime, true) multipartUpload, err := s3Client.CreateMultipartUpload(&s3.CreateMultipartUploadInput{ Bucket: aws.String(bucket), Key: aws.String(object), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go createMultipartupload API failed", err).Fatal() return } parts := make([]*string, 5) for i := 0; i < 5; i++ { result, errUpload := s3Client.UploadPart(&s3.UploadPartInput{ Bucket: aws.String(bucket), Key: aws.String(object), UploadId: multipartUpload.UploadId, PartNumber: aws.Int64(int64(i + 1)), Body: aws.ReadSeekCloser(strings.NewReader("fileToUpload")), }) if errUpload != nil { _, _ = s3Client.AbortMultipartUpload(&s3.AbortMultipartUploadInput{ Bucket: aws.String(bucket), Key: aws.String(object), UploadId: multipartUpload.UploadId, }) failureLog(function, args, startTime, "", "AWS SDK Go uploadPart API failed for", errUpload).Fatal() return } parts[i] = result.ETag } listParts, errParts := s3Client.ListParts(&s3.ListPartsInput{ Bucket: aws.String(bucket), Key: aws.String(object), UploadId: multipartUpload.UploadId, }) if errParts != nil { failureLog(function, args, startTime, "", "AWS SDK Go ListPartsInput API failed for", err).Fatal() return } if len(parts) != len(listParts.Parts) { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go ListParts.Parts len mismatch want: %d got: %d", len(parts), len(listParts.Parts)), err).Fatal() return } completedParts := make([]*s3.CompletedPart, len(parts)) for i, part := range listParts.Parts { tag := parts[i] if *tag != *part.ETag { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go ListParts.Parts output mismatch want: %#v got: %#v", tag, part.ETag), err).Fatal() return } completedParts[i] = &s3.CompletedPart{ ETag: part.ETag, PartNumber: part.PartNumber, } } _, err = s3Client.CompleteMultipartUpload(&s3.CompleteMultipartUploadInput{ Bucket: aws.String(bucket), Key: aws.String(object), MultipartUpload: &s3.CompletedMultipartUpload{ Parts: completedParts}, UploadId: multipartUpload.UploadId, }) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go CompleteMultipartUpload is expected to fail but succeeded", errors.New("expected nil")).Fatal() return } if err.(s3.RequestFailure).Code() != "EntityTooSmall" { failureLog(function, args, startTime, "", "AWS SDK Go CompleteMultipartUpload is expected to fail with EntityTooSmall", err).Fatal() return } // Error cases // MaxParts < 0 lpInput := &s3.ListPartsInput{ Bucket: aws.String(bucket), Key: aws.String(object), UploadId: multipartUpload.UploadId, MaxParts: aws.Int64(-1), } listParts, err = s3Client.ListParts(lpInput) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go ListPartsInput API (MaxParts < 0) failed for", err).Fatal() return } // PartNumberMarker < 0 lpInput.PartNumberMarker = aws.Int64(-1) listParts, err = s3Client.ListParts(lpInput) if err == nil { failureLog(function, args, startTime, "", "AWS SDK Go ListPartsInput API (PartNumberMarker < 0) failed for", err).Fatal() return } successLogger(function, args, startTime).Info() } func testSSECopyObject(s3Client *s3.S3) { // initialize logging params startTime := time.Now() function := "testSSECopyObjectSourceEncrypted" bucketName := randString(60, rand.NewSource(time.Now().UnixNano()), "aws-sdk-go-test-") object := randString(60, rand.NewSource(time.Now().UnixNano()), "") args := map[string]interface{}{ "bucketName": bucketName, "objectName": object, } _, err := s3Client.CreateBucket(&s3.CreateBucketInput{ Bucket: aws.String(bucketName), }) if err != nil { failureLog(function, args, startTime, "", "AWS SDK Go CreateBucket Failed", err).Fatal() return } defer cleanup(s3Client, bucketName, object+"-enc", function, args, startTime, true) defer cleanup(s3Client, bucketName, object+"-noenc", function, args, startTime, false) var wrongSuccess = errors.New("Succeeded instead of failing. ") // create encrypted object sseCustomerKey := aws.String("32byteslongsecretkeymustbegiven2") _, errPutEnc := s3Client.PutObject(&s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("fileToUpload")), Bucket: aws.String(bucketName), Key: aws.String(object + "-enc"), SSECustomerAlgorithm: aws.String("AES256"), SSECustomerKey: sseCustomerKey, }) if errPutEnc != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to succeed but got %v", errPutEnc), errPutEnc).Fatal() return } // copy the encrypted object _, errCopyEnc := s3Client.CopyObject(&s3.CopyObjectInput{ SSECustomerAlgorithm: aws.String("AES256"), SSECustomerKey: sseCustomerKey, CopySource: aws.String(bucketName + "/" + object + "-enc"), Bucket: aws.String(bucketName), Key: aws.String(object + "-copy"), }) if errCopyEnc == nil { failureLog(function, args, startTime, "", "AWS SDK Go CopyObject expected to fail, but it succeeds ", wrongSuccess).Fatal() return } var invalidSSECustomerAlgorithm = "Requests specifying Server Side Encryption with Customer provided keys must provide a valid encryption algorithm" if !strings.Contains(errCopyEnc.Error(), invalidSSECustomerAlgorithm) { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go CopyObject expected error %v got %v", invalidSSECustomerAlgorithm, errCopyEnc), errCopyEnc).Fatal() return } // create non-encrypted object _, errPut := s3Client.PutObject(&s3.PutObjectInput{ Body: aws.ReadSeekCloser(strings.NewReader("fileToUpload")), Bucket: aws.String(bucketName), Key: aws.String(object + "-noenc"), }) if errPut != nil { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go PUT expected to succeed but got %v", errPut), errPut).Fatal() return } // copy the non-encrypted object _, errCopy := s3Client.CopyObject(&s3.CopyObjectInput{ CopySourceSSECustomerAlgorithm: aws.String("AES256"), CopySourceSSECustomerKey: sseCustomerKey, SSECustomerAlgorithm: aws.String("AES256"), SSECustomerKey: sseCustomerKey, CopySource: aws.String(bucketName + "/" + object + "-noenc"), Bucket: aws.String(bucketName), Key: aws.String(object + "-copy"), }) if errCopy == nil { failureLog(function, args, startTime, "", "AWS SDK Go CopyObject expected to fail, but it succeeds ", wrongSuccess).Fatal() return } var invalidEncryptionParameters = "The encryption parameters are not applicable to this object." if !strings.Contains(errCopy.Error(), invalidEncryptionParameters) { failureLog(function, args, startTime, "", fmt.Sprintf("AWS SDK Go CopyObject expected error %v got %v", invalidEncryptionParameters, errCopy), errCopy).Fatal() return } successLogger(function, args, startTime).Info() } func main() { endpoint := os.Getenv("SERVER_ENDPOINT") accessKey := os.Getenv("ACCESS_KEY") secretKey := os.Getenv("SECRET_KEY") secure := os.Getenv("ENABLE_HTTPS") if strings.HasSuffix(endpoint, ":443") { endpoint = strings.ReplaceAll(endpoint, ":443", "") } if strings.HasSuffix(endpoint, ":80") { endpoint = strings.ReplaceAll(endpoint, ":80", "") } sdkEndpoint := "http://" + endpoint if secure == "1" { sdkEndpoint = "https://" + endpoint } creds := credentials.NewStaticCredentials(accessKey, secretKey, "") newSession := session.New() s3Config := &aws.Config{ Credentials: creds, Endpoint: aws.String(sdkEndpoint), Region: aws.String("us-east-1"), S3ForcePathStyle: aws.Bool(true), } // Create an S3 service object in the default region. s3Client := s3.New(newSession, s3Config) // Output to stdout instead of the default stderr log.SetOutput(os.Stdout) // create custom formatter mintFormatter := mintJSONFormatter{} // set custom formatter log.SetFormatter(&mintFormatter) // log Info or above -- success cases are Info level, failures are Fatal level log.SetLevel(log.InfoLevel) // execute tests testPresignedPutInvalidHash(s3Client) testListObjects(s3Client) testSelectObject(s3Client) testCreateBucketError(s3Client) testListMultipartUploads(s3Client) if secure == "1" { testSSECopyObject(s3Client) } if isObjectTaggingImplemented(s3Client) { testObjectTagging(s3Client) testObjectTaggingErrors(s3Client) } }