minio/cmd/object-handlers_test.go

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// 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 <http://www.gnu.org/licenses/>.
package cmd
import (
"bytes"
"context"
"crypto/md5"
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"crypto/sha1"
"encoding/base64"
"encoding/hex"
"encoding/xml"
"fmt"
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"hash"
"hash/crc32"
"io"
"net/http"
"net/http/httptest"
"net/url"
"path"
"runtime"
"strconv"
"strings"
"sync"
"testing"
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"github.com/dustin/go-humanize"
"github.com/minio/minio/internal/auth"
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"github.com/minio/minio/internal/hash/sha256"
xhttp "github.com/minio/minio/internal/http"
ioutilx "github.com/minio/minio/internal/ioutil"
)
// Type to capture different modifications to API request to simulate failure cases.
type Fault int
const (
None Fault = iota
MissingContentLength
TooBigObject
TooBigDecodedLength
BadSignature
BadMD5
MissingUploadID
)
// Wrapper for calling HeadObject API handler tests for both Erasure multiple disks and FS single drive setup.
func TestAPIHeadObjectHandler(t *testing.T) {
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPIHeadObjectHandler, endpoints: []string{"HeadObject"}})
}
func testAPIHeadObjectHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
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credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object"
// set of byte data for PutObject.
// object has to be created before running tests for HeadObject.
// this is required even to assert the HeadObject data,
// since dataInserted === dataFetched back is a primary criteria for any object storage this assertion is critical.
bytesData := []struct {
byteData []byte
}{
{generateBytesData(6 * humanize.MiByte)},
}
// set of inputs for uploading the objects before tests for downloading is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
metaData map[string]string
}{
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
// uploading the object.
_, err := obj.PutObject(context.Background(), input.bucketName, input.objectName, mustGetPutObjReader(t, bytes.NewReader(input.textData), input.contentLength, input.metaData[""], ""), ObjectOptions{UserDefined: input.metaData})
// if object upload fails stop the test.
if err != nil {
t.Fatalf("Put Object case %d: Error uploading object: <ERROR> %v", i+1, err)
}
}
// test cases with inputs and expected result for HeadObject.
testCases := []struct {
bucketName string
objectName string
accessKey string
secretKey string
// expected output.
expectedRespStatus int // expected response status body.
}{
// Test case - 1.
// Fetching stat info of object and validating it.
{
bucketName: bucketName,
objectName: objectName,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 2.
// Case with non-existent object name.
{
bucketName: bucketName,
objectName: "abcd",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 3.
// Test case to induce a signature mismatch.
// Using invalid accessID.
{
bucketName: bucketName,
objectName: objectName,
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
},
}
// Iterating over the cases, fetching the object validating the response.
for i, testCase := range testCases {
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for Get Object end point.
req, err := newTestSignedRequestV4(http.MethodHead, getHeadObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: %s: Failed to create HTTP request for Head Object: <ERROR> %v", i+1, instanceType, err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler,`func (api objectAPIHandlers) GetObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Fatalf("Case %d: Expected the response status to be `%d`, but instead found `%d`", i+1, testCase.expectedRespStatus, rec.Code)
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
// construct HTTP request for Head Object endpoint.
reqV2, err := newTestSignedRequestV2(http.MethodHead, getHeadObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: %s: Failed to create HTTP request for Head Object: <ERROR> %v", i+1, instanceType, err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
if recV2.Code != testCase.expectedRespStatus {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, recV2.Code)
}
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodHead, getHeadObjectURL("", bucketName, objectName), 0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIHeadObjectHandler", bucketName, objectName, instanceType, apiRouter, anonReq, getAnonReadOnlyObjectPolicy(bucketName, objectName))
// HTTP request for testing when `objectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodHead, getGetObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
func TestAPIHeadObjectHandlerWithEncryption(t *testing.T) {
globalPolicySys = NewPolicySys()
defer func() { globalPolicySys = nil }()
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPIHeadObjectHandlerWithEncryption, endpoints: []string{"NewMultipart", "PutObjectPart", "CompleteMultipart", "GetObject", "PutObject", "HeadObject"}})
}
func testAPIHeadObjectHandlerWithEncryption(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
// Set SSL to on to do encryption tests
globalIsTLS = true
defer func() { globalIsTLS = false }()
var (
oneMiB int64 = 1024 * 1024
key32Bytes = generateBytesData(32 * humanize.Byte)
key32BytesMd5 = md5.Sum(key32Bytes)
metaWithSSEC = map[string]string{
xhttp.AmzServerSideEncryptionCustomerAlgorithm: xhttp.AmzEncryptionAES,
xhttp.AmzServerSideEncryptionCustomerKey: base64.StdEncoding.EncodeToString(key32Bytes),
xhttp.AmzServerSideEncryptionCustomerKeyMD5: base64.StdEncoding.EncodeToString(key32BytesMd5[:]),
}
mapCopy = func(m map[string]string) map[string]string {
r := make(map[string]string, len(m))
for k, v := range m {
r[k] = v
}
return r
}
)
type ObjectInput struct {
objectName string
partLengths []int64
metaData map[string]string
}
objectLength := func(oi ObjectInput) (sum int64) {
for _, l := range oi.partLengths {
sum += l
}
return
}
// set of inputs for uploading the objects before tests for
// downloading is done. Data bytes are from DummyDataGen.
objectInputs := []ObjectInput{
// Unencrypted objects
{"nothing", []int64{0}, nil},
{"small-1", []int64{509}, nil},
{"mp-1", []int64{5 * oneMiB, 1}, nil},
{"mp-2", []int64{5487701, 5487799, 3}, nil},
// Encrypted object
{"enc-nothing", []int64{0}, mapCopy(metaWithSSEC)},
{"enc-small-1", []int64{509}, mapCopy(metaWithSSEC)},
{"enc-mp-1", []int64{5 * oneMiB, 1}, mapCopy(metaWithSSEC)},
{"enc-mp-2", []int64{5487701, 5487799, 3}, mapCopy(metaWithSSEC)},
}
// iterate through the above set of inputs and upload the object.
for _, input := range objectInputs {
uploadTestObject(t, apiRouter, credentials, bucketName, input.objectName, input.partLengths, input.metaData, false)
}
for i, input := range objectInputs {
// initialize HTTP NewRecorder, this records any
// mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for HEAD object.
req, err := newTestSignedRequestV4(http.MethodHead, getHeadObjectURL("", bucketName, input.objectName),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Test %d: %s: Failed to create HTTP request for Head Object: <ERROR> %v", i+1, instanceType, err)
}
// Since `apiRouter` satisfies `http.Handler` it has a
// ServeHTTP to execute the logic of the handler.
apiRouter.ServeHTTP(rec, req)
isEnc := false
expected := 200
if strings.HasPrefix(input.objectName, "enc-") {
isEnc = true
expected = 400
}
if rec.Code != expected {
t.Errorf("Test %d: expected code %d but got %d for object %s", i+1, expected, rec.Code, input.objectName)
}
contentLength := rec.Header().Get("Content-Length")
if isEnc {
// initialize HTTP NewRecorder, this records any
// mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for HEAD object.
req, err := newTestSignedRequestV4(http.MethodHead, getHeadObjectURL("", bucketName, input.objectName),
0, nil, credentials.AccessKey, credentials.SecretKey, input.metaData)
if err != nil {
t.Fatalf("Test %d: %s: Failed to create HTTP request for Head Object: <ERROR> %v", i+1, instanceType, err)
}
// Since `apiRouter` satisfies `http.Handler` it has a
// ServeHTTP to execute the logic of the handler.
apiRouter.ServeHTTP(rec, req)
if rec.Code != 200 {
t.Errorf("Test %d: Did not receive a 200 response: %d", i+1, rec.Code)
}
contentLength = rec.Header().Get("Content-Length")
}
if contentLength != fmt.Sprintf("%d", objectLength(input)) {
t.Errorf("Test %d: Content length is mismatching: got %s (expected: %d)", i+1, contentLength, objectLength(input))
}
}
}
// Wrapper for calling GetObject API handler tests for both Erasure multiple disks and FS single drive setup.
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func TestAPIGetObjectHandler(t *testing.T) {
globalPolicySys = NewPolicySys()
defer func() { globalPolicySys = nil }()
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIGetObjectHandler, []string{"GetObject"})
}
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func testAPIGetObjectHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object"
// set of byte data for PutObject.
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// object has to be created before running tests for GetObject.
// this is required even to assert the GetObject data,
// since dataInserted === dataFetched back is a primary criteria for any object storage this assertion is critical.
bytesData := []struct {
byteData []byte
}{
{generateBytesData(6 * humanize.MiByte)},
}
// set of inputs for uploading the objects before tests for downloading is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
metaData map[string]string
}{
// case - 1.
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
// uploading the object.
_, err := obj.PutObject(context.Background(), input.bucketName, input.objectName, mustGetPutObjReader(t, bytes.NewReader(input.textData), input.contentLength, input.metaData[""], ""), ObjectOptions{UserDefined: input.metaData})
// if object upload fails stop the test.
if err != nil {
t.Fatalf("Put Object case %d: Error uploading object: <ERROR> %v", i+1, err)
}
}
ctx := context.Background()
// test cases with inputs and expected result for GetObject.
testCases := []struct {
bucketName string
objectName string
byteRange string // range of bytes to be fetched from GetObject.
accessKey string
secretKey string
// expected output.
expectedContent []byte // expected response body.
expectedRespStatus int // expected response status body.
}{
// Test case - 1.
// Fetching the entire object and validating its contents.
{
bucketName: bucketName,
objectName: objectName,
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: bytesData[0].byteData,
expectedRespStatus: http.StatusOK,
},
// Test case - 2.
// Case with non-existent object name.
{
bucketName: bucketName,
objectName: "abcd",
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrNoSuchKey),
getGetObjectURL("", bucketName, "abcd"), "", "")),
expectedRespStatus: http.StatusNotFound,
},
// Test case - 3.
// Requesting from range 10-100.
{
bucketName: bucketName,
objectName: objectName,
byteRange: "bytes=10-100",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: bytesData[0].byteData[10:101],
expectedRespStatus: http.StatusPartialContent,
},
// Test case - 4.
// Test case with invalid range.
{
bucketName: bucketName,
objectName: objectName,
byteRange: "bytes=-0",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidRange),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusRequestedRangeNotSatisfiable,
},
// Test case - 5.
// Test case with byte range exceeding the object size.
// Expected to read till end of the object.
{
bucketName: bucketName,
objectName: objectName,
byteRange: "bytes=10-1000000000000000",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: bytesData[0].byteData[10:],
expectedRespStatus: http.StatusPartialContent,
},
// Test case - 6.
// Test case to induce a signature mismatch.
// Using invalid accessID.
{
bucketName: bucketName,
objectName: objectName,
byteRange: "",
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidAccessKeyID),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusForbidden,
},
// Test case - 7.
// Case with bad components in object name.
{
bucketName: bucketName,
objectName: "../../etc",
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidObjectName),
getGetObjectURL("", bucketName, "../../etc"), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 8.
// Case with strange components but returning error as not found.
{
bucketName: bucketName,
objectName: ". ./. ./etc",
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrNoSuchKey),
SlashSeparator+bucketName+SlashSeparator+". ./. ./etc", "", "")),
expectedRespStatus: http.StatusNotFound,
},
// Test case - 9.
// Case with bad components in object name.
{
bucketName: bucketName,
objectName: ". ./../etc",
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidObjectName),
SlashSeparator+bucketName+SlashSeparator+". ./../etc", "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 10.
// Case with proper components
{
bucketName: bucketName,
objectName: "etc/path/proper/.../etc",
byteRange: "",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrNoSuchKey),
getGetObjectURL("", bucketName, "etc/path/proper/.../etc"),
"", "")),
expectedRespStatus: http.StatusNotFound,
},
}
// Iterating over the cases, fetching the object validating the response.
for i, testCase := range testCases {
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for Get Object end point.
req, err := newTestSignedRequestV4(http.MethodGet, getGetObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for Get Object: <ERROR> %v", i+1, err)
}
if testCase.byteRange != "" {
req.Header.Set("Range", testCase.byteRange)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler,`func (api objectAPIHandlers) GetObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Fatalf("Case %d: Expected the response status to be `%d`, but instead found `%d`", i+1, testCase.expectedRespStatus, rec.Code)
}
// read the response body.
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actualContent, err := io.ReadAll(rec.Body)
if err != nil {
t.Fatalf("Test %d: %s: Failed reading response body: <ERROR> %v", i+1, instanceType, err)
}
if rec.Code == http.StatusOK || rec.Code == http.StatusPartialContent {
if !bytes.Equal(testCase.expectedContent, actualContent) {
t.Errorf("Test %d: %s: Object content differs from expected value %s, got %s", i+1, instanceType, testCase.expectedContent, string(actualContent))
}
continue
}
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// Verify whether the bucket obtained object is same as the one created.
actualError := &APIErrorResponse{}
if err = xml.Unmarshal(actualContent, actualError); err != nil {
t.Fatalf("Test %d: %s: Failed parsing response body: <ERROR> %v", i+1, instanceType, err)
}
if path.Clean(actualError.Resource) != pathJoin(SlashSeparator, testCase.bucketName, testCase.objectName) {
t.Fatalf("Test %d: %s: Unexpected resource, expected %s, got %s", i+1, instanceType, pathJoin(SlashSeparator, testCase.bucketName, testCase.objectName), actualError.Resource)
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
// construct HTTP request for GET Object endpoint.
reqV2, err := newTestSignedRequestV2(http.MethodGet, getGetObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: %s: Failed to create HTTP request for GetObject: <ERROR> %v", i+1, instanceType, err)
}
if testCase.byteRange != "" {
reqV2.Header.Set("Range", testCase.byteRange)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
if recV2.Code != testCase.expectedRespStatus {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, recV2.Code)
}
// read the response body.
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actualContent, err = io.ReadAll(recV2.Body)
if err != nil {
t.Fatalf("Test %d: %s: Failed to read response body: <ERROR> %v", i+1, instanceType, err)
}
if rec.Code == http.StatusOK || rec.Code == http.StatusPartialContent {
// Verify whether the bucket obtained object is same as the one created.
if !bytes.Equal(testCase.expectedContent, actualContent) {
t.Errorf("Test %d: %s: Object content differs from expected value.", i+1, instanceType)
}
continue
}
actualError = &APIErrorResponse{}
if err = xml.Unmarshal(actualContent, actualError); err != nil {
t.Fatalf("Test %d: %s: Failed parsing response body: <ERROR> %v", i+1, instanceType, err)
}
if path.Clean(actualError.Resource) != pathJoin(SlashSeparator, testCase.bucketName, testCase.objectName) {
t.Fatalf("Test %d: %s: Unexpected resource, expected %s, got %s", i+1, instanceType, pathJoin(SlashSeparator, testCase.bucketName, testCase.objectName), actualError.Resource)
}
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodGet, getGetObjectURL("", bucketName, objectName), 0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIGetObjectHandler", bucketName, objectName, instanceType, apiRouter, anonReq, getAnonReadOnlyObjectPolicy(bucketName, objectName))
// HTTP request for testing when `objectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodGet, getGetObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling GetObject API handler tests for both Erasure multiple disks and FS single drive setup.
func TestAPIGetObjectWithMPHandler(t *testing.T) {
globalPolicySys = NewPolicySys()
defer func() { globalPolicySys = nil }()
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIGetObjectWithMPHandler, []string{"NewMultipart", "PutObjectPart", "CompleteMultipart", "GetObject", "PutObject"})
}
func testAPIGetObjectWithMPHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
// Set SSL to on to do encryption tests
globalIsTLS = true
defer func() { globalIsTLS = false }()
var (
oneMiB int64 = 1024 * 1024
key32Bytes = generateBytesData(32 * humanize.Byte)
key32BytesMd5 = md5.Sum(key32Bytes)
metaWithSSEC = map[string]string{
xhttp.AmzServerSideEncryptionCustomerAlgorithm: xhttp.AmzEncryptionAES,
xhttp.AmzServerSideEncryptionCustomerKey: base64.StdEncoding.EncodeToString(key32Bytes),
xhttp.AmzServerSideEncryptionCustomerKeyMD5: base64.StdEncoding.EncodeToString(key32BytesMd5[:]),
}
mapCopy = func(m map[string]string) map[string]string {
r := make(map[string]string, len(m))
for k, v := range m {
r[k] = v
}
return r
}
)
type ObjectInput struct {
objectName string
partLengths []int64
metaData map[string]string
}
objectLength := func(oi ObjectInput) (sum int64) {
for _, l := range oi.partLengths {
sum += l
}
return
}
// set of inputs for uploading the objects before tests for
// downloading is done. Data bytes are from DummyDataGen.
objectInputs := []ObjectInput{
// // cases 0-3: small single part objects
{"nothing", []int64{0}, make(map[string]string)},
{"small-0", []int64{11}, make(map[string]string)},
{"small-1", []int64{509}, make(map[string]string)},
{"small-2", []int64{5 * oneMiB}, make(map[string]string)},
// // // cases 4-7: multipart part objects
{"mp-0", []int64{5 * oneMiB, 1}, make(map[string]string)},
{"mp-1", []int64{5*oneMiB + 1, 1}, make(map[string]string)},
{"mp-2", []int64{5487701, 5487799, 3}, make(map[string]string)},
{"mp-3", []int64{10499807, 10499963, 7}, make(map[string]string)},
// cases 8-11: small single part objects with encryption
{"enc-nothing", []int64{0}, mapCopy(metaWithSSEC)},
{"enc-small-0", []int64{11}, mapCopy(metaWithSSEC)},
{"enc-small-1", []int64{509}, mapCopy(metaWithSSEC)},
{"enc-small-2", []int64{5 * oneMiB}, mapCopy(metaWithSSEC)},
// cases 12-15: multipart part objects with encryption
{"enc-mp-0", []int64{5 * oneMiB, 1}, mapCopy(metaWithSSEC)},
{"enc-mp-1", []int64{5*oneMiB + 1, 1}, mapCopy(metaWithSSEC)},
{"enc-mp-2", []int64{5487701, 5487799, 3}, mapCopy(metaWithSSEC)},
{"enc-mp-3", []int64{10499807, 10499963, 7}, mapCopy(metaWithSSEC)},
}
// SSEC can't be used with compression
globalCompressConfigMu.Lock()
globalCompressEnabled := globalCompressConfig.Enabled
globalCompressConfigMu.Unlock()
if globalCompressEnabled {
objectInputs = objectInputs[0:8]
}
// iterate through the above set of inputs and upload the object.
for _, input := range objectInputs {
uploadTestObject(t, apiRouter, credentials, bucketName, input.objectName, input.partLengths, input.metaData, false)
}
// function type for creating signed requests - used to repeat
// requests with V2 and V4 signing.
type testSignedReqFn func(method, urlStr string, contentLength int64,
body io.ReadSeeker, accessKey, secretKey string, metamap map[string]string) (*http.Request,
error)
mkGetReq := func(oi ObjectInput, byteRange string, i int, mkSignedReq testSignedReqFn) {
object := oi.objectName
rec := httptest.NewRecorder()
req, err := mkSignedReq(http.MethodGet, getGetObjectURL("", bucketName, object),
0, nil, credentials.AccessKey, credentials.SecretKey, oi.metaData)
if err != nil {
t.Fatalf("Object: %s Case %d ByteRange: %s: Failed to create HTTP request for Get Object: <ERROR> %v",
object, i+1, byteRange, err)
}
if byteRange != "" {
req.Header.Set("Range", byteRange)
}
apiRouter.ServeHTTP(rec, req)
// Check response code (we make only valid requests in
// this test)
if rec.Code != http.StatusPartialContent && rec.Code != http.StatusOK {
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bd, err1 := io.ReadAll(rec.Body)
t.Fatalf("%s Object: %s Case %d ByteRange: %s: Got response status `%d` and body: %s,%v",
instanceType, object, i+1, byteRange, rec.Code, string(bd), err1)
}
var off, length int64
var rs *HTTPRangeSpec
if byteRange != "" {
rs, err = parseRequestRangeSpec(byteRange)
if err != nil {
t.Fatalf("Object: %s Case %d ByteRange: %s: Unexpected err: %v", object, i+1, byteRange, err)
}
}
off, length, err = rs.GetOffsetLength(objectLength(oi))
if err != nil {
t.Fatalf("Object: %s Case %d ByteRange: %s: Unexpected err: %v", object, i+1, byteRange, err)
}
readers := []io.Reader{}
cumulativeSum := int64(0)
for _, p := range oi.partLengths {
readers = append(readers, NewDummyDataGen(p, cumulativeSum))
cumulativeSum += p
}
refReader := io.LimitReader(ioutilx.NewSkipReader(io.MultiReader(readers...), off), length)
if ok, msg := cmpReaders(refReader, rec.Body); !ok {
t.Fatalf("(%s) Object: %s Case %d ByteRange: %s --> data mismatch! (msg: %s)", instanceType, oi.objectName, i+1, byteRange, msg)
}
}
// Iterate over each uploaded object and do a bunch of get
// requests on them.
caseNumber := 0
signFns := []testSignedReqFn{newTestSignedRequestV2, newTestSignedRequestV4}
for _, oi := range objectInputs {
objLen := objectLength(oi)
for _, sf := range signFns {
// Read whole object
mkGetReq(oi, "", caseNumber, sf)
caseNumber++
// No range requests are possible if the
// object length is 0
if objLen == 0 {
continue
}
// Various ranges to query - all are valid!
rangeHdrs := []string{
// Read first byte of object
fmt.Sprintf("bytes=%d-%d", 0, 0),
// Read second byte of object
fmt.Sprintf("bytes=%d-%d", 1, 1),
// Read last byte of object
fmt.Sprintf("bytes=-%d", 1),
// Read all but first byte of object
"bytes=1-",
// Read first half of object
fmt.Sprintf("bytes=%d-%d", 0, objLen/2),
// Read last half of object
fmt.Sprintf("bytes=-%d", objLen/2),
// Read middle half of object
fmt.Sprintf("bytes=%d-%d", objLen/4, objLen*3/4),
// Read 100MiB of the object from the beginning
fmt.Sprintf("bytes=%d-%d", 0, 100*humanize.MiByte),
// Read 100MiB of the object from the end
fmt.Sprintf("bytes=-%d", 100*humanize.MiByte),
}
for _, rangeHdr := range rangeHdrs {
mkGetReq(oi, rangeHdr, caseNumber, sf)
caseNumber++
}
}
}
// HTTP request for testing when `objectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodGet, getGetObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling GetObject API handler tests for both Erasure multiple disks and FS single drive setup.
func TestAPIGetObjectWithPartNumberHandler(t *testing.T) {
globalPolicySys = NewPolicySys()
defer func() { globalPolicySys = nil }()
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIGetObjectWithPartNumberHandler, []string{"NewMultipart", "PutObjectPart", "CompleteMultipart", "GetObject", "PutObject"})
}
func testAPIGetObjectWithPartNumberHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
// Set SSL to on to do encryption tests
globalIsTLS = true
defer func() { globalIsTLS = false }()
var (
oneMiB int64 = 1024 * 1024
key32Bytes = generateBytesData(32 * humanize.Byte)
key32BytesMd5 = md5.Sum(key32Bytes)
metaWithSSEC = map[string]string{
xhttp.AmzServerSideEncryptionCustomerAlgorithm: xhttp.AmzEncryptionAES,
xhttp.AmzServerSideEncryptionCustomerKey: base64.StdEncoding.EncodeToString(key32Bytes),
xhttp.AmzServerSideEncryptionCustomerKeyMD5: base64.StdEncoding.EncodeToString(key32BytesMd5[:]),
}
mapCopy = func(m map[string]string) map[string]string {
r := make(map[string]string, len(m))
for k, v := range m {
r[k] = v
}
return r
}
)
type ObjectInput struct {
objectName string
partLengths []int64
metaData map[string]string
}
// set of inputs for uploading the objects before tests for
// downloading is done. Data bytes are from DummyDataGen.
objectInputs := []ObjectInput{
// // cases 0-4: small single part objects
{"nothing", []int64{0}, make(map[string]string)},
{"1byte", []int64{1}, make(map[string]string)},
{"small-0", []int64{11}, make(map[string]string)},
{"small-1", []int64{509}, make(map[string]string)},
{"small-2", []int64{5 * oneMiB}, make(map[string]string)},
// // // cases 5-8: multipart part objects
{"mp-0", []int64{5 * oneMiB, 1}, make(map[string]string)},
{"mp-1", []int64{5*oneMiB + 1, 1}, make(map[string]string)},
{"mp-2", []int64{5487701, 5487799, 3}, make(map[string]string)},
{"mp-3", []int64{10499807, 10499963, 7}, make(map[string]string)},
// cases 9-12: small single part objects with encryption
{"enc-nothing", []int64{0}, mapCopy(metaWithSSEC)},
{"enc-small-0", []int64{11}, mapCopy(metaWithSSEC)},
{"enc-small-1", []int64{509}, mapCopy(metaWithSSEC)},
{"enc-small-2", []int64{5 * oneMiB}, mapCopy(metaWithSSEC)},
// cases 13-16: multipart part objects with encryption
{"enc-mp-0", []int64{5 * oneMiB, 1}, mapCopy(metaWithSSEC)},
{"enc-mp-1", []int64{5*oneMiB + 1, 1}, mapCopy(metaWithSSEC)},
{"enc-mp-2", []int64{5487701, 5487799, 3}, mapCopy(metaWithSSEC)},
{"enc-mp-3", []int64{10499807, 10499963, 7}, mapCopy(metaWithSSEC)},
}
// SSEC can't be used with compression
globalCompressConfigMu.Lock()
globalCompressEnabled := globalCompressConfig.Enabled
globalCompressConfigMu.Unlock()
if globalCompressEnabled {
objectInputs = objectInputs[0:9]
}
// iterate through the above set of inputs and upload the object.
for _, input := range objectInputs {
uploadTestObject(t, apiRouter, credentials, bucketName, input.objectName, input.partLengths, input.metaData, false)
}
mkGetReqWithPartNumber := func(oindex int, oi ObjectInput, partNumber int) {
object := oi.objectName
queries := url.Values{}
queries.Add("partNumber", strconv.Itoa(partNumber))
targetURL := makeTestTargetURL("", bucketName, object, queries)
req, err := newTestSignedRequestV4(http.MethodGet, targetURL,
0, nil, credentials.AccessKey, credentials.SecretKey, oi.metaData)
if err != nil {
t.Fatalf("Object: %s Object Index %d PartNumber: %d: Failed to create HTTP request for Get Object: <ERROR> %v",
object, oindex, partNumber, err)
}
rec := httptest.NewRecorder()
apiRouter.ServeHTTP(rec, req)
// Check response code (we make only valid requests in this test)
if rec.Code != http.StatusPartialContent && rec.Code != http.StatusOK {
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bd, err1 := io.ReadAll(rec.Body)
t.Fatalf("%s Object: %s ObjectIndex %d PartNumber: %d: Got response status `%d` and body: %s,%v",
instanceType, object, oindex, partNumber, rec.Code, string(bd), err1)
}
oinfo, err := obj.GetObjectInfo(context.Background(), bucketName, object, ObjectOptions{})
if err != nil {
t.Fatalf("Object: %s Object Index %d: Unexpected err: %v", object, oindex, err)
}
rs := partNumberToRangeSpec(oinfo, partNumber)
size, err := oinfo.GetActualSize()
if err != nil {
t.Fatalf("Object: %s Object Index %d: Unexpected err: %v", object, oindex, err)
}
off, length, err := rs.GetOffsetLength(size)
if err != nil {
t.Fatalf("Object: %s Object Index %d: Unexpected err: %v", object, oindex, err)
}
readers := []io.Reader{}
cumulativeSum := int64(0)
for _, p := range oi.partLengths {
readers = append(readers, NewDummyDataGen(p, cumulativeSum))
cumulativeSum += p
}
refReader := io.LimitReader(ioutilx.NewSkipReader(io.MultiReader(readers...), off), length)
if ok, msg := cmpReaders(refReader, rec.Body); !ok {
t.Fatalf("(%s) Object: %s ObjectIndex %d PartNumber: %d --> data mismatch! (msg: %s)", instanceType, oi.objectName, oindex, partNumber, msg)
}
}
for idx, oi := range objectInputs {
for partNum := 1; partNum <= len(oi.partLengths); partNum++ {
mkGetReqWithPartNumber(idx, oi, partNum)
}
}
}
// Wrapper for calling PutObject API handler tests using streaming signature v4 for both Erasure multiple disks and FS single drive setup.
func TestAPIPutObjectStreamSigV4Handler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIPutObjectStreamSigV4Handler, []string{"PutObject"})
}
func testAPIPutObjectStreamSigV4Handler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object"
bytesDataLen := 65 * humanize.KiByte
bytesData := bytes.Repeat([]byte{'a'}, bytesDataLen)
oneKData := bytes.Repeat([]byte("a"), 1*humanize.KiByte)
var err error
type streamFault int
const (
None streamFault = iota
malformedEncoding
unexpectedEOF
signatureMismatch
chunkDateMismatch
tooBigDecodedLength
)
// byte data for PutObject.
// test cases with inputs and expected result for GetObject.
testCases := []struct {
bucketName string
objectName string
data []byte
dataLen int
chunkSize int64
// expected output.
expectedContent []byte // expected response body.
expectedRespStatus int // expected response status body.
// Access keys
accessKey string
secretKey string
shouldPass bool
removeAuthHeader bool
fault streamFault
// Custom content encoding.
contentEncoding string
}{
// Test case - 1.
// Fetching the entire object and validating its contents.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 64 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusOK,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: true,
fault: None,
},
// Test case - 2
// Small chunk size.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 1 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusOK,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: true,
fault: None,
},
// Test case - 3
// Empty data
{
bucketName: bucketName,
objectName: objectName,
data: []byte{},
dataLen: 0,
chunkSize: 64 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusOK,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: true,
},
// Test case - 4
// Invalid access key id.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 64 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusForbidden,
accessKey: "",
secretKey: "",
shouldPass: false,
fault: None,
},
// Test case - 5
// Wrong auth header returns as bad request.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 64 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusBadRequest,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
removeAuthHeader: true,
fault: None,
},
// Test case - 6
// Large chunk size.. also passes.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 100 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusOK,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: true,
fault: None,
},
// Test case - 7
// Chunk with malformed encoding.
// Causes signature mismatch.
{
bucketName: bucketName,
objectName: objectName,
data: oneKData,
dataLen: 1024,
chunkSize: 1024,
expectedContent: []byte{},
expectedRespStatus: http.StatusForbidden,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
fault: malformedEncoding,
},
// Test case - 8
// Chunk with shorter than advertised chunk data.
{
bucketName: bucketName,
objectName: objectName,
data: oneKData,
dataLen: 1024,
chunkSize: 1024,
expectedContent: []byte{},
expectedRespStatus: http.StatusBadRequest,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
fault: unexpectedEOF,
},
// Test case - 9
// Chunk with first chunk data byte tampered.
{
bucketName: bucketName,
objectName: objectName,
data: oneKData,
dataLen: 1024,
chunkSize: 1024,
expectedContent: []byte{},
expectedRespStatus: http.StatusForbidden,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
fault: signatureMismatch,
},
// Test case - 10
// Different date (timestamps) used in seed signature calculation
// and chunks signature calculation.
{
bucketName: bucketName,
objectName: objectName,
data: oneKData,
dataLen: 1024,
chunkSize: 1024,
expectedContent: []byte{},
expectedRespStatus: http.StatusForbidden,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
fault: chunkDateMismatch,
},
// Test case - 11
// Set x-amz-decoded-content-length to a value too big to hold in int64.
{
bucketName: bucketName,
objectName: objectName,
data: oneKData,
dataLen: 1024,
chunkSize: 1024,
expectedContent: []byte{},
expectedRespStatus: http.StatusBadRequest,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: false,
fault: tooBigDecodedLength,
},
// Test case - 12
// Set custom content encoding should succeed and save the encoding properly.
{
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
chunkSize: 100 * humanize.KiByte,
expectedContent: []byte{},
expectedRespStatus: http.StatusOK,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
shouldPass: true,
contentEncoding: "aws-chunked,gzip",
fault: None,
},
}
// Iterating over the cases, fetching the object validating the response.
for i, testCase := range testCases {
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for Put Object end point.
var req *http.Request
switch {
case testCase.fault == chunkDateMismatch:
req, err = newTestStreamingSignedBadChunkDateRequest(http.MethodPut,
getPutObjectURL("", testCase.bucketName, testCase.objectName),
int64(testCase.dataLen), testCase.chunkSize, bytes.NewReader(testCase.data),
testCase.accessKey, testCase.secretKey)
case testCase.contentEncoding == "":
req, err = newTestStreamingSignedRequest(http.MethodPut,
getPutObjectURL("", testCase.bucketName, testCase.objectName),
int64(testCase.dataLen), testCase.chunkSize, bytes.NewReader(testCase.data),
testCase.accessKey, testCase.secretKey)
case testCase.contentEncoding != "":
req, err = newTestStreamingSignedCustomEncodingRequest(http.MethodPut,
getPutObjectURL("", testCase.bucketName, testCase.objectName),
int64(testCase.dataLen), testCase.chunkSize, bytes.NewReader(testCase.data),
testCase.accessKey, testCase.secretKey, testCase.contentEncoding)
}
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for Put Object: <ERROR> %v", i+1, err)
}
// Removes auth header if test case requires it.
if testCase.removeAuthHeader {
req.Header.Del("Authorization")
}
switch testCase.fault {
case malformedEncoding:
req, err = malformChunkSizeSigV4(req, testCase.chunkSize-1)
case signatureMismatch:
req, err = malformDataSigV4(req, 'z')
case unexpectedEOF:
req, err = truncateChunkByHalfSigv4(req)
case tooBigDecodedLength:
// Set decoded length to a large value out of int64 range to simulate parse failure.
req.Header.Set("x-amz-decoded-content-length", "9999999999999999999999")
}
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if err != nil {
t.Fatalf("Error injecting faults into the request: <ERROR> %v.", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler,`func (api objectAPIHandlers) GetObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Errorf("Test %d %s: Expected the response status to be `%d`, but instead found `%d`: fault case %d",
i+1, instanceType, testCase.expectedRespStatus, rec.Code, testCase.fault)
}
// read the response body.
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actualContent, err := io.ReadAll(rec.Body)
if err != nil {
t.Fatalf("Test %d: %s: Failed parsing response body: <ERROR> %v", i+1, instanceType, err)
}
opts := ObjectOptions{}
if testCase.shouldPass {
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// Verify whether the bucket obtained object is same as the one created.
if !bytes.Equal(testCase.expectedContent, actualContent) {
t.Errorf("Test %d: %s: Object content differs from expected value.: %s", i+1, instanceType, string(actualContent))
continue
}
objInfo, err := obj.GetObjectInfo(context.Background(), testCase.bucketName, testCase.objectName, opts)
if err != nil {
t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i+1, instanceType, err)
}
if objInfo.ContentEncoding == streamingContentEncoding {
t.Fatalf("Test %d: %s: ContentEncoding is set to \"aws-chunked\" which is unexpected", i+1, instanceType)
}
expectedContentEncoding := trimAwsChunkedContentEncoding(testCase.contentEncoding)
if expectedContentEncoding != objInfo.ContentEncoding {
t.Fatalf("Test %d: %s: ContentEncoding is set to \"%s\" which is unexpected, expected \"%s\"", i+1, instanceType, objInfo.ContentEncoding, expectedContentEncoding)
}
buffer := new(bytes.Buffer)
r, err := obj.GetObjectNInfo(context.Background(), testCase.bucketName, testCase.objectName, nil, nil, opts)
if err != nil {
t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i+1, instanceType, err)
}
if _, err = io.Copy(buffer, r); err != nil {
r.Close()
t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i+1, instanceType, err)
}
r.Close()
if !bytes.Equal(testCase.data, buffer.Bytes()) {
t.Errorf("Test %d: %s: Data Mismatch: Data fetched back from the uploaded object doesn't match the original one.", i+1, instanceType)
}
}
}
}
// Wrapper for calling PutObject API handler tests for both Erasure multiple disks and FS single drive setup.
func TestAPIPutObjectHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIPutObjectHandler, []string{"PutObject"})
}
func testAPIPutObjectHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
var err error
objectName := "test-object"
opts := ObjectOptions{}
// byte data for PutObject.
bytesData := generateBytesData(6 * humanize.KiByte)
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copySourceHeader := map[string]string{"X-Amz-Copy-Source": "somewhere"}
invalidMD5Header := map[string]string{"Content-Md5": "42"}
invalidStorageClassHeader := map[string]string{xhttp.AmzStorageClass: "INVALID"}
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addCustomHeaders := func(req *http.Request, customHeaders map[string]string) {
for k, value := range customHeaders {
req.Header.Set(k, value)
}
}
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checksumData := func(b []byte, h hash.Hash) string {
h.Reset()
_, err := h.Write(b)
if err != nil {
t.Fatal(err)
}
return base64.StdEncoding.EncodeToString(h.Sum(nil))
}
// test cases with inputs and expected result for GetObject.
testCases := []struct {
bucketName string
objectName string
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headers map[string]string
data []byte
dataLen int
accessKey string
secretKey string
fault Fault
// expected output.
expectedRespStatus int // expected response status body.
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wantAPICode string
wantHeaders map[string]string
}{
// Fetching the entire object and validating its contents.
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0: {
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test Case with invalid accessID.
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1: {
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
accessKey: "Wrong-AccessID",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
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wantAPICode: "InvalidAccessKeyId",
},
// Test Case with invalid header key X-Amz-Copy-Source.
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2: {
bucketName: bucketName,
objectName: objectName,
headers: copySourceHeader,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
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wantAPICode: "InvalidArgument",
},
// Test Case with invalid Content-Md5 value
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3: {
bucketName: bucketName,
objectName: objectName,
headers: invalidMD5Header,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
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wantAPICode: "InvalidDigest",
},
// Test Case with object greater than maximum allowed size.
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4: {
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
fault: TooBigObject,
expectedRespStatus: http.StatusBadRequest,
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wantAPICode: "EntityTooLarge",
},
// Test Case with missing content length
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5: {
bucketName: bucketName,
objectName: objectName,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
fault: MissingContentLength,
expectedRespStatus: http.StatusLengthRequired,
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wantAPICode: "MissingContentLength",
},
// Test Case with invalid header key X-Amz-Storage-Class
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6: {
bucketName: bucketName,
objectName: objectName,
headers: invalidStorageClassHeader,
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
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wantAPICode: "InvalidStorageClass",
},
// Invalid crc32
7: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-crc32": "123"},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
wantAPICode: "InvalidArgument",
},
// Wrong crc32
8: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-crc32": "MTIzNA=="},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
wantAPICode: "XAmzContentChecksumMismatch",
},
// Correct crc32
9: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-crc32": checksumData(bytesData, crc32.New(crc32.IEEETable))},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
wantHeaders: map[string]string{"x-amz-checksum-crc32": checksumData(bytesData, crc32.New(crc32.IEEETable))},
},
// Correct crc32c
10: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-crc32c": checksumData(bytesData, crc32.New(crc32.MakeTable(crc32.Castagnoli)))},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
wantHeaders: map[string]string{"x-amz-checksum-crc32c": checksumData(bytesData, crc32.New(crc32.MakeTable(crc32.Castagnoli)))},
},
// CRC32 as CRC32C
11: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-crc32c": checksumData(bytesData, crc32.New(crc32.IEEETable))},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
wantAPICode: "XAmzContentChecksumMismatch",
},
// SHA1
12: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-sha1": checksumData(bytesData, sha1.New())},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
wantHeaders: map[string]string{"x-amz-checksum-sha1": checksumData(bytesData, sha1.New())},
},
// SHA256
13: {
bucketName: bucketName,
objectName: objectName,
headers: map[string]string{"x-amz-checksum-sha256": checksumData(bytesData, sha256.New())},
data: bytesData,
dataLen: len(bytesData),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
wantHeaders: map[string]string{"x-amz-checksum-sha256": checksumData(bytesData, sha256.New())},
},
}
// Iterating over the cases, fetching the object validating the response.
for i, testCase := range testCases {
var req, reqV2 *http.Request
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for Get Object end point.
req, err = newTestSignedRequestV4(http.MethodPut, getPutObjectURL("", testCase.bucketName, testCase.objectName),
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int64(testCase.dataLen), bytes.NewReader(testCase.data), testCase.accessKey, testCase.secretKey, testCase.headers)
if err != nil {
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t.Fatalf("Test %d: Failed to create HTTP request for Put Object: <ERROR> %v", i, err)
}
// Add test case specific headers to the request.
addCustomHeaders(req, testCase.headers)
// Inject faults if specified in testCase.fault
switch testCase.fault {
case MissingContentLength:
req.ContentLength = -1
req.TransferEncoding = []string{}
case TooBigObject:
req.ContentLength = globalMaxObjectSize + 1
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler,`func (api objectAPIHandlers) GetObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
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b, _ := io.ReadAll(rec.Body)
t.Fatalf("Test %d: Expected the response status to be `%d`, but instead found `%d`: %s", i, testCase.expectedRespStatus, rec.Code, string(b))
}
if testCase.expectedRespStatus != http.StatusOK {
b, err := io.ReadAll(rec.Body)
if err != nil {
t.Fatal(err)
}
var apiErr APIErrorResponse
err = xml.Unmarshal(b, &apiErr)
if err != nil {
t.Fatal(err)
}
gotErr := apiErr.Code
wantErr := testCase.wantAPICode
if gotErr != wantErr {
t.Errorf("test %d: want api error %q, got %q", i, wantErr, gotErr)
}
if testCase.wantHeaders != nil {
for k, v := range testCase.wantHeaders {
got := rec.Header().Get(k)
if got != v {
t.Errorf("Want header %s = %s, got %#v", k, v, rec.Header())
}
}
}
}
if testCase.expectedRespStatus == http.StatusOK {
buffer := new(bytes.Buffer)
// Fetch the object to check whether the content is same as the one uploaded via PutObject.
gr, err := obj.GetObjectNInfo(context.Background(), testCase.bucketName, testCase.objectName, nil, nil, opts)
if err != nil {
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t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i, instanceType, err)
}
if _, err = io.Copy(buffer, gr); err != nil {
gr.Close()
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t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i, instanceType, err)
}
gr.Close()
if !bytes.Equal(bytesData, buffer.Bytes()) {
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t.Errorf("Test %d: %s: Data Mismatch: Data fetched back from the uploaded object doesn't match the original one.", i, instanceType)
}
buffer.Reset()
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
// construct HTTP request for PUT Object endpoint.
reqV2, err = newTestSignedRequestV2(http.MethodPut, getPutObjectURL("", testCase.bucketName, testCase.objectName),
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int64(testCase.dataLen), bytes.NewReader(testCase.data), testCase.accessKey, testCase.secretKey, testCase.headers)
if err != nil {
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t.Fatalf("Test %d: %s: Failed to create HTTP request for PutObject: <ERROR> %v", i, instanceType, err)
}
// Add test case specific headers to the request.
addCustomHeaders(reqV2, testCase.headers)
// Inject faults if specified in testCase.fault
switch testCase.fault {
case MissingContentLength:
reqV2.ContentLength = -1
reqV2.TransferEncoding = []string{}
case TooBigObject:
reqV2.ContentLength = globalMaxObjectSize + 1
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
if recV2.Code != testCase.expectedRespStatus {
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b, _ := io.ReadAll(rec.Body)
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`: %s", i, instanceType, testCase.expectedRespStatus, recV2.Code, string(b))
}
if testCase.expectedRespStatus == http.StatusOK {
buffer := new(bytes.Buffer)
// Fetch the object to check whether the content is same as the one uploaded via PutObject.
gr, err := obj.GetObjectNInfo(context.Background(), testCase.bucketName, testCase.objectName, nil, nil, opts)
if err != nil {
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t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i, instanceType, err)
}
if _, err = io.Copy(buffer, gr); err != nil {
gr.Close()
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t.Fatalf("Test %d: %s: Failed to fetch the copied object: <ERROR> %s", i, instanceType, err)
}
gr.Close()
if !bytes.Equal(bytesData, buffer.Bytes()) {
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t.Errorf("Test %d: %s: Data Mismatch: Data fetched back from the uploaded object doesn't match the original one.", i, instanceType)
}
buffer.Reset()
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if testCase.wantHeaders != nil {
for k, v := range testCase.wantHeaders {
got := recV2.Header().Get(k)
if got != v {
t.Errorf("Want header %s = %s, got %#v", k, v, recV2.Header())
}
}
}
}
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodPut, getPutObjectURL("", bucketName, objectName),
int64(len("hello")), bytes.NewReader([]byte("hello")))
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIPutObjectHandler", bucketName, objectName, instanceType, apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, objectName))
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPut, getPutObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Tests sanity of attempting to copying each parts at offsets from an existing
// file and create a new object. Also validates if the written is same as what we
// expected.
func TestAPICopyObjectPartHandlerSanity(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPICopyObjectPartHandlerSanity, []string{"CopyObjectPart"})
}
func testAPICopyObjectPartHandlerSanity(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object"
var err error
opts := ObjectOptions{}
// set of byte data for PutObject.
// object has to be created before running tests for Copy Object.
// this is required even to assert the copied object,
bytesData := []struct {
byteData []byte
}{
{generateBytesData(6 * humanize.MiByte)},
}
// set of inputs for uploading the objects before tests for downloading is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
metaData map[string]string
}{
// case - 1.
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
// uploading the object.
_, err = obj.PutObject(context.Background(), input.bucketName, input.objectName,
mustGetPutObjReader(t, bytes.NewReader(input.textData), input.contentLength, input.metaData[""], ""), ObjectOptions{UserDefined: input.metaData})
// if object upload fails stop the test.
if err != nil {
t.Fatalf("Put Object case %d: Error uploading object: <ERROR> %v", i+1, err)
}
}
// Initiate Multipart upload for testing PutObjectPartHandler.
testObject := "testobject"
// PutObjectPart API HTTP Handler has to be tested in isolation,
// that is without any other handler being registered,
// That's why NewMultipartUpload is initiated using ObjectLayer.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, testObject, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadID := res.UploadID
a := 0
b := globalMinPartSize
var parts []CompletePart
for partNumber := 1; partNumber <= 2; partNumber++ {
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
cpPartURL := getCopyObjectPartURL("", bucketName, testObject, uploadID, fmt.Sprintf("%d", partNumber))
// construct HTTP request for copy object.
var req *http.Request
req, err = newTestSignedRequestV4(http.MethodPut, cpPartURL, 0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Test failed to create HTTP request for copy object part: <ERROR> %v", err)
}
// "X-Amz-Copy-Source" header contains the information about the source bucket and the object to copied.
req.Header.Set("X-Amz-Copy-Source", url.QueryEscape(pathJoin(bucketName, objectName)))
req.Header.Set("X-Amz-Copy-Source-Range", fmt.Sprintf("bytes=%d-%d", a, b))
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler, `func (api objectAPIHandlers) CopyObjectHandler` handles the request.
a = globalMinPartSize + 1
b = len(bytesData[0].byteData) - 1
apiRouter.ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Fatalf("Test failed to create HTTP request for copy %d", rec.Code)
}
resp := &CopyObjectPartResponse{}
if err = xmlDecoder(rec.Body, resp, rec.Result().ContentLength); err != nil {
t.Fatalf("Test failed to decode XML response: <ERROR> %v", err)
}
parts = append(parts, CompletePart{
PartNumber: partNumber,
ETag: canonicalizeETag(resp.ETag),
})
}
result, err := obj.CompleteMultipartUpload(context.Background(), bucketName, testObject, uploadID, parts, ObjectOptions{})
if err != nil {
t.Fatalf("Test: %s complete multipart upload failed: <ERROR> %v", instanceType, err)
}
if result.Size != int64(len(bytesData[0].byteData)) {
t.Fatalf("Test: %s expected size not written: expected %d, got %d", instanceType, len(bytesData[0].byteData), result.Size)
}
var buf bytes.Buffer
r, err := obj.GetObjectNInfo(context.Background(), bucketName, testObject, nil, nil, ObjectOptions{})
if err != nil {
t.Fatalf("Test: %s reading completed file failed: <ERROR> %v", instanceType, err)
}
if _, err = io.Copy(&buf, r); err != nil {
r.Close()
t.Fatalf("Test %s: Failed to fetch the copied object: <ERROR> %s", instanceType, err)
}
r.Close()
if !bytes.Equal(buf.Bytes(), bytesData[0].byteData) {
t.Fatalf("Test: %s returned data is not expected corruption detected:", instanceType)
}
}
// Wrapper for calling Copy Object Part API handler tests for both Erasure multiple disks and single node setup.
func TestAPICopyObjectPartHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPICopyObjectPartHandler, []string{"CopyObjectPart"})
}
func testAPICopyObjectPartHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object"
var err error
opts := ObjectOptions{}
// set of byte data for PutObject.
// object has to be created before running tests for Copy Object.
// this is required even to assert the copied object,
bytesData := []struct {
byteData []byte
}{
{generateBytesData(6 * humanize.KiByte)},
}
// set of inputs for uploading the objects before tests for downloading is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
metaData map[string]string
}{
// case - 1.
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
// uploading the object.
_, err = obj.PutObject(context.Background(), input.bucketName, input.objectName, mustGetPutObjReader(t, bytes.NewReader(input.textData), input.contentLength, input.metaData[""], ""), ObjectOptions{UserDefined: input.metaData})
// if object upload fails stop the test.
if err != nil {
t.Fatalf("Put Object case %d: Error uploading object: <ERROR> %v", i+1, err)
}
}
// Initiate Multipart upload for testing PutObjectPartHandler.
testObject := "testobject"
// PutObjectPart API HTTP Handler has to be tested in isolation,
// that is without any other handler being registered,
// That's why NewMultipartUpload is initiated using ObjectLayer.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, testObject, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadID := res.UploadID
// test cases with inputs and expected result for Copy Object.
testCases := []struct {
bucketName string
copySourceHeader string // data for "X-Amz-Copy-Source" header. Contains the object to be copied in the URL.
copySourceRange string // data for "X-Amz-Copy-Source-Range" header, contains the byte range offsets of data to be copied.
uploadID string // uploadID of the transaction.
invalidPartNumber bool // Sets an invalid multipart.
maximumPartNumber bool // Sets a maximum parts.
accessKey string
secretKey string
// expected output.
expectedRespStatus int
}{
// Test case - 1, copy part 1 from newObject1, ignore request headers.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 2.
// Test case with invalid source object.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 3.
// Test case with new object name is same as object to be copied.
// Fail with file not found.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + testObject),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 4.
// Test case with valid byte range.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copySourceRange: "bytes=500-4096",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 5.
// Test case with invalid byte range.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copySourceRange: "bytes=6145-",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 6.
// Test case with invalid byte range for exceeding source size boundaries.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copySourceRange: "bytes=0-6144",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 7.
// Test case with object name missing from source.
// fail with BadRequest.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape("//123"),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 8.
// Test case with non-existent source file.
// Case for the purpose of failing `api.ObjectAPI.GetObjectInfo`.
// Expecting the response status code to http.StatusNotFound (404).
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + "non-existent-object"),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 9.
// Test case with non-existent source file.
// Case for the purpose of failing `api.ObjectAPI.PutObjectPart`.
// Expecting the response status code to http.StatusNotFound (404).
{
bucketName: "non-existent-destination-bucket",
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 10.
// Case with invalid AccessKey.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
},
// Test case - 11.
// Case with non-existent upload id.
{
bucketName: bucketName,
uploadID: "-1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 12.
// invalid part number.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
invalidPartNumber: true,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 13.
// maximum part number.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
maximumPartNumber: true,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 14, copy part 1 from newObject1 with null versionId
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator+bucketName+SlashSeparator+objectName) + "?versionId=null",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 15, copy part 1 from newObject1 with non null versionId
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator+bucketName+SlashSeparator+objectName) + "?versionId=17",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 16, Test case with invalid byte range empty value.
{
bucketName: bucketName,
uploadID: uploadID,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copySourceRange: "empty",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
}
for i, testCase := range testCases {
var req *http.Request
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
switch {
case !testCase.invalidPartNumber || !testCase.maximumPartNumber:
// construct HTTP request for copy object.
req, err = newTestSignedRequestV4(http.MethodPut, getCopyObjectPartURL("", testCase.bucketName, testObject, testCase.uploadID, "1"), 0, nil, testCase.accessKey, testCase.secretKey, nil)
case testCase.invalidPartNumber:
req, err = newTestSignedRequestV4(http.MethodPut, getCopyObjectPartURL("", testCase.bucketName, testObject, testCase.uploadID, "abc"), 0, nil, testCase.accessKey, testCase.secretKey, nil)
case testCase.maximumPartNumber:
req, err = newTestSignedRequestV4(http.MethodPut, getCopyObjectPartURL("", testCase.bucketName, testObject, testCase.uploadID, "99999"), 0, nil, testCase.accessKey, testCase.secretKey, nil)
}
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for copy Object: <ERROR> %v", i+1, err)
}
// "X-Amz-Copy-Source" header contains the information about the source bucket and the object to copied.
if testCase.copySourceHeader != "" {
req.Header.Set("X-Amz-Copy-Source", testCase.copySourceHeader)
}
if testCase.copySourceRange != "" {
if testCase.copySourceRange == "empty" {
req.Header.Set("X-Amz-Copy-Source-Range", "") // specifically test for S3 errors in this scenario.
} else {
req.Header.Set("X-Amz-Copy-Source-Range", testCase.copySourceRange)
}
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler, `func (api objectAPIHandlers) CopyObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Fatalf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, rec.Code)
}
if rec.Code == http.StatusOK {
// See if the new part has been uploaded.
// testing whether the copy was successful.
var results ListPartsInfo
results, err = obj.ListObjectParts(context.Background(), testCase.bucketName, testObject, testCase.uploadID, 0, 1, ObjectOptions{})
if err != nil {
t.Fatalf("Test %d: %s: Failed to look for copied object part: <ERROR> %s", i+1, instanceType, err)
}
if len(results.Parts) != 1 {
t.Fatalf("Test %d: %s: Expected only one entry returned %d entries", i+1, instanceType, len(results.Parts))
}
}
}
// HTTP request for testing when `ObjectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPut, getCopyObjectPartURL("", nilBucket, nilObject, "0", "0"),
0, bytes.NewReader([]byte("testNilObjLayer")), "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create http request for testing the response when object Layer is set to `nil`.", instanceType)
}
// Below is how CopyObjectPartHandler is registered.
// bucket.Methods(http.MethodPut).Path("/{object:.+}").HeadersRegexp("X-Amz-Copy-Source", ".*?(\\/|%2F).*?").HandlerFunc(api.CopyObjectPartHandler).Queries("partNumber", "{partNumber:[0-9]+}", "uploadId", "{uploadId:.*}")
// Its necessary to set the "X-Amz-Copy-Source" header for the request to be accepted by the handler.
nilReq.Header.Set("X-Amz-Copy-Source", url.QueryEscape(SlashSeparator+nilBucket+SlashSeparator+nilObject))
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling Copy Object API handler tests for both Erasure multiple disks and single node setup.
func TestAPICopyObjectHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPICopyObjectHandler, []string{"CopyObject", "PutObject"})
}
func testAPICopyObjectHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test?object" // use file with ? to test URL parsing...
if runtime.GOOS == "windows" {
objectName = "test-object" // ...except on Windows
}
// object used for anonymous HTTP request test.
anonObject := "anon-object"
var err error
opts := ObjectOptions{}
// set of byte data for PutObject.
2016-10-04 03:09:21 -04:00
// object has to be created before running tests for Copy Object.
// this is required even to assert the copied object,
bytesData := []struct {
byteData []byte
md5sum string
}{
{byteData: generateBytesData(6 * humanize.KiByte)},
}
h := md5.New()
h.Write(bytesData[0].byteData)
bytesData[0].md5sum = hex.EncodeToString(h.Sum(nil))
buffers := []*bytes.Buffer{
new(bytes.Buffer),
new(bytes.Buffer),
}
bucketInfo, err := obj.GetBucketInfo(context.Background(), bucketName, BucketOptions{})
if err != nil {
t.Fatalf("Test -1: %s: Failed to get bucket info: <ERROR> %s", instanceType, err)
}
// set of inputs for uploading the objects before tests for downloading is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
md5sum string
metaData map[string]string
}{
// case - 1.
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, bytesData[0].md5sum, make(map[string]string)},
// case - 2.
// used for anonymous HTTP request test.
{bucketName, anonObject, int64(len(bytesData[0].byteData)), bytesData[0].byteData, bytesData[0].md5sum, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
rec := httptest.NewRecorder()
req, err := newTestSignedRequestV4(http.MethodPut, getPutObjectURL("", input.bucketName, input.objectName),
input.contentLength, bytes.NewReader(input.textData), credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for Put Object: <ERROR> %v", i, err)
}
apiRouter.ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
b, err := io.ReadAll(rec.Body)
if err != nil {
t.Fatal(err)
}
var apiErr APIErrorResponse
err = xml.Unmarshal(b, &apiErr)
if err != nil {
t.Fatal(err)
}
gotErr := apiErr.Code
t.Errorf("test %d: want api got %q", i, gotErr)
}
}
// test cases with inputs and expected result for Copy Object.
testCases := []struct {
bucketName string
newObjectName string // name of the newly copied object.
copySourceHeader string // data for "X-Amz-Copy-Source" header. Contains the object to be copied in the URL.
copyModifiedHeader string // data for "X-Amz-Copy-Source-If-Modified-Since" header
copyUnmodifiedHeader string // data for "X-Amz-Copy-Source-If-Unmodified-Since" header
copySourceSame bool
metadataGarbage bool
metadataReplace bool
metadataCopy bool
metadata map[string]string
accessKey string
secretKey string
// expected output.
expectedRespStatus int
}{
0: {
expectedRespStatus: http.StatusMethodNotAllowed,
},
// Test case - 1, copy metadata from newObject1, ignore request headers.
1: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
metadata: map[string]string{
"Content-Type": "application/json",
},
expectedRespStatus: http.StatusOK,
},
// Test case - 2.
// Test case with invalid source object.
2: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 3.
// Test case with invalid source object.
3: {
bucketName: bucketName,
newObjectName: "dir//newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 4.
// Test case with new object name is same as object to be copied.
4: {
bucketName: bucketName,
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
copySourceSame: true,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 5.
// Test case with new object name is same as object to be copied.
// But source copy is without leading slash
5: {
bucketName: bucketName,
newObjectName: objectName,
copySourceSame: true,
copySourceHeader: url.QueryEscape(bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 6.
// Test case with new object name is same as object to be copied
// but metadata is updated.
6: {
bucketName: bucketName,
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
metadata: map[string]string{
"Content-Type": "application/json",
},
metadataReplace: true,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 7.
// Test case with invalid metadata-directive.
7: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
metadata: map[string]string{
"Content-Type": "application/json",
},
metadataGarbage: true,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 8.
// Test case with new object name is same as object to be copied
// fail with BadRequest.
8: {
bucketName: bucketName,
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
metadata: map[string]string{
"Content-Type": "application/json",
},
copySourceSame: true,
metadataCopy: true,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 9.
// Test case with non-existent source file.
// Case for the purpose of failing `api.ObjectAPI.GetObjectInfo`.
// Expecting the response status code to http.StatusNotFound (404).
9: {
bucketName: bucketName,
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + "non-existent-object"),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 10.
// Test case with non-existent source file.
// Case for the purpose of failing `api.ObjectAPI.PutObject`.
// Expecting the response status code to http.StatusNotFound (404).
10: {
bucketName: "non-existent-destination-bucket",
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 11.
// Case with invalid AccessKey.
11: {
bucketName: bucketName,
newObjectName: objectName,
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
},
// Test case - 12, copy metadata from newObject1 with satisfying modified header.
12: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyModifiedHeader: "Mon, 02 Jan 2006 15:04:05 GMT",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 13, copy metadata from newObject1 with unsatisfying modified header.
13: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyModifiedHeader: "Mon, 02 Jan 2217 15:04:05 GMT",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusPreconditionFailed,
},
// Test case - 14, copy metadata from newObject1 with wrong modified header format
14: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyModifiedHeader: "Mon, 02 Jan 2217 15:04:05 +00:00",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 15, copy metadata from newObject1 with satisfying unmodified header.
15: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyUnmodifiedHeader: "Mon, 02 Jan 2217 15:04:05 GMT",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 16, copy metadata from newObject1 with unsatisfying unmodified header.
16: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyUnmodifiedHeader: "Mon, 02 Jan 2007 15:04:05 GMT",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusPreconditionFailed,
},
// Test case - 17, copy metadata from newObject1 with incorrect unmodified header format.
17: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator + bucketName + SlashSeparator + objectName),
copyUnmodifiedHeader: "Mon, 02 Jan 2007 15:04:05 +00:00",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 18, copy metadata from newObject1 with null versionId
18: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator+bucketName+SlashSeparator+objectName) + "?versionId=null",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusOK,
},
// Test case - 19, copy metadata from newObject1 with non null versionId
19: {
bucketName: bucketName,
newObjectName: "newObject1",
copySourceHeader: url.QueryEscape(SlashSeparator+bucketName+SlashSeparator+objectName) + "?versionId=17",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
}
for i, testCase := range testCases {
if bucketInfo.Versioning {
if strings.Contains(testCase.copySourceHeader, "versionId=null") {
testCase.expectedRespStatus = http.StatusNotFound
}
}
values := url.Values{}
if testCase.expectedRespStatus == http.StatusOK {
r, err := obj.GetObjectNInfo(context.Background(), testCase.bucketName, objectName, nil, nil, opts)
if err != nil {
t.Fatalf("Test %d: %s reading completed file failed: <ERROR> %v", i, instanceType, err)
}
r.Close()
if r.ObjInfo.VersionID != "" {
values.Set(xhttp.VersionID, r.ObjInfo.VersionID)
}
}
var req *http.Request
var reqV2 *http.Request
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for copy object.
req, err = newTestSignedRequestV4(http.MethodPut, getCopyObjectURL("", testCase.bucketName, testCase.newObjectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for copy Object: <ERROR> %v", i, err)
}
// "X-Amz-Copy-Source" header contains the information about the source bucket and the object to copied.
if testCase.copySourceHeader != "" {
if values.Encode() != "" && !strings.Contains(testCase.copySourceHeader, "?") {
req.Header.Set("X-Amz-Copy-Source", testCase.copySourceHeader+"?"+values.Encode())
} else {
req.Header.Set("X-Amz-Copy-Source", testCase.copySourceHeader)
}
}
if testCase.copyModifiedHeader != "" {
req.Header.Set("X-Amz-Copy-Source-If-Modified-Since", testCase.copyModifiedHeader)
}
if testCase.copyUnmodifiedHeader != "" {
req.Header.Set("X-Amz-Copy-Source-If-Unmodified-Since", testCase.copyUnmodifiedHeader)
}
// Add custom metadata.
for k, v := range testCase.metadata {
req.Header.Set(k, v)
}
if testCase.metadataReplace {
req.Header.Set("X-Amz-Metadata-Directive", "REPLACE")
}
if testCase.metadataCopy {
req.Header.Set("X-Amz-Metadata-Directive", "COPY")
}
if testCase.metadataGarbage {
req.Header.Set("X-Amz-Metadata-Directive", "Unknown")
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler, `func (api objectAPIHandlers) CopyObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
if testCase.copySourceSame {
// encryption will rotate creds, so fail only for non-encryption scenario.
if GlobalKMS == nil {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i, instanceType, testCase.expectedRespStatus, rec.Code)
continue
}
} else {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i, instanceType, testCase.expectedRespStatus, rec.Code)
continue
}
}
if rec.Code == http.StatusOK {
var cpObjResp CopyObjectResponse
if err = xml.Unmarshal(rec.Body.Bytes(), &cpObjResp); err != nil {
t.Fatalf("Test %d: %s: Failed to parse the CopyObjectResult response: <ERROR> %s", i, instanceType, err)
}
// See if the new object is formed.
// testing whether the copy was successful.
// Note that this goes directly to the file system,
// so encryption/compression may interfere at some point.
buffers[0].Reset()
r, err := obj.GetObjectNInfo(context.Background(), testCase.bucketName, testCase.newObjectName, nil, nil, opts)
if err != nil {
t.Fatalf("Test %d: %s reading completed file failed: <ERROR> %v", i, instanceType, err)
}
if _, err = io.Copy(buffers[0], r); err != nil {
r.Close()
t.Fatalf("Test %d %s: Failed to fetch the copied object: <ERROR> %s", i, instanceType, err)
}
r.Close()
if !bytes.Equal(bytesData[0].byteData, buffers[0].Bytes()) {
t.Errorf("Test %d: %s: Data Mismatch: Data fetched back from the copied object doesn't match the original one.", i, instanceType)
}
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
reqV2, err = newTestRequest(http.MethodPut, getCopyObjectURL("", testCase.bucketName, testCase.newObjectName), 0, nil)
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for copy Object: <ERROR> %v", i, err)
}
// "X-Amz-Copy-Source" header contains the information about the source bucket and the object to copied.
if testCase.copySourceHeader != "" {
reqV2.Header.Set("X-Amz-Copy-Source", testCase.copySourceHeader)
}
if testCase.copyModifiedHeader != "" {
reqV2.Header.Set("X-Amz-Copy-Source-If-Modified-Since", testCase.copyModifiedHeader)
}
if testCase.copyUnmodifiedHeader != "" {
reqV2.Header.Set("X-Amz-Copy-Source-If-Unmodified-Since", testCase.copyUnmodifiedHeader)
}
// Add custom metadata.
for k, v := range testCase.metadata {
reqV2.Header.Set(k, v+"+x")
}
if testCase.metadataReplace {
reqV2.Header.Set("X-Amz-Metadata-Directive", "REPLACE")
}
if testCase.metadataCopy {
reqV2.Header.Set("X-Amz-Metadata-Directive", "COPY")
}
if testCase.metadataGarbage {
reqV2.Header.Set("X-Amz-Metadata-Directive", "Unknown")
}
err = signRequestV2(reqV2, testCase.accessKey, testCase.secretKey)
if err != nil {
t.Fatalf("Failed to V2 Sign the HTTP request: %v.", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
if recV2.Code != testCase.expectedRespStatus {
if testCase.copySourceSame {
// encryption will rotate creds, so fail only for non-encryption scenario.
if GlobalKMS == nil {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i, instanceType, testCase.expectedRespStatus, recV2.Code)
}
} else {
t.Errorf("Test %d: %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, recV2.Code)
}
}
}
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPut, getCopyObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
// Below is how CopyObjectHandler is registered.
// bucket.Methods(http.MethodPut).Path("/{object:.+}").HeadersRegexp("X-Amz-Copy-Source", ".*?(\\/|%2F).*?")
// Its necessary to set the "X-Amz-Copy-Source" header for the request to be accepted by the handler.
nilReq.Header.Set("X-Amz-Copy-Source", url.QueryEscape(SlashSeparator+nilBucket+SlashSeparator+nilObject))
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling NewMultipartUpload tests for both Erasure multiple disks and single node setup.
// First register the HTTP handler for NewMultipartUpload, then a HTTP request for NewMultipart upload is made.
2016-10-04 03:09:21 -04:00
// The UploadID from the response body is parsed and its existence is asserted with an attempt to ListParts using it.
func TestAPINewMultipartHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPINewMultipartHandler, endpoints: []string{"NewMultipart"}})
}
func testAPINewMultipartHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
objectName := "test-object-new-multipart"
rec := httptest.NewRecorder()
// construct HTTP request for NewMultipart upload.
req, err := newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", bucketName, objectName),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for NewMultipart Request: <ERROR> %v", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to executes the registered handler.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != http.StatusOK {
t.Fatalf("%s: Expected the response status to be `%d`, but instead found `%d`", instanceType, http.StatusOK, rec.Code)
}
// decode the response body.
decoder := xml.NewDecoder(rec.Body)
multipartResponse := &InitiateMultipartUploadResponse{}
err = decoder.Decode(multipartResponse)
if err != nil {
t.Fatalf("Error decoding the recorded response Body")
}
// verify the uploadID my making an attempt to list parts.
_, err = obj.ListObjectParts(context.Background(), bucketName, objectName, multipartResponse.UploadID, 0, 1, ObjectOptions{})
if err != nil {
t.Fatalf("Invalid UploadID: <ERROR> %s", err)
}
// Testing the response for Invalid AccessID.
// Forcing the signature check to fail.
rec = httptest.NewRecorder()
// construct HTTP request for NewMultipart upload.
// Setting an invalid accessID.
req, err = newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", bucketName, objectName),
0, nil, "Invalid-AccessID", credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for NewMultipart Request: <ERROR> %v", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP method to execute the logic of the handler.
// Call the ServeHTTP to executes the registered handler.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != http.StatusForbidden {
t.Fatalf("%s: Expected the response status to be `%d`, but instead found `%d`", instanceType, http.StatusForbidden, rec.Code)
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
// construct HTTP request for NewMultipartUpload endpoint.
reqV2, err := newTestSignedRequestV2(http.MethodPost, getNewMultipartURL("", bucketName, objectName),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for NewMultipart Request: <ERROR> %v", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
// Assert the response code with the expected status.
if recV2.Code != http.StatusOK {
t.Fatalf("%s: Expected the response status to be `%d`, but instead found `%d`", instanceType, http.StatusOK, recV2.Code)
}
// decode the response body.
decoder = xml.NewDecoder(recV2.Body)
multipartResponse = &InitiateMultipartUploadResponse{}
err = decoder.Decode(multipartResponse)
if err != nil {
t.Fatalf("Error decoding the recorded response Body")
}
// verify the uploadID my making an attempt to list parts.
_, err = obj.ListObjectParts(context.Background(), bucketName, objectName, multipartResponse.UploadID, 0, 1, ObjectOptions{})
if err != nil {
t.Fatalf("Invalid UploadID: <ERROR> %s", err)
}
// Testing the response for invalid AccessID.
// Forcing the V2 signature check to fail.
recV2 = httptest.NewRecorder()
// construct HTTP request for NewMultipartUpload endpoint.
// Setting invalid AccessID.
reqV2, err = newTestSignedRequestV2(http.MethodPost, getNewMultipartURL("", bucketName, objectName),
0, nil, "Invalid-AccessID", credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for NewMultipart Request: <ERROR> %v", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
// Assert the response code with the expected status.
if recV2.Code != http.StatusForbidden {
t.Fatalf("%s: Expected the response status to be `%d`, but instead found `%d`", instanceType, http.StatusForbidden, recV2.Code)
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodPost, getNewMultipartURL("", bucketName, objectName), 0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPINewMultipartHandler", bucketName, objectName, instanceType, apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, objectName))
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling NewMultipartUploadParallel tests for both Erasure multiple disks and single node setup.
// The objective of the test is to initialte multipart upload on the same object 10 times concurrently,
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// The UploadID from the response body is parsed and its existence is asserted with an attempt to ListParts using it.
func TestAPINewMultipartHandlerParallel(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPINewMultipartHandlerParallel, endpoints: []string{"NewMultipart"}})
}
func testAPINewMultipartHandlerParallel(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
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credentials auth.Credentials, t *testing.T,
) {
// used for storing the uploadID's parsed on concurrent HTTP requests for NewMultipart upload on the same object.
testUploads := struct {
sync.Mutex
uploads []string
}{}
objectName := "test-object-new-multipart-parallel"
var wg sync.WaitGroup
for i := 0; i < 10; i++ {
wg.Add(1)
// Initiate NewMultipart upload on the same object 10 times concurrrently.
go func() {
defer wg.Done()
rec := httptest.NewRecorder()
// construct HTTP request NewMultipartUpload.
req, err := newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", bucketName, objectName), 0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Errorf("Failed to create HTTP request for NewMultipart request: <ERROR> %v", err)
return
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to executes the registered handler.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != http.StatusOK {
t.Errorf("MinIO %s: Expected the response status to be `%d`, but instead found `%d`", instanceType, http.StatusOK, rec.Code)
return
}
// decode the response body.
decoder := xml.NewDecoder(rec.Body)
multipartResponse := &InitiateMultipartUploadResponse{}
err = decoder.Decode(multipartResponse)
if err != nil {
t.Errorf("MinIO %s: Error decoding the recorded response Body", instanceType)
return
}
// push the obtained upload ID from the response into the array.
testUploads.Lock()
testUploads.uploads = append(testUploads.uploads, multipartResponse.UploadID)
testUploads.Unlock()
}()
}
// Wait till all go routines finishes execution.
wg.Wait()
// Validate the upload ID by an attempt to list parts using it.
for _, uploadID := range testUploads.uploads {
_, err := obj.ListObjectParts(context.Background(), bucketName, objectName, uploadID, 0, 1, ObjectOptions{})
if err != nil {
t.Fatalf("Invalid UploadID: <ERROR> %s", err)
}
}
}
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// The UploadID from the response body is parsed and its existence is asserted with an attempt to ListParts using it.
func TestAPICompleteMultipartHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPICompleteMultipartHandler, endpoints: []string{"CompleteMultipart"}})
}
func testAPICompleteMultipartHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
var err error
var opts ObjectOptions
// object used for the test.
objectName := "test-object-new-multipart"
// upload IDs collected.
var uploadIDs []string
for i := 0; i < 2; i++ {
// initiate new multipart uploadID.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, objectName, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadIDs = append(uploadIDs, res.UploadID)
}
// Parts with size greater than 5 MiB.
// Generating a 6 MiB byte array.
validPart := bytes.Repeat([]byte("abcdef"), 1*humanize.MiByte)
validPartMD5 := getMD5Hash(validPart)
// Create multipart parts.
// Need parts to be uploaded before CompleteMultiPartUpload can be called tested.
parts := []struct {
bucketName string
objName string
uploadID string
PartID int
inputReaderData string
inputMd5 string
inputDataSize int64
}{
// Case 1-4.
// Creating sequence of parts for same uploadID.
{bucketName, objectName, uploadIDs[0], 1, "abcd", "e2fc714c4727ee9395f324cd2e7f331f", int64(len("abcd"))},
{bucketName, objectName, uploadIDs[0], 2, "efgh", "1f7690ebdd9b4caf8fab49ca1757bf27", int64(len("efgh"))},
{bucketName, objectName, uploadIDs[0], 3, "ijkl", "09a0877d04abf8759f99adec02baf579", int64(len("abcd"))},
{bucketName, objectName, uploadIDs[0], 4, "mnop", "e132e96a5ddad6da8b07bba6f6131fef", int64(len("abcd"))},
// Part with size larger than 5 MiB.
{bucketName, objectName, uploadIDs[0], 5, string(validPart), validPartMD5, int64(len(validPart))},
{bucketName, objectName, uploadIDs[0], 6, string(validPart), validPartMD5, int64(len(validPart))},
// Part with size larger than 5 MiB.
// Parts uploaded for anonymous/unsigned API handler test.
{bucketName, objectName, uploadIDs[1], 1, string(validPart), validPartMD5, int64(len(validPart))},
{bucketName, objectName, uploadIDs[1], 2, string(validPart), validPartMD5, int64(len(validPart))},
}
// Iterating over creatPartCases to generate multipart chunks.
for _, part := range parts {
_, err = obj.PutObjectPart(context.Background(), part.bucketName, part.objName, part.uploadID, part.PartID,
mustGetPutObjReader(t, strings.NewReader(part.inputReaderData), part.inputDataSize, part.inputMd5, ""), opts)
if err != nil {
t.Fatalf("%s : %s", instanceType, err)
}
}
// Parts to be sent as input for CompleteMultipartUpload.
inputParts := []struct {
parts []CompletePart
}{
// inputParts - 0.
// Case for replicating ETag mismatch.
{
[]CompletePart{
{ETag: "abcd", PartNumber: 1},
},
},
// inputParts - 1.
// should error out with part too small.
{
[]CompletePart{
{ETag: "e2fc714c4727ee9395f324cd2e7f331f", PartNumber: 1},
{ETag: "1f7690ebdd9b4caf8fab49ca1757bf27", PartNumber: 2},
},
},
// inputParts - 2.
// Case with invalid Part number.
{
[]CompletePart{
{ETag: "e2fc714c4727ee9395f324cd2e7f331f", PartNumber: 10},
},
},
// inputParts - 3.
// Case with valid parts,but parts are unsorted.
// Part size greater than 5 MiB.
{
[]CompletePart{
{ETag: validPartMD5, PartNumber: 6},
{ETag: validPartMD5, PartNumber: 5},
},
},
// inputParts - 4.
// Case with valid part.
// Part size greater than 5 MiB.
{
[]CompletePart{
{ETag: validPartMD5, PartNumber: 5},
{ETag: validPartMD5, PartNumber: 6},
},
},
// inputParts - 5.
// Used for the case of testing for anonymous API request.
// Part size greater than 5 MiB.
{
[]CompletePart{
{ETag: validPartMD5, PartNumber: 1},
{ETag: validPartMD5, PartNumber: 2},
},
},
}
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// on successful complete multipart operation the s3MD5 for the parts uploaded will be returned.
s3MD5 := getCompleteMultipartMD5(inputParts[3].parts)
// generating the response body content for the success case.
successResponse := generateCompleteMultipartUploadResponse(bucketName, objectName, getGetObjectURL("", bucketName, objectName), ObjectInfo{ETag: s3MD5}, nil)
encodedSuccessResponse := encodeResponse(successResponse)
ctx := context.Background()
testCases := []struct {
bucket string
object string
uploadID string
parts []CompletePart
accessKey string
secretKey string
// Expected output of CompleteMultipartUpload.
expectedContent []byte
// Expected HTTP Response status.
expectedRespStatus int
}{
// Test case - 1.
// Upload and PartNumber exists, But a deliberate ETag mismatch is introduced.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[0].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
toAPIError(ctx, InvalidPart{}),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 2.
// No parts specified in CompletePart{}.
// Should return ErrMalformedXML in the response body.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: []CompletePart{},
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrMalformedXML),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 3.
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// Non-Existent uploadID.
// 404 Not Found response status expected.
{
bucket: bucketName,
object: objectName,
uploadID: "abc",
parts: inputParts[0].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
toAPIError(ctx, InvalidUploadID{UploadID: "abc"}),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusNotFound,
},
// Test case - 4.
// Case with part size being less than minimum allowed size.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[1].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
toAPIError(ctx, PartTooSmall{PartNumber: 1}),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 5.
// TestCase with invalid Part Number.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[2].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
toAPIError(ctx, InvalidPart{}),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 6.
// Parts are not sorted according to the part number.
// This should return ErrInvalidPartOrder in the response body.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[3].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidPartOrder),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusBadRequest,
},
// Test case - 7.
// Test case with proper parts.
// Should succeeded and the content in the response body is asserted.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[4].parts,
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedContent: encodeResponse(getAPIErrorResponse(ctx,
getAPIError(ErrInvalidAccessKeyID),
getGetObjectURL("", bucketName, objectName), "", "")),
expectedRespStatus: http.StatusForbidden,
},
// Test case - 8.
// Test case with proper parts.
// Should succeeded and the content in the response body is asserted.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
parts: inputParts[4].parts,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedContent: encodedSuccessResponse,
expectedRespStatus: http.StatusOK,
},
}
for i, testCase := range testCases {
var req *http.Request
var completeBytes, actualContent []byte
// Complete multipart upload parts.
completeUploads := &CompleteMultipartUpload{
Parts: testCase.parts,
}
completeBytes, err = xml.Marshal(completeUploads)
if err != nil {
t.Fatalf("Error XML encoding of parts: <ERROR> %s.", err)
}
// Indicating that all parts are uploaded and initiating CompleteMultipartUpload.
req, err = newTestSignedRequestV4(http.MethodPost, getCompleteMultipartUploadURL("", bucketName, objectName, testCase.uploadID),
int64(len(completeBytes)), bytes.NewReader(completeBytes), testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for CompleteMultipartUpload: <ERROR> %v", err)
}
rec := httptest.NewRecorder()
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to executes the registered handler.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Errorf("Case %d: MinIO %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, rec.Code)
}
// read the response body.
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actualContent, err = io.ReadAll(rec.Body)
if err != nil {
t.Fatalf("Test %d : MinIO %s: Failed parsing response body: <ERROR> %v", i+1, instanceType, err)
}
if rec.Code == http.StatusOK {
// Verify whether the bucket obtained object is same as the one created.
if !bytes.Equal(testCase.expectedContent, actualContent) {
t.Errorf("Test %d : MinIO %s: CompleteMultipart response content differs from expected value. got %s, expected %s", i+1, instanceType,
string(actualContent), string(testCase.expectedContent))
}
continue
}
actualError := &APIErrorResponse{}
if err = xml.Unmarshal(actualContent, actualError); err != nil {
t.Errorf("MinIO %s: error response failed to parse error XML", instanceType)
}
if actualError.BucketName != bucketName {
t.Errorf("MinIO %s: error response bucket name differs from expected value", instanceType)
}
if actualError.Key != objectName {
t.Errorf("MinIO %s: error response object name (%s) differs from expected value (%s)", instanceType, actualError.Key, objectName)
}
}
// Testing for anonymous API request.
var completeBytes []byte
// Complete multipart upload parts.
completeUploads := &CompleteMultipartUpload{
Parts: inputParts[5].parts,
}
completeBytes, err = xml.Marshal(completeUploads)
if err != nil {
t.Fatalf("Error XML encoding of parts: <ERROR> %s.", err)
}
// create unsigned HTTP request for CompleteMultipart upload.
anonReq, err := newTestRequest(http.MethodPost, getCompleteMultipartUploadURL("", bucketName, objectName, uploadIDs[1]),
int64(len(completeBytes)), bytes.NewReader(completeBytes))
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPICompleteMultipartHandler", bucketName, objectName, instanceType,
apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, objectName))
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
// Indicating that all parts are uploaded and initiating CompleteMultipartUpload.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPost, getCompleteMultipartUploadURL("", nilBucket, nilObject, "dummy-uploadID"),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// The UploadID from the response body is parsed and its existence is asserted with an attempt to ListParts using it.
func TestAPIAbortMultipartHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPIAbortMultipartHandler, endpoints: []string{"AbortMultipart"}})
}
func testAPIAbortMultipartHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
var err error
opts := ObjectOptions{}
// object used for the test.
objectName := "test-object-new-multipart"
// upload IDs collected.
var uploadIDs []string
for i := 0; i < 2; i++ {
// initiate new multipart uploadID.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, objectName, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadIDs = append(uploadIDs, res.UploadID)
}
// Parts with size greater than 5 MiB.
// Generating a 6 MiB byte array.
validPart := bytes.Repeat([]byte("abcdef"), 1*humanize.MiByte)
validPartMD5 := getMD5Hash(validPart)
// Create multipart parts.
// Need parts to be uploaded before AbortMultiPartUpload can be called tested.
parts := []struct {
bucketName string
objName string
uploadID string
PartID int
inputReaderData string
inputMd5 string
inputDataSize int64
}{
// Case 1-4.
// Creating sequence of parts for same uploadID.
{bucketName, objectName, uploadIDs[0], 1, "abcd", "e2fc714c4727ee9395f324cd2e7f331f", int64(len("abcd"))},
{bucketName, objectName, uploadIDs[0], 2, "efgh", "1f7690ebdd9b4caf8fab49ca1757bf27", int64(len("efgh"))},
{bucketName, objectName, uploadIDs[0], 3, "ijkl", "09a0877d04abf8759f99adec02baf579", int64(len("abcd"))},
{bucketName, objectName, uploadIDs[0], 4, "mnop", "e132e96a5ddad6da8b07bba6f6131fef", int64(len("abcd"))},
// Part with size larger than 5 MiB.
{bucketName, objectName, uploadIDs[0], 5, string(validPart), validPartMD5, int64(len(validPart))},
{bucketName, objectName, uploadIDs[0], 6, string(validPart), validPartMD5, int64(len(validPart))},
// Part with size larger than 5 MiB.
// Parts uploaded for anonymous/unsigned API handler test.
{bucketName, objectName, uploadIDs[1], 1, string(validPart), validPartMD5, int64(len(validPart))},
{bucketName, objectName, uploadIDs[1], 2, string(validPart), validPartMD5, int64(len(validPart))},
}
// Iterating over createPartCases to generate multipart chunks.
for _, part := range parts {
_, err = obj.PutObjectPart(context.Background(), part.bucketName, part.objName, part.uploadID, part.PartID,
mustGetPutObjReader(t, strings.NewReader(part.inputReaderData), part.inputDataSize, part.inputMd5, ""), opts)
if err != nil {
t.Fatalf("%s : %s", instanceType, err)
}
}
testCases := []struct {
bucket string
object string
uploadID string
accessKey string
secretKey string
// Expected HTTP Response status.
expectedRespStatus int
}{
// Test case - 1.
// Abort existing upload ID.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNoContent,
},
// Test case - 2.
// Abort non-existing upload ID.
{
bucket: bucketName,
object: objectName,
uploadID: "nonexistent-upload-id",
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNotFound,
},
// Test case - 3.
// Abort with unknown Access key.
{
bucket: bucketName,
object: objectName,
uploadID: uploadIDs[0],
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
},
}
for i, testCase := range testCases {
var req *http.Request
// Indicating that all parts are uploaded and initiating abortMultipartUpload.
req, err = newTestSignedRequestV4(http.MethodDelete, getAbortMultipartUploadURL("", testCase.bucket, testCase.object, testCase.uploadID),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for AbortMultipartUpload: <ERROR> %v", err)
}
rec := httptest.NewRecorder()
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to executes the registered handler.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Errorf("Case %d: MinIO %s: Expected the response status to be `%d`, but instead found `%d`", i+1, instanceType, testCase.expectedRespStatus, rec.Code)
}
}
// create unsigned HTTP request for Abort multipart upload.
anonReq, err := newTestRequest(http.MethodDelete, getAbortMultipartUploadURL("", bucketName, objectName, uploadIDs[1]),
0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, objectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIAbortMultipartHandler", bucketName, objectName, instanceType,
apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, objectName))
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
// Indicating that all parts are uploaded and initiating abortMultipartUpload.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodDelete, getAbortMultipartUploadURL("", nilBucket, nilObject, "dummy-uploadID"),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// Wrapper for calling Delete Object API handler tests for both Erasure multiple disks and FS single drive setup.
func TestAPIDeleteObjectHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPIDeleteObjectHandler, endpoints: []string{"DeleteObject"}})
}
func testAPIDeleteObjectHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
var err error
objectName := "test-object"
// Object used for anonymous API request test.
anonObjectName := "test-anon-obj"
// set of byte data for PutObject.
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// object has to be created before running tests for Deleting the object.
bytesData := []struct {
byteData []byte
}{
{generateBytesData(6 * humanize.MiByte)},
}
// set of inputs for uploading the objects before tests for deleting them is done.
putObjectInputs := []struct {
bucketName string
objectName string
contentLength int64
textData []byte
metaData map[string]string
}{
// case - 1.
{bucketName, objectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
// case - 2.
{bucketName, anonObjectName, int64(len(bytesData[0].byteData)), bytesData[0].byteData, make(map[string]string)},
}
// iterate through the above set of inputs and upload the object.
for i, input := range putObjectInputs {
// uploading the object.
_, err = obj.PutObject(context.Background(), input.bucketName, input.objectName, mustGetPutObjReader(t, bytes.NewReader(input.textData), input.contentLength, input.metaData[""], ""), ObjectOptions{UserDefined: input.metaData})
// if object upload fails stop the test.
if err != nil {
t.Fatalf("Put Object case %d: Error uploading object: <ERROR> %v", i+1, err)
}
}
// test cases with inputs and expected result for DeleteObject.
testCases := []struct {
bucketName string
objectName string
accessKey string
secretKey string
expectedRespStatus int // expected response status body.
}{
// Test case - 1.
// Deleting an existing object.
// Expected to return HTTP response status code 204.
{
bucketName: bucketName,
objectName: objectName,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNoContent,
},
// Test case - 2.
// Attempt to delete an object which is already deleted.
// Still should return http response status 204.
{
bucketName: bucketName,
objectName: objectName,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusNoContent,
},
// Test case - 3.
// Setting Invalid AccessKey to force signature check inside the handler to fail.
// Should return HTTP response status 403 forbidden.
{
bucketName: bucketName,
objectName: objectName,
accessKey: "Invalid-AccessKey",
secretKey: credentials.SecretKey,
expectedRespStatus: http.StatusForbidden,
},
}
// Iterating over the cases, call DeleteObjectHandler and validate the HTTP response.
for i, testCase := range testCases {
var req, reqV2 *http.Request
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
rec := httptest.NewRecorder()
// construct HTTP request for Delete Object end point.
req, err = newTestSignedRequestV4(http.MethodDelete, getDeleteObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Test %d: Failed to create HTTP request for Delete Object: <ERROR> %v", i+1, err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler,`func (api objectAPIHandlers) DeleteObjectHandler` handles the request.
apiRouter.ServeHTTP(rec, req)
// Assert the response code with the expected status.
if rec.Code != testCase.expectedRespStatus {
t.Fatalf("MinIO %s: Case %d: Expected the response status to be `%d`, but instead found `%d`", instanceType, i+1, testCase.expectedRespStatus, rec.Code)
}
// Verify response of the V2 signed HTTP request.
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV2 := httptest.NewRecorder()
// construct HTTP request for Delete Object endpoint.
reqV2, err = newTestSignedRequestV2(http.MethodDelete, getDeleteObjectURL("", testCase.bucketName, testCase.objectName),
0, nil, testCase.accessKey, testCase.secretKey, nil)
if err != nil {
t.Fatalf("Failed to create HTTP request for NewMultipart Request: <ERROR> %v", err)
}
// Since `apiRouter` satisfies `http.Handler` it has a ServeHTTP to execute the logic of the handler.
// Call the ServeHTTP to execute the handler.
apiRouter.ServeHTTP(recV2, reqV2)
// Assert the response code with the expected status.
if recV2.Code != testCase.expectedRespStatus {
t.Errorf("Case %d: MinIO %s: Expected the response status to be `%d`, but instead found `%d`", i+1,
instanceType, testCase.expectedRespStatus, recV2.Code)
}
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodDelete, getDeleteObjectURL("", bucketName, anonObjectName), 0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, anonObjectName, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIDeleteObjectHandler", bucketName, anonObjectName, instanceType, apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, anonObjectName))
// HTTP request to test the case of `objectLayer` being set to `nil`.
// There is no need to use an existing bucket or valid input for creating the request,
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodDelete, getDeleteObjectURL("", nilBucket, nilObject),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create HTTP request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// TestAPIPutObjectPartHandlerStreaming - Tests validate the response of PutObjectPart HTTP handler
// when the request signature type is `streaming signature`.
func TestAPIPutObjectPartHandlerStreaming(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIPutObjectPartHandlerStreaming, []string{"NewMultipart", "PutObjectPart"})
}
func testAPIPutObjectPartHandlerStreaming(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
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credentials auth.Credentials, t *testing.T,
) {
testObject := "testobject"
rec := httptest.NewRecorder()
req, err := newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", bucketName, "testobject"),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("[%s] - Failed to create a signed request to initiate multipart upload for %s/%s: <ERROR> %v",
instanceType, bucketName, testObject, err)
}
apiRouter.ServeHTTP(rec, req)
// Get uploadID of the multipart upload initiated.
var mpartResp InitiateMultipartUploadResponse
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mpartRespBytes, err := io.ReadAll(rec.Result().Body)
if err != nil {
t.Fatalf("[%s] Failed to read NewMultipartUpload response <ERROR> %v", instanceType, err)
}
err = xml.Unmarshal(mpartRespBytes, &mpartResp)
if err != nil {
t.Fatalf("[%s] Failed to unmarshal NewMultipartUpload response <ERROR> %v", instanceType, err)
}
noAPIErr := APIError{}
missingDateHeaderErr := getAPIError(ErrMissingDateHeader)
internalErr := getAPIError(ErrBadRequest)
testCases := []struct {
fault Fault
expectedErr APIError
}{
{BadSignature, missingDateHeaderErr},
{None, noAPIErr},
{TooBigDecodedLength, internalErr},
}
for i, test := range testCases {
rec = httptest.NewRecorder()
req, err = newTestStreamingSignedRequest(http.MethodPut,
getPutObjectPartURL("", bucketName, testObject, mpartResp.UploadID, "1"),
5, 1, bytes.NewReader([]byte("hello")), credentials.AccessKey, credentials.SecretKey)
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if err != nil {
t.Fatalf("Failed to create new streaming signed HTTP request: <ERROR> %v.", err)
}
switch test.fault {
case BadSignature:
// Reset date field in header to make streaming signature fail.
req.Header.Set("x-amz-date", "")
case TooBigDecodedLength:
// Set decoded length to a large value out of int64 range to simulate parse failure.
req.Header.Set("x-amz-decoded-content-length", "9999999999999999999999")
}
apiRouter.ServeHTTP(rec, req)
if test.expectedErr != noAPIErr {
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errBytes, err := io.ReadAll(rec.Result().Body)
if err != nil {
t.Fatalf("Test %d %s Failed to read error response from upload part request %s/%s: <ERROR> %v",
i+1, instanceType, bucketName, testObject, err)
}
var errXML APIErrorResponse
err = xml.Unmarshal(errBytes, &errXML)
if err != nil {
t.Fatalf("Test %d %s Failed to unmarshal error response from upload part request %s/%s: <ERROR> %v",
i+1, instanceType, bucketName, testObject, err)
}
if test.expectedErr.Code != errXML.Code {
t.Errorf("Test %d %s expected to fail with error %s, but received %s", i+1, instanceType,
test.expectedErr.Code, errXML.Code)
}
} else if rec.Code != http.StatusOK {
t.Errorf("Test %d %s expected to succeed, but failed with HTTP status code %d",
i+1, instanceType, rec.Code)
}
}
}
// TestAPIPutObjectPartHandler - Tests validate the response of PutObjectPart HTTP handler
//
// for variety of inputs.
func TestAPIPutObjectPartHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIPutObjectPartHandler, []string{"PutObjectPart"})
}
func testAPIPutObjectPartHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
credentials auth.Credentials, t *testing.T,
) {
// Initiate Multipart upload for testing PutObjectPartHandler.
testObject := "testobject"
var opts ObjectOptions
// PutObjectPart API HTTP Handler has to be tested in isolation,
// that is without any other handler being registered,
// That's why NewMultipartUpload is initiated using ObjectLayer.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, testObject, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadID := res.UploadID
uploadIDCopy := uploadID
// SignatureMismatch for various signing types
testCases := []struct {
objectName string
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content string
partNumber string
fault Fault
accessKey string
secretKey string
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expectedAPIError APIErrorCode
}{
// Success case.
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0: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: None,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: -1,
},
// Case where part number is invalid.
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1: {
objectName: testObject,
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content: "hello",
partNumber: "9999999999999999999",
fault: None,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrInvalidPart,
},
// Case where the part number has exceeded the max allowed parts in an upload.
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2: {
objectName: testObject,
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content: "hello",
partNumber: strconv.Itoa(globalMaxPartID + 1),
fault: None,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrInvalidMaxParts,
},
// Case where the content length is not set in the HTTP request.
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3: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: MissingContentLength,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrMissingContentLength,
},
// case where the object size is set to a value greater than the max allowed size.
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4: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: TooBigObject,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrEntityTooLarge,
},
// case where a signature mismatch is introduced and the response is validated.
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5: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: BadSignature,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrSignatureDoesNotMatch,
},
// Case where incorrect checksum is set and the error response
// is asserted with the expected error response.
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6: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: BadMD5,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrInvalidDigest,
},
// case where the a non-existent uploadID is set.
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7: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: MissingUploadID,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
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expectedAPIError: ErrNoSuchUpload,
},
// case with invalid AccessID.
// Forcing the signature check inside the handler to fail.
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8: {
objectName: testObject,
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content: "hello",
partNumber: "1",
fault: None,
accessKey: "Invalid-AccessID",
secretKey: credentials.SecretKey,
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expectedAPIError: ErrInvalidAccessKeyID,
},
// Case where part number is invalid.
9: {
objectName: testObject,
content: "hello",
partNumber: "0",
fault: None,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedAPIError: ErrInvalidPart,
},
10: {
objectName: testObject,
content: "hello",
partNumber: "-10",
fault: None,
accessKey: credentials.AccessKey,
secretKey: credentials.SecretKey,
expectedAPIError: ErrInvalidPart,
},
}
reqV2Str := "V2 Signed HTTP request"
reqV4Str := "V4 Signed HTTP request"
type inputReqRec struct {
req *http.Request
rec *httptest.ResponseRecorder
reqType string
}
for i, test := range testCases {
// Using sub-tests introduced in Go 1.7.
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t.Run(fmt.Sprintf("MinIO-%s-Test-%d.", instanceType, i), func(t *testing.T) {
// collection of input HTTP request, ResponseRecorder and request type.
// Used to make a collection of V4 and V4 HTTP request.
var reqV4, reqV2 *http.Request
var recV4, recV2 *httptest.ResponseRecorder
// initialize HTTP NewRecorder, this records any mutations to response writer inside the handler.
recV4 = httptest.NewRecorder()
recV2 = httptest.NewRecorder()
// setting a non-existent uploadID.
// deliberately introducing the invalid value to be able to assert the response with the expected error response.
if test.fault == MissingUploadID {
uploadID = "upload1"
}
// constructing a v4 signed HTTP request.
reqV4, err = newTestSignedRequestV4(http.MethodPut,
getPutObjectPartURL("", bucketName, test.objectName, uploadID, test.partNumber),
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int64(len(test.content)), bytes.NewReader([]byte(test.content)), test.accessKey, test.secretKey, nil)
if err != nil {
t.Fatalf("Failed to create a signed V4 request to upload part for %s/%s: <ERROR> %v",
bucketName, test.objectName, err)
}
// Verify response of the V2 signed HTTP request.
// construct HTTP request for PutObject Part Object endpoint.
reqV2, err = newTestSignedRequestV2(http.MethodPut,
getPutObjectPartURL("", bucketName, test.objectName, uploadID, test.partNumber),
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int64(len(test.content)), bytes.NewReader([]byte(test.content)), test.accessKey, test.secretKey, nil)
if err != nil {
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t.Fatalf("Test %d %s Failed to create a V2 signed request to upload part for %s/%s: <ERROR> %v", i, instanceType,
bucketName, test.objectName, err)
}
// collection of input HTTP request, ResponseRecorder and request type.
reqRecs := []inputReqRec{
{
req: reqV4,
rec: recV4,
reqType: reqV4Str,
},
{
req: reqV2,
rec: recV2,
reqType: reqV2Str,
},
}
for _, reqRec := range reqRecs {
// Response recorder to record the response of the handler.
rec := reqRec.rec
// HTTP request used to call the handler.
req := reqRec.req
// HTTP request type string for V4/V2 requests.
reqType := reqRec.reqType
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// Clone so we don't retain values we do not want.
req.Header = req.Header.Clone()
// introduce faults in the request.
// deliberately introducing the invalid value to be able to assert the response with the expected error response.
switch test.fault {
case MissingContentLength:
req.ContentLength = -1
// Setting the content length to a value greater than the max allowed size of a part.
// Used in test case 4.
case TooBigObject:
req.ContentLength = globalMaxObjectSize + 1
// Malformed signature.
// Used in test case 6.
case BadSignature:
req.Header.Set("authorization", req.Header.Get("authorization")+"a")
// Setting an invalid Content-MD5 to force a Md5 Mismatch error.
// Used in tesr case 7.
case BadMD5:
req.Header.Set("Content-MD5", "badmd5")
}
// invoke the PutObjectPart HTTP handler.
apiRouter.ServeHTTP(rec, req)
// validate the error response.
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want := getAPIError(test.expectedAPIError)
if test.expectedAPIError == -1 {
want.HTTPStatusCode = 200
want.Code = "<no error>"
want.Description = "<no error>"
}
if rec.Code != http.StatusOK {
var errBytes []byte
// read the response body.
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errBytes, err = io.ReadAll(rec.Result().Body)
if err != nil {
t.Fatalf("%s, Failed to read error response from upload part request \"%s\"/\"%s\": <ERROR> %v.",
reqType, bucketName, test.objectName, err)
}
// parse the XML error response.
var errXML APIErrorResponse
err = xml.Unmarshal(errBytes, &errXML)
if err != nil {
t.Fatalf("%s, Failed to unmarshal error response from upload part request \"%s\"/\"%s\": <ERROR> %v.",
reqType, bucketName, test.objectName, err)
}
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// Validate whether the error has occurred for the expected reason.
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if want.Code != errXML.Code {
t.Errorf("%s, Expected to fail with error \"%s\", but received \"%s\": %q.",
reqType, want.Code, errXML.Code, errXML.Message)
}
// Validate the HTTP response status code with the expected one.
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if want.HTTPStatusCode != rec.Code {
t.Errorf("%s, Expected the HTTP response status code to be %d, got %d.", reqType, want.HTTPStatusCode, rec.Code)
}
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} else if want.HTTPStatusCode != http.StatusOK {
t.Errorf("got 200 ok, want %d", rec.Code)
}
}
})
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodPut, getPutObjectPartURL("", bucketName, testObject, uploadIDCopy, "1"),
int64(len("hello")), bytes.NewReader([]byte("hello")))
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, testObject, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIPutObjectPartHandler", bucketName, testObject, instanceType, apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, testObject))
// HTTP request for testing when `ObjectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodPut, getPutObjectPartURL("", nilBucket, nilObject, "0", "0"),
0, bytes.NewReader([]byte("testNilObjLayer")), "", "", nil)
if err != nil {
t.Errorf("MinIO %s: Failed to create http request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` manages the operation.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}
// TestAPIListObjectPartsHandlerPreSign - Tests validate the response of ListObjectParts HTTP handler
//
// when signature type of the HTTP request is `Presigned`.
func TestAPIListObjectPartsHandlerPreSign(t *testing.T) {
defer DetectTestLeak(t)()
ExecObjectLayerAPITest(ExecObjectLayerAPITestArgs{t: t, objAPITest: testAPIListObjectPartsHandlerPreSign, endpoints: []string{"PutObjectPart", "NewMultipart", "ListObjectParts"}})
}
func testAPIListObjectPartsHandlerPreSign(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
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credentials auth.Credentials, t *testing.T,
) {
testObject := "testobject"
rec := httptest.NewRecorder()
req, err := newTestSignedRequestV4(http.MethodPost, getNewMultipartURL("", bucketName, testObject),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("[%s] - Failed to create a signed request to initiate multipart upload for %s/%s: <ERROR> %v",
instanceType, bucketName, testObject, err)
}
apiRouter.ServeHTTP(rec, req)
// Get uploadID of the multipart upload initiated.
var mpartResp InitiateMultipartUploadResponse
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mpartRespBytes, err := io.ReadAll(rec.Result().Body)
if err != nil {
t.Fatalf("[%s] Failed to read NewMultipartUpload response <ERROR> %v", instanceType, err)
}
err = xml.Unmarshal(mpartRespBytes, &mpartResp)
if err != nil {
t.Fatalf("[%s] Failed to unmarshal NewMultipartUpload response <ERROR> %v", instanceType, err)
}
// Upload a part for listing purposes.
rec = httptest.NewRecorder()
req, err = newTestSignedRequestV4(http.MethodPut,
getPutObjectPartURL("", bucketName, testObject, mpartResp.UploadID, "1"),
int64(len("hello")), bytes.NewReader([]byte("hello")), credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("[%s] - Failed to create a signed request to initiate multipart upload for %s/%s: <ERROR> %v",
instanceType, bucketName, testObject, err)
}
apiRouter.ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Fatalf("[%s] - Failed to PutObjectPart bucket: %s object: %s HTTP status code: %d",
instanceType, bucketName, testObject, rec.Code)
}
rec = httptest.NewRecorder()
req, err = newTestRequest(http.MethodGet,
getListMultipartURLWithParams("", bucketName, testObject, mpartResp.UploadID, "", "", ""),
0, nil)
if err != nil {
t.Fatalf("[%s] - Failed to create an unsigned request to list object parts for bucket %s, uploadId %s",
instanceType, bucketName, mpartResp.UploadID)
}
req.Header = http.Header{}
err = preSignV2(req, credentials.AccessKey, credentials.SecretKey, int64(10*60*60))
if err != nil {
t.Fatalf("[%s] - Failed to presignV2 an unsigned request to list object parts for bucket %s, uploadId %s",
instanceType, bucketName, mpartResp.UploadID)
}
apiRouter.ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Errorf("Test %d %s expected to succeed but failed with HTTP status code %d",
1, instanceType, rec.Code)
}
rec = httptest.NewRecorder()
req, err = newTestRequest(http.MethodGet,
getListMultipartURLWithParams("", bucketName, testObject, mpartResp.UploadID, "", "", ""),
0, nil)
if err != nil {
t.Fatalf("[%s] - Failed to create an unsigned request to list object parts for bucket %s, uploadId %s",
instanceType, bucketName, mpartResp.UploadID)
}
err = preSignV4(req, credentials.AccessKey, credentials.SecretKey, int64(10*60*60))
if err != nil {
t.Fatalf("[%s] - Failed to presignV2 an unsigned request to list object parts for bucket %s, uploadId %s",
instanceType, bucketName, mpartResp.UploadID)
}
apiRouter.ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Errorf("Test %d %s expected to succeed but failed with HTTP status code %d",
1, instanceType, rec.Code)
}
}
// TestAPIListObjectPartsHandler - Tests validate the response of ListObjectParts HTTP handler
//
// for variety of success/failure cases.
func TestAPIListObjectPartsHandler(t *testing.T) {
defer DetectTestLeak(t)()
ExecExtendedObjectLayerAPITest(t, testAPIListObjectPartsHandler, []string{"ListObjectParts"})
}
func testAPIListObjectPartsHandler(obj ObjectLayer, instanceType, bucketName string, apiRouter http.Handler,
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credentials auth.Credentials, t *testing.T,
) {
testObject := "testobject"
var opts ObjectOptions
// PutObjectPart API HTTP Handler has to be tested in isolation,
// that is without any other handler being registered,
// That's why NewMultipartUpload is initiated using ObjectLayer.
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res, err := obj.NewMultipartUpload(context.Background(), bucketName, testObject, opts)
if err != nil {
// Failed to create NewMultipartUpload, abort.
t.Fatalf("MinIO %s : <ERROR> %s", instanceType, err)
}
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uploadID := res.UploadID
uploadIDCopy := uploadID
// create an object Part, will be used to test list object parts.
_, err = obj.PutObjectPart(context.Background(), bucketName, testObject, uploadID, 1, mustGetPutObjReader(t, bytes.NewReader([]byte("hello")), int64(len("hello")), "5d41402abc4b2a76b9719d911017c592", ""), opts)
if err != nil {
t.Fatalf("MinIO %s : %s.", instanceType, err)
}
// expected error types for invalid inputs to ListObjectParts handler.
noAPIErr := APIError{}
// expected error when the signature check fails.
signatureMismatchErr := getAPIError(ErrSignatureDoesNotMatch)
// expected error the when the uploadID is invalid.
noSuchUploadErr := getAPIError(ErrNoSuchUpload)
// expected error the part number marker use in the ListObjectParts request is invalid.
invalidPartMarkerErr := getAPIError(ErrInvalidPartNumberMarker)
// expected error when the maximum number of parts requested to listed in invalid.
invalidMaxPartsErr := getAPIError(ErrInvalidMaxParts)
testCases := []struct {
fault Fault
partNumberMarker string
maxParts string
expectedErr APIError
}{
// Test case - 1.
// case where a signature mismatch is introduced and the response is validated.
{
fault: BadSignature,
partNumberMarker: "",
maxParts: "",
expectedErr: signatureMismatchErr,
},
// Test case - 2.
// Marker is set to invalid value of -1, error response is asserted.
{
fault: None,
partNumberMarker: "-1",
maxParts: "",
expectedErr: invalidPartMarkerErr,
},
// Test case - 3.
// Max Parts is set a negative value, error response is validated.
{
fault: None,
partNumberMarker: "",
maxParts: "-1",
expectedErr: invalidMaxPartsErr,
},
// Test case - 4.
// Invalid UploadID is set and the error response is validated.
{
fault: MissingUploadID,
partNumberMarker: "",
maxParts: "",
expectedErr: noSuchUploadErr,
},
}
// string to represent V2 signed HTTP request.
reqV2Str := "V2 Signed HTTP request"
// string to represent V4 signed HTTP request.
reqV4Str := "V4 Signed HTTP request"
// Collection of HTTP request and ResponseRecorder and request type string.
type inputReqRec struct {
req *http.Request
rec *httptest.ResponseRecorder
reqType string
}
for i, test := range testCases {
var reqV4, reqV2 *http.Request
// Using sub-tests introduced in Go 1.7.
t.Run(fmt.Sprintf("MinIO %s: Test case %d failed.", instanceType, i+1), func(t *testing.T) {
recV2 := httptest.NewRecorder()
recV4 := httptest.NewRecorder()
// setting a non-existent uploadID.
// deliberately introducing the invalid value to be able to assert the response with the expected error response.
if test.fault == MissingUploadID {
uploadID = "upload1"
}
// constructing a v4 signed HTTP request for ListMultipartUploads.
reqV4, err = newTestSignedRequestV4(http.MethodGet,
getListMultipartURLWithParams("", bucketName, testObject, uploadID, test.maxParts, test.partNumberMarker, ""),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create a V4 signed request to list object parts for %s/%s: <ERROR> %v.",
bucketName, testObject, err)
}
// Verify response of the V2 signed HTTP request.
// construct HTTP request for PutObject Part Object endpoint.
reqV2, err = newTestSignedRequestV2(http.MethodGet,
getListMultipartURLWithParams("", bucketName, testObject, uploadID, test.maxParts, test.partNumberMarker, ""),
0, nil, credentials.AccessKey, credentials.SecretKey, nil)
if err != nil {
t.Fatalf("Failed to create a V2 signed request to list object parts for %s/%s: <ERROR> %v.",
bucketName, testObject, err)
}
// collection of input HTTP request, ResponseRecorder and request type.
reqRecs := []inputReqRec{
{
req: reqV4,
rec: recV4,
reqType: reqV4Str,
},
{
req: reqV2,
rec: recV2,
reqType: reqV2Str,
},
}
for _, reqRec := range reqRecs {
// Response recorder to record the response of the handler.
rec := reqRec.rec
// HTTP request used to call the handler.
req := reqRec.req
// HTTP request type string for V4/V2 requests.
reqType := reqRec.reqType
// Malformed signature.
if test.fault == BadSignature {
req.Header.Set("authorization", req.Header.Get("authorization")+"a")
}
// invoke the PutObjectPart HTTP handler with the given HTTP request.
apiRouter.ServeHTTP(rec, req)
// validate the error response.
if test.expectedErr != noAPIErr {
var errBytes []byte
// read the response body.
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errBytes, err = io.ReadAll(rec.Result().Body)
if err != nil {
t.Fatalf("%s,Failed to read error response list object parts request %s/%s: <ERROR> %v", reqType, bucketName, testObject, err)
}
// parse the error response.
var errXML APIErrorResponse
err = xml.Unmarshal(errBytes, &errXML)
if err != nil {
t.Fatalf("%s, Failed to unmarshal error response from list object partsest %s/%s: <ERROR> %v",
reqType, bucketName, testObject, err)
}
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// Validate whether the error has occurred for the expected reason.
if test.expectedErr.Code != errXML.Code {
t.Errorf("%s, Expected to fail with %s but received %s",
reqType, test.expectedErr.Code, errXML.Code)
}
// in case error is not expected response status should be 200OK.
} else if rec.Code != http.StatusOK {
t.Errorf("%s, Expected to succeed with response HTTP status 200OK, but failed with HTTP status code %d.", reqType, rec.Code)
}
}
})
}
// Test for Anonymous/unsigned http request.
anonReq, err := newTestRequest(http.MethodGet,
getListMultipartURLWithParams("", bucketName, testObject, uploadIDCopy, "", "", ""), 0, nil)
if err != nil {
t.Fatalf("MinIO %s: Failed to create an anonymous request for %s/%s: <ERROR> %v",
instanceType, bucketName, testObject, err)
}
// ExecObjectLayerAPIAnonTest - Calls the HTTP API handler using the anonymous request, validates the ErrAccessDeniedResponse,
// sets the bucket policy using the policy statement generated from `getWriteOnlyObjectStatement` so that the
// unsigned request goes through and its validated again.
ExecObjectLayerAPIAnonTest(t, obj, "TestAPIListObjectPartsHandler", bucketName, testObject, instanceType, apiRouter, anonReq, getAnonWriteOnlyObjectPolicy(bucketName, testObject))
// HTTP request for testing when `objectLayer` is set to `nil`.
// There is no need to use an existing bucket and valid input for creating the request
// since the `objectLayer==nil` check is performed before any other checks inside the handlers.
// The only aim is to generate an HTTP request in a way that the relevant/registered end point is evoked/called.
nilBucket := "dummy-bucket"
nilObject := "dummy-object"
nilReq, err := newTestSignedRequestV4(http.MethodGet,
getListMultipartURLWithParams("", nilBucket, nilObject, "dummy-uploadID", "0", "0", ""),
0, nil, "", "", nil)
if err != nil {
t.Errorf("MinIO %s:Failed to create http request for testing the response when object Layer is set to `nil`.", instanceType)
}
// execute the object layer set to `nil` test.
// `ExecObjectLayerAPINilTest` sets the Object Layer to `nil` and calls the handler.
ExecObjectLayerAPINilTest(t, nilBucket, nilObject, instanceType, apiRouter, nilReq)
}