minio/cmd/object-handlers.go

2114 lines
63 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Minio Cloud Storage, (C) 2015-2018 Minio, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package cmd
import (
"context"
"crypto/hmac"
"encoding/binary"
"encoding/hex"
"encoding/xml"
"io"
goioutil "io/ioutil"
"net"
"net/http"
"net/url"
"sort"
"strconv"
"strings"
snappy "github.com/golang/snappy"
"github.com/gorilla/mux"
"github.com/klauspost/readahead"
miniogo "github.com/minio/minio-go"
"github.com/minio/minio/cmd/crypto"
"github.com/minio/minio/cmd/logger"
"github.com/minio/minio/pkg/dns"
"github.com/minio/minio/pkg/event"
"github.com/minio/minio/pkg/handlers"
"github.com/minio/minio/pkg/hash"
"github.com/minio/minio/pkg/ioutil"
"github.com/minio/minio/pkg/policy"
"github.com/minio/minio/pkg/s3select"
sha256 "github.com/minio/sha256-simd"
"github.com/minio/sio"
)
// supportedHeadGetReqParams - supported request parameters for GET and HEAD presigned request.
var supportedHeadGetReqParams = map[string]string{
"response-expires": "Expires",
"response-content-type": "Content-Type",
"response-cache-control": "Cache-Control",
"response-content-encoding": "Content-Encoding",
"response-content-language": "Content-Language",
"response-content-disposition": "Content-Disposition",
}
const (
compressionAlgorithmV1 = "golang/snappy/LZ77"
)
// setHeadGetRespHeaders - set any requested parameters as response headers.
func setHeadGetRespHeaders(w http.ResponseWriter, reqParams url.Values) {
for k, v := range reqParams {
if header, ok := supportedHeadGetReqParams[k]; ok {
w.Header()[header] = v
}
}
}
// SelectObjectContentHandler - GET Object?select
// ----------
// This implementation of the GET operation retrieves object content based
// on an SQL expression. In the request, along with the sql expression, you must
// also specify a data serialization format (JSON, CSV) of the object.
func (api objectAPIHandlers) SelectObjectContentHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "SelectObject")
defer logger.AuditLog(ctx, r)
// Fetch object stat info.
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) { // SSE-KMS is not supported
writeErrorResponse(w, ErrNotImplemented, r.URL)
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
// Check for auth type to return S3 compatible error.
// type to return the correct error (NoSuchKey vs AccessDenied)
if s3Error := checkRequestAuthType(ctx, r, policy.GetObjectAction, bucket, object); s3Error != ErrNone {
if getRequestAuthType(r) == authTypeAnonymous {
// As per "Permission" section in
// https://docs.aws.amazon.com/AmazonS3/latest/API/RESTObjectGET.html
// If the object you request does not exist,
// the error Amazon S3 returns depends on
// whether you also have the s3:ListBucket
// permission.
// * If you have the s3:ListBucket permission
// on the bucket, Amazon S3 will return an
// HTTP status code 404 ("no such key")
// error.
// * if you dont have the s3:ListBucket
// permission, Amazon S3 will return an HTTP
// status code 403 ("access denied") error.`
if globalPolicySys.IsAllowed(policy.Args{
Action: policy.ListBucketAction,
BucketName: bucket,
ConditionValues: getConditionValues(r, ""),
IsOwner: false,
}) {
getObjectInfo := objectAPI.GetObjectInfo
if api.CacheAPI() != nil {
getObjectInfo = api.CacheAPI().GetObjectInfo
}
_, err := getObjectInfo(ctx, bucket, object, ObjectOptions{})
if toAPIErrorCode(err) == ErrNoSuchKey {
s3Error = ErrNoSuchKey
}
}
}
writeErrorResponse(w, s3Error, r.URL)
return
}
// Get request range.
rangeHeader := r.Header.Get("Range")
if rangeHeader != "" {
writeErrorResponse(w, ErrUnsupportedRangeHeader, r.URL)
return
}
if r.ContentLength <= 0 {
writeErrorResponse(w, ErrEmptyRequestBody, r.URL)
return
}
var selectReq s3select.ObjectSelectRequest
if err := xmlDecoder(r.Body, &selectReq, r.ContentLength); err != nil {
writeErrorResponse(w, ErrMalformedXML, r.URL)
return
}
if !strings.EqualFold(string(selectReq.ExpressionType), "SQL") {
writeErrorResponse(w, ErrInvalidExpressionType, r.URL)
return
}
if len(selectReq.Expression) >= s3select.MaxExpressionLength {
writeErrorResponse(w, ErrExpressionTooLong, r.URL)
return
}
getObjectNInfo := objectAPI.GetObjectNInfo
if api.CacheAPI() != nil {
getObjectNInfo = api.CacheAPI().GetObjectNInfo
}
gr, err := getObjectNInfo(ctx, bucket, object, nil, r.Header, readLock, ObjectOptions{})
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
defer gr.Close()
objInfo := gr.ObjInfo
if selectReq.InputSerialization.CompressionType == s3select.SelectCompressionGZIP {
if !strings.Contains(objInfo.ContentType, "gzip") {
writeErrorResponse(w, ErrInvalidDataSource, r.URL)
return
}
}
if selectReq.InputSerialization.CompressionType == s3select.SelectCompressionBZIP {
if !strings.Contains(objInfo.ContentType, "bzip") {
writeErrorResponse(w, ErrInvalidDataSource, r.URL)
return
}
}
if selectReq.InputSerialization.CompressionType == "" {
selectReq.InputSerialization.CompressionType = s3select.SelectCompressionNONE
if !strings.Contains(objInfo.ContentType, "text/csv") && !strings.Contains(objInfo.ContentType, "application/json") {
writeErrorResponse(w, ErrInvalidDataSource, r.URL)
return
}
}
if !strings.EqualFold(string(selectReq.ExpressionType), "SQL") {
writeErrorResponse(w, ErrInvalidExpressionType, r.URL)
return
}
if len(selectReq.Expression) >= s3select.MaxExpressionLength {
writeErrorResponse(w, ErrExpressionTooLong, r.URL)
return
}
if selectReq.InputSerialization.CSV == nil && selectReq.InputSerialization.JSON == nil {
writeErrorResponse(w, ErrInvalidRequestParameter, r.URL)
return
}
if selectReq.OutputSerialization.CSV == nil && selectReq.OutputSerialization.JSON == nil {
writeErrorResponse(w, ErrInvalidRequestParameter, r.URL)
return
}
if selectReq.InputSerialization.CSV != nil {
if selectReq.InputSerialization.CSV.FileHeaderInfo != s3select.CSVFileHeaderInfoUse &&
selectReq.InputSerialization.CSV.FileHeaderInfo != s3select.CSVFileHeaderInfoNone &&
selectReq.InputSerialization.CSV.FileHeaderInfo != s3select.CSVFileHeaderInfoIgnore &&
selectReq.InputSerialization.CSV.FileHeaderInfo != "" {
writeErrorResponse(w, ErrInvalidFileHeaderInfo, r.URL)
return
}
if selectReq.OutputSerialization.CSV.QuoteFields != s3select.CSVQuoteFieldsAlways &&
selectReq.OutputSerialization.CSV.QuoteFields != s3select.CSVQuoteFieldsAsNeeded &&
selectReq.OutputSerialization.CSV.QuoteFields != "" {
writeErrorResponse(w, ErrInvalidQuoteFields, r.URL)
return
}
if len(selectReq.InputSerialization.CSV.RecordDelimiter) > 2 {
writeErrorResponse(w, ErrInvalidRequestParameter, r.URL)
return
}
}
if selectReq.InputSerialization.JSON != nil {
if selectReq.InputSerialization.JSON.Type != s3select.JSONTypeDocument &&
selectReq.InputSerialization.JSON.Type != s3select.JSONLinesType &&
selectReq.InputSerialization.JSON.Type != "" {
writeErrorResponse(w, ErrInvalidJSONType, r.URL)
return
}
}
// Set encryption response headers
if objectAPI.IsEncryptionSupported() {
if crypto.IsEncrypted(objInfo.UserDefined) {
switch {
case crypto.S3.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSEHeader, crypto.SSEAlgorithmAES256)
case crypto.SSEC.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSECAlgorithm, r.Header.Get(crypto.SSECAlgorithm))
w.Header().Set(crypto.SSECKeyMD5, r.Header.Get(crypto.SSECKeyMD5))
}
}
}
reader := readahead.NewReader(gr)
defer reader.Close()
s3s, err := s3select.New(reader, objInfo.GetActualSize(), selectReq)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Parses the select query and checks for an error
_, _, _, _, _, _, err = s3select.ParseSelect(s3s)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Executes the query on data-set
if err = s3select.Execute(w, s3s); err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
// GetObjectHandler - GET Object
// ----------
// This implementation of the GET operation retrieves object. To use GET,
// you must have READ access to the object.
func (api objectAPIHandlers) GetObjectHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "GetObject")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3.IsRequested(r.Header) || crypto.S3KMS.IsRequested(r.Header) { // If SSE-S3 or SSE-KMS present -> AWS fails with undefined error
writeErrorResponse(w, ErrBadRequest, r.URL)
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
var opts ObjectOptions
// Check for auth type to return S3 compatible error.
// type to return the correct error (NoSuchKey vs AccessDenied)
if s3Error := checkRequestAuthType(ctx, r, policy.GetObjectAction, bucket, object); s3Error != ErrNone {
if getRequestAuthType(r) == authTypeAnonymous {
// As per "Permission" section in
// https://docs.aws.amazon.com/AmazonS3/latest/API/RESTObjectGET.html
// If the object you request does not exist,
// the error Amazon S3 returns depends on
// whether you also have the s3:ListBucket
// permission.
// * If you have the s3:ListBucket permission
// on the bucket, Amazon S3 will return an
// HTTP status code 404 ("no such key")
// error.
// * if you dont have the s3:ListBucket
// permission, Amazon S3 will return an HTTP
// status code 403 ("access denied") error.`
if globalPolicySys.IsAllowed(policy.Args{
Action: policy.ListBucketAction,
BucketName: bucket,
ConditionValues: getConditionValues(r, ""),
IsOwner: false,
}) {
getObjectInfo := objectAPI.GetObjectInfo
if api.CacheAPI() != nil {
getObjectInfo = api.CacheAPI().GetObjectInfo
}
_, err := getObjectInfo(ctx, bucket, object, opts)
if toAPIErrorCode(err) == ErrNoSuchKey {
s3Error = ErrNoSuchKey
}
}
}
writeErrorResponse(w, s3Error, r.URL)
return
}
getObjectNInfo := objectAPI.GetObjectNInfo
if api.CacheAPI() != nil {
getObjectNInfo = api.CacheAPI().GetObjectNInfo
}
// Get request range.
var rs *HTTPRangeSpec
rangeHeader := r.Header.Get("Range")
if rangeHeader != "" {
var err error
if rs, err = parseRequestRangeSpec(rangeHeader); err != nil {
// Handle only errInvalidRange. Ignore other
// parse error and treat it as regular Get
// request like Amazon S3.
if err == errInvalidRange {
writeErrorResponse(w, ErrInvalidRange, r.URL)
return
}
logger.LogIf(ctx, err)
}
}
gr, err := getObjectNInfo(ctx, bucket, object, rs, r.Header, readLock, opts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
defer gr.Close()
objInfo := gr.ObjInfo
if objectAPI.IsEncryptionSupported() {
if _, err = DecryptObjectInfo(objInfo, r.Header); err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// Validate pre-conditions if any.
if checkPreconditions(w, r, objInfo) {
return
}
// Set encryption response headers
if objectAPI.IsEncryptionSupported() {
if crypto.IsEncrypted(objInfo.UserDefined) {
switch {
case crypto.S3.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSEHeader, crypto.SSEAlgorithmAES256)
case crypto.SSEC.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSECAlgorithm, r.Header.Get(crypto.SSECAlgorithm))
w.Header().Set(crypto.SSECKeyMD5, r.Header.Get(crypto.SSECKeyMD5))
}
}
}
if hErr := setObjectHeaders(w, objInfo, rs); hErr != nil {
writeErrorResponse(w, toAPIErrorCode(hErr), r.URL)
return
}
setHeadGetRespHeaders(w, r.URL.Query())
statusCodeWritten := false
httpWriter := ioutil.WriteOnClose(w)
if rs != nil {
statusCodeWritten = true
w.WriteHeader(http.StatusPartialContent)
}
// Write object content to response body
if _, err = io.Copy(httpWriter, gr); err != nil {
if !httpWriter.HasWritten() && !statusCodeWritten { // write error response only if no data or headers has been written to client yet
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
}
return
}
if err = httpWriter.Close(); err != nil {
if !httpWriter.HasWritten() && !statusCodeWritten { // write error response only if no data or headers has been written to client yet
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// Get host and port from Request.RemoteAddr.
host, port, err := net.SplitHostPort(handlers.GetSourceIP(r))
if err != nil {
host, port = "", ""
}
// Notify object accessed via a GET request.
sendEvent(eventArgs{
EventName: event.ObjectAccessedGet,
BucketName: bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: host,
Port: port,
})
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
// HeadObjectHandler - HEAD Object
// -----------
// The HEAD operation retrieves metadata from an object without returning the object itself.
func (api objectAPIHandlers) HeadObjectHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "HeadObject")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponseHeadersOnly(w, ErrServerNotInitialized)
return
}
if crypto.S3.IsRequested(r.Header) || crypto.S3KMS.IsRequested(r.Header) { // If SSE-S3 or SSE-KMS present -> AWS fails with undefined error
writeErrorResponse(w, ErrBadRequest, r.URL)
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
getObjectInfo := objectAPI.GetObjectInfo
if api.CacheAPI() != nil {
getObjectInfo = api.CacheAPI().GetObjectInfo
}
var opts ObjectOptions
if s3Error := checkRequestAuthType(ctx, r, policy.GetObjectAction, bucket, object); s3Error != ErrNone {
if getRequestAuthType(r) == authTypeAnonymous {
// As per "Permission" section in
// https://docs.aws.amazon.com/AmazonS3/latest/API/RESTObjectHEAD.html
// If the object you request does not exist,
// the error Amazon S3 returns depends on
// whether you also have the s3:ListBucket
// permission.
// * If you have the s3:ListBucket permission
// on the bucket, Amazon S3 will return an
// HTTP status code 404 ("no such key")
// error.
// * if you dont have the s3:ListBucket
// permission, Amazon S3 will return an HTTP
// status code 403 ("access denied") error.`
if globalPolicySys.IsAllowed(policy.Args{
Action: policy.ListBucketAction,
BucketName: bucket,
ConditionValues: getConditionValues(r, ""),
IsOwner: false,
}) {
_, err := getObjectInfo(ctx, bucket, object, opts)
if toAPIErrorCode(err) == ErrNoSuchKey {
s3Error = ErrNoSuchKey
}
}
}
writeErrorResponseHeadersOnly(w, s3Error)
return
}
// Get request range.
var rs *HTTPRangeSpec
rangeHeader := r.Header.Get("Range")
if rangeHeader != "" {
var err error
if rs, err = parseRequestRangeSpec(rangeHeader); err != nil {
// Handle only errInvalidRange. Ignore other
// parse error and treat it as regular Get
// request like Amazon S3.
if err == errInvalidRange {
writeErrorResponseHeadersOnly(w, ErrInvalidRange)
return
}
logger.LogIf(ctx, err)
}
}
objInfo, err := getObjectInfo(ctx, bucket, object, opts)
if err != nil {
writeErrorResponseHeadersOnly(w, toAPIErrorCode(err))
return
}
if objectAPI.IsEncryptionSupported() {
if _, err = DecryptObjectInfo(objInfo, r.Header); err != nil {
writeErrorResponseHeadersOnly(w, toAPIErrorCode(err))
return
}
}
// Set encryption response headers
if objectAPI.IsEncryptionSupported() {
if crypto.IsEncrypted(objInfo.UserDefined) {
switch {
case crypto.S3.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSEHeader, crypto.SSEAlgorithmAES256)
case crypto.SSEC.IsEncrypted(objInfo.UserDefined):
// Validate the SSE-C Key set in the header.
if _, err = crypto.SSEC.UnsealObjectKey(r.Header, objInfo.UserDefined, bucket, object); err != nil {
writeErrorResponseHeadersOnly(w, toAPIErrorCode(err))
return
}
w.Header().Set(crypto.SSECAlgorithm, r.Header.Get(crypto.SSECAlgorithm))
w.Header().Set(crypto.SSECKeyMD5, r.Header.Get(crypto.SSECKeyMD5))
}
}
}
// Validate pre-conditions if any.
if checkPreconditions(w, r, objInfo) {
return
}
// Set standard object headers.
if hErr := setObjectHeaders(w, objInfo, rs); hErr != nil {
writeErrorResponseHeadersOnly(w, toAPIErrorCode(hErr))
return
}
// Set any additional requested response headers.
setHeadGetRespHeaders(w, r.URL.Query())
// Successful response.
if rs != nil {
w.WriteHeader(http.StatusPartialContent)
} else {
w.WriteHeader(http.StatusOK)
}
// Get host and port from Request.RemoteAddr.
host, port, err := net.SplitHostPort(handlers.GetSourceIP(r))
if err != nil {
host, port = "", ""
}
// Notify object accessed via a HEAD request.
sendEvent(eventArgs{
EventName: event.ObjectAccessedHead,
BucketName: bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: host,
Port: port,
})
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
// Extract metadata relevant for an CopyObject operation based on conditional
// header values specified in X-Amz-Metadata-Directive.
func getCpObjMetadataFromHeader(ctx context.Context, r *http.Request, userMeta map[string]string) (map[string]string, error) {
// Make a copy of the supplied metadata to avoid
// to change the original one.
defaultMeta := make(map[string]string, len(userMeta))
for k, v := range userMeta {
defaultMeta[k] = v
}
// if x-amz-metadata-directive says REPLACE then
// we extract metadata from the input headers.
if isMetadataReplace(r.Header) {
return extractMetadata(ctx, r)
}
// if x-amz-metadata-directive says COPY then we
// return the default metadata.
if isMetadataCopy(r.Header) {
return defaultMeta, nil
}
// Copy is default behavior if not x-amz-metadata-directive is set.
return defaultMeta, nil
}
// CopyObjectHandler - Copy Object
// ----------
// This implementation of the PUT operation adds an object to a bucket
// while reading the object from another source.
// Notice: The S3 client can send secret keys in headers for encryption related jobs,
// the handler should ensure to remove these keys before sending them to the object layer.
// Currently these keys are:
// - X-Amz-Server-Side-Encryption-Customer-Key
// - X-Amz-Copy-Source-Server-Side-Encryption-Customer-Key
func (api objectAPIHandlers) CopyObjectHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "CopyObject")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) {
writeErrorResponse(w, ErrNotImplemented, r.URL) // SSE-KMS is not supported
return
}
vars := mux.Vars(r)
dstBucket := vars["bucket"]
dstObject := vars["object"]
if s3Error := checkRequestAuthType(ctx, r, policy.PutObjectAction, dstBucket, dstObject); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// TODO: Reject requests where body/payload is present, for now we don't even read it.
// Copy source path.
cpSrcPath, err := url.QueryUnescape(r.Header.Get("X-Amz-Copy-Source"))
if err != nil {
// Save unescaped string as is.
cpSrcPath = r.Header.Get("X-Amz-Copy-Source")
}
srcBucket, srcObject := path2BucketAndObject(cpSrcPath)
// If source object is empty or bucket is empty, reply back invalid copy source.
if srcObject == "" || srcBucket == "" {
writeErrorResponse(w, ErrInvalidCopySource, r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.GetObjectAction, srcBucket, srcObject); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Check if metadata directive is valid.
if !isMetadataDirectiveValid(r.Header) {
writeErrorResponse(w, ErrInvalidMetadataDirective, r.URL)
return
}
var srcOpts, dstOpts ObjectOptions
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err = objectAPI.GetObjectInfo(ctx, dstBucket, dstObject, dstOpts); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
cpSrcDstSame := isStringEqual(pathJoin(srcBucket, srcObject), pathJoin(dstBucket, dstObject))
getObjectNInfo := objectAPI.GetObjectNInfo
if api.CacheAPI() != nil {
getObjectNInfo = api.CacheAPI().GetObjectNInfo
}
var lock = noLock
if !cpSrcDstSame {
lock = readLock
}
var rs *HTTPRangeSpec
gr, err := getObjectNInfo(ctx, srcBucket, srcObject, rs, r.Header, lock, srcOpts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
defer gr.Close()
srcInfo := gr.ObjInfo
// Verify before x-amz-copy-source preconditions before continuing with CopyObject.
if checkCopyObjectPreconditions(w, r, srcInfo) {
return
}
/// maximum Upload size for object in a single CopyObject operation.
if isMaxObjectSize(srcInfo.Size) {
writeErrorResponse(w, ErrEntityTooLarge, r.URL)
return
}
// We have to copy metadata only if source and destination are same.
// this changes for encryption which can be observed below.
if cpSrcDstSame {
srcInfo.metadataOnly = true
}
// Checks if a remote putobject call is needed for CopyObject operation
// 1. If source and destination bucket names are same, it means no call needed to etcd to get destination info
// 2. If destination bucket doesn't exist locally, only then a etcd call is needed
var isRemoteCallRequired = func(ctx context.Context, src, dst string, objAPI ObjectLayer) bool {
if src == dst {
return false
}
_, berr := objAPI.GetBucketInfo(ctx, dst)
return berr == toObjectErr(errVolumeNotFound, dst)
}
var reader io.Reader
var length = srcInfo.Size
// Set the actual size to the decrypted size if encrypted.
actualSize := srcInfo.Size
if crypto.IsEncrypted(srcInfo.UserDefined) {
actualSize, err = srcInfo.DecryptedSize()
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// No need to compress for remote etcd calls
// Pass the decompressed stream to such calls.
isCompressed := objectAPI.IsCompressionSupported() && isCompressible(r.Header, srcObject) && !isRemoteCallRequired(ctx, srcBucket, dstBucket, objectAPI)
if isCompressed {
// Storing the compression metadata.
srcInfo.UserDefined[ReservedMetadataPrefix+"compression"] = compressionAlgorithmV1
srcInfo.UserDefined[ReservedMetadataPrefix+"actual-size"] = strconv.FormatInt(actualSize, 10)
// Remove all source encrypted related metadata to
// avoid copying them in target object.
crypto.RemoveInternalEntries(srcInfo.UserDefined)
// Open a pipe for compression.
// Where pipeWriter is piped to srcInfo.Reader.
// gr writes to pipeWriter.
pipeReader, pipeWriter := io.Pipe()
reader = pipeReader
length = -1
snappyWriter := snappy.NewWriter(pipeWriter)
go func() {
// Compress the decompressed source object.
_, cerr := io.Copy(snappyWriter, gr)
snappyWriter.Close()
pipeWriter.CloseWithError(cerr)
}()
} else {
// Remove the metadata for remote calls.
delete(srcInfo.UserDefined, ReservedMetadataPrefix+"compression")
delete(srcInfo.UserDefined, ReservedMetadataPrefix+"actual-size")
reader = gr
}
srcInfo.Reader, err = hash.NewReader(reader, length, "", "", actualSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
var encMetadata = make(map[string]string)
if objectAPI.IsEncryptionSupported() && !isCompressed {
// Encryption parameters not applicable for this object.
if !crypto.IsEncrypted(srcInfo.UserDefined) && crypto.SSECopy.IsRequested(r.Header) {
writeErrorResponse(w, toAPIErrorCode(errInvalidEncryptionParameters), r.URL)
return
}
// Encryption parameters not present for this object.
if crypto.SSEC.IsEncrypted(srcInfo.UserDefined) && !crypto.SSECopy.IsRequested(r.Header) {
writeErrorResponse(w, ErrInvalidSSECustomerAlgorithm, r.URL)
return
}
var oldKey, newKey []byte
sseCopyS3 := crypto.S3.IsEncrypted(srcInfo.UserDefined)
sseCopyC := crypto.SSEC.IsEncrypted(srcInfo.UserDefined) && crypto.SSECopy.IsRequested(r.Header)
sseC := crypto.SSEC.IsRequested(r.Header)
sseS3 := crypto.S3.IsRequested(r.Header)
isSourceEncrypted := sseCopyC || sseCopyS3
isTargetEncrypted := sseC || sseS3
if sseC {
newKey, err = ParseSSECustomerRequest(r)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// AWS S3 implementation requires us to only rotate keys
// when/ both keys are provided and destination is same
// otherwise we proceed to encrypt/decrypt.
if sseCopyC && sseC && cpSrcDstSame {
// Get the old key which needs to be rotated.
oldKey, err = ParseSSECopyCustomerRequest(r.Header, srcInfo.UserDefined)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
for k, v := range srcInfo.UserDefined {
encMetadata[k] = v
}
if err = rotateKey(oldKey, newKey, srcBucket, srcObject, encMetadata); err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Since we are rotating the keys, make sure to update the metadata.
srcInfo.metadataOnly = true
} else {
if isSourceEncrypted || isTargetEncrypted {
// We are not only copying just metadata instead
// we are creating a new object at this point, even
// if source and destination are same objects.
srcInfo.metadataOnly = false
}
// Calculate the size of the target object
var targetSize int64
switch {
case !isSourceEncrypted && !isTargetEncrypted:
fallthrough
case isSourceEncrypted && isTargetEncrypted:
targetSize = srcInfo.Size
// Source not encrypted and target encrypted
case !isSourceEncrypted && isTargetEncrypted:
targetSize = srcInfo.EncryptedSize()
case isSourceEncrypted && !isTargetEncrypted:
targetSize, _ = srcInfo.DecryptedSize()
}
if isTargetEncrypted {
reader, err = newEncryptReader(reader, newKey, dstBucket, dstObject, encMetadata, sseS3)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
if isSourceEncrypted {
// Remove all source encrypted related metadata to
// avoid copying them in target object.
crypto.RemoveInternalEntries(srcInfo.UserDefined)
}
srcInfo.Reader, err = hash.NewReader(reader, targetSize, "", "", targetSize) // do not try to verify encrypted content
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
srcInfo.UserDefined, err = getCpObjMetadataFromHeader(ctx, r, srcInfo.UserDefined)
if err != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
// We need to preserve the encryption headers set in EncryptRequest,
// so we do not want to override them, copy them instead.
for k, v := range encMetadata {
srcInfo.UserDefined[k] = v
}
// Ensure that metadata does not contain sensitive information
crypto.RemoveSensitiveEntries(srcInfo.UserDefined)
// Check if x-amz-metadata-directive was not set to REPLACE and source,
// desination are same objects. Apply this restriction also when
// metadataOnly is true indicating that we are not overwriting the object.
// if encryption is enabled we do not need explicit "REPLACE" metadata to
// be enabled as well - this is to allow for key-rotation.
if !isMetadataReplace(r.Header) && srcInfo.metadataOnly && !crypto.SSEC.IsEncrypted(srcInfo.UserDefined) {
// If x-amz-metadata-directive is not set to REPLACE then we need
// to error out if source and destination are same.
writeErrorResponse(w, ErrInvalidCopyDest, r.URL)
return
}
var objInfo ObjectInfo
// Returns a minio-go Client configured to access remote host described by destDNSRecord
// Applicable only in a federated deployment
var getRemoteInstanceClient = func(host string, port int) (*miniogo.Core, error) {
// In a federated deployment, all the instances share config files and hence expected to have same
// credentials. So, access current instances creds and use it to create client for remote instance
endpoint := net.JoinHostPort(host, strconv.Itoa(port))
accessKey := globalServerConfig.Credential.AccessKey
secretKey := globalServerConfig.Credential.SecretKey
return miniogo.NewCore(endpoint, accessKey, secretKey, globalIsSSL)
}
if isRemoteCallRequired(ctx, srcBucket, dstBucket, objectAPI) {
if globalDNSConfig == nil {
writeErrorResponse(w, ErrNoSuchBucket, r.URL)
return
}
var dstRecords []dns.SrvRecord
if dstRecords, err = globalDNSConfig.Get(dstBucket); err == nil {
// Send PutObject request to appropriate instance (in federated deployment)
host, port := getRandomHostPort(dstRecords)
client, rerr := getRemoteInstanceClient(host, port)
if rerr != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
remoteObjInfo, rerr := client.PutObject(dstBucket, dstObject, srcInfo.Reader, srcInfo.Size, "", "", srcInfo.UserDefined, dstOpts.ServerSideEncryption)
if rerr != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
objInfo.ETag = remoteObjInfo.ETag
objInfo.ModTime = remoteObjInfo.LastModified
}
} else {
// Copy source object to destination, if source and destination
// object is same then only metadata is updated.
objInfo, err = objectAPI.CopyObject(ctx, srcBucket, srcObject, dstBucket, dstObject, srcInfo, srcOpts, dstOpts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
response := generateCopyObjectResponse(objInfo.ETag, objInfo.ModTime)
encodedSuccessResponse := encodeResponse(response)
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
// Get host and port from Request.RemoteAddr.
host, port, err := net.SplitHostPort(handlers.GetSourceIP(r))
if err != nil {
host, port = "", ""
}
if objInfo.IsCompressed() {
objInfo.Size = actualSize
}
// Notify object created event.
sendEvent(eventArgs{
EventName: event.ObjectCreatedCopy,
BucketName: dstBucket,
Object: objInfo,
ReqParams: extractReqParams(r),
UserAgent: r.UserAgent(),
Host: host,
Port: port,
})
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
// PutObjectHandler - PUT Object
// ----------
// This implementation of the PUT operation adds an object to a bucket.
// Notice: The S3 client can send secret keys in headers for encryption related jobs,
// the handler should ensure to remove these keys before sending them to the object layer.
// Currently these keys are:
// - X-Amz-Server-Side-Encryption-Customer-Key
// - X-Amz-Copy-Source-Server-Side-Encryption-Customer-Key
func (api objectAPIHandlers) PutObjectHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PutObject")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) {
writeErrorResponse(w, ErrNotImplemented, r.URL) // SSE-KMS is not supported
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
// X-Amz-Copy-Source shouldn't be set for this call.
if _, ok := r.Header["X-Amz-Copy-Source"]; ok {
writeErrorResponse(w, ErrInvalidCopySource, r.URL)
return
}
// Validate storage class metadata if present
if _, ok := r.Header[amzStorageClassCanonical]; ok {
if !isValidStorageClassMeta(r.Header.Get(amzStorageClassCanonical)) {
writeErrorResponse(w, ErrInvalidStorageClass, r.URL)
return
}
}
// Get Content-Md5 sent by client and verify if valid
md5Bytes, err := checkValidMD5(r.Header)
if err != nil {
writeErrorResponse(w, ErrInvalidDigest, r.URL)
return
}
/// if Content-Length is unknown/missing, deny the request
size := r.ContentLength
rAuthType := getRequestAuthType(r)
if rAuthType == authTypeStreamingSigned {
if sizeStr, ok := r.Header["X-Amz-Decoded-Content-Length"]; ok {
if sizeStr[0] == "" {
writeErrorResponse(w, ErrMissingContentLength, r.URL)
return
}
size, err = strconv.ParseInt(sizeStr[0], 10, 64)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
if size == -1 {
writeErrorResponse(w, ErrMissingContentLength, r.URL)
return
}
/// maximum Upload size for objects in a single operation
if isMaxObjectSize(size) {
writeErrorResponse(w, ErrEntityTooLarge, r.URL)
return
}
metadata, err := extractMetadata(ctx, r)
if err != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
if rAuthType == authTypeStreamingSigned {
if contentEncoding, ok := metadata["content-encoding"]; ok {
contentEncoding = trimAwsChunkedContentEncoding(contentEncoding)
if contentEncoding != "" {
// Make sure to trim and save the content-encoding
// parameter for a streaming signature which is set
// to a custom value for example: "aws-chunked,gzip".
metadata["content-encoding"] = contentEncoding
} else {
// Trimmed content encoding is empty when the header
// value is set to "aws-chunked" only.
// Make sure to delete the content-encoding parameter
// for a streaming signature which is set to value
// for example: "aws-chunked"
delete(metadata, "content-encoding")
}
}
}
var (
md5hex = hex.EncodeToString(md5Bytes)
sha256hex = ""
reader io.Reader
s3Err APIErrorCode
putObject = objectAPI.PutObject
)
reader = r.Body
// Check if put is allowed
if s3Err = isPutAllowed(rAuthType, bucket, object, r); s3Err != ErrNone {
writeErrorResponse(w, s3Err, r.URL)
return
}
switch rAuthType {
case authTypeStreamingSigned:
// Initialize stream signature verifier.
reader, s3Err = newSignV4ChunkedReader(r)
if s3Err != ErrNone {
writeErrorResponse(w, s3Err, r.URL)
return
}
case authTypeSignedV2, authTypePresignedV2:
s3Err = isReqAuthenticatedV2(r)
if s3Err != ErrNone {
writeErrorResponse(w, s3Err, r.URL)
return
}
case authTypePresigned, authTypeSigned:
if s3Err = reqSignatureV4Verify(r, globalServerConfig.GetRegion()); s3Err != ErrNone {
writeErrorResponse(w, s3Err, r.URL)
return
}
if !skipContentSha256Cksum(r) {
sha256hex = getContentSha256Cksum(r)
}
}
actualSize := size
if objectAPI.IsCompressionSupported() && isCompressible(r.Header, object) && size > 0 {
// Storing the compression metadata.
metadata[ReservedMetadataPrefix+"compression"] = compressionAlgorithmV1
metadata[ReservedMetadataPrefix+"actual-size"] = strconv.FormatInt(size, 10)
pipeReader, pipeWriter := io.Pipe()
snappyWriter := snappy.NewWriter(pipeWriter)
var actualReader *hash.Reader
actualReader, err = hash.NewReader(reader, size, md5hex, sha256hex, actualSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
go func() {
// Writing to the compressed writer.
_, cerr := io.CopyN(snappyWriter, actualReader, actualSize)
snappyWriter.Close()
pipeWriter.CloseWithError(cerr)
}()
// Set compression metrics.
size = -1 // Since compressed size is un-predictable.
md5hex = "" // Do not try to verify the content.
sha256hex = ""
reader = pipeReader
}
hashReader, err := hash.NewReader(reader, size, md5hex, sha256hex, actualSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
opts := ObjectOptions{}
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err = objectAPI.GetObjectInfo(ctx, bucket, object, opts); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
if objectAPI.IsEncryptionSupported() {
if hasServerSideEncryptionHeader(r.Header) && !hasSuffix(object, slashSeparator) { // handle SSE requests
reader, err = EncryptRequest(hashReader, r, bucket, object, metadata)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
info := ObjectInfo{Size: size}
hashReader, err = hash.NewReader(reader, info.EncryptedSize(), "", "", size) // do not try to verify encrypted content
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
// Ensure that metadata does not contain sensitive information
crypto.RemoveSensitiveEntries(metadata)
if api.CacheAPI() != nil && !hasServerSideEncryptionHeader(r.Header) {
putObject = api.CacheAPI().PutObject
}
// Create the object..
objInfo, err := putObject(ctx, bucket, object, hashReader, metadata, opts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
if objInfo.IsCompressed() {
// Ignore compressed ETag.
objInfo.ETag = objInfo.ETag + "-1"
}
w.Header().Set("ETag", "\""+objInfo.ETag+"\"")
if objectAPI.IsEncryptionSupported() {
if crypto.IsEncrypted(objInfo.UserDefined) {
switch {
case crypto.S3.IsEncrypted(objInfo.UserDefined):
w.Header().Set(crypto.SSEHeader, crypto.SSEAlgorithmAES256)
case crypto.SSEC.IsRequested(r.Header):
w.Header().Set(crypto.SSECAlgorithm, r.Header.Get(crypto.SSECAlgorithm))
w.Header().Set(crypto.SSECKeyMD5, r.Header.Get(crypto.SSECKeyMD5))
}
}
}
writeSuccessResponseHeadersOnly(w)
// Get host and port from Request.RemoteAddr.
host, port, err := net.SplitHostPort(handlers.GetSourceIP(r))
if err != nil {
host, port = "", ""
}
// Notify object created event.
sendEvent(eventArgs{
EventName: event.ObjectCreatedPut,
BucketName: bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
UserAgent: r.UserAgent(),
Host: host,
Port: port,
})
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
/// Multipart objectAPIHandlers
// NewMultipartUploadHandler - New multipart upload.
// Notice: The S3 client can send secret keys in headers for encryption related jobs,
// the handler should ensure to remove these keys before sending them to the object layer.
// Currently these keys are:
// - X-Amz-Server-Side-Encryption-Customer-Key
// - X-Amz-Copy-Source-Server-Side-Encryption-Customer-Key
func (api objectAPIHandlers) NewMultipartUploadHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "NewMultipartUpload")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) {
writeErrorResponse(w, ErrNotImplemented, r.URL) // SSE-KMS is not supported
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
opts := ObjectOptions{}
if s3Error := checkRequestAuthType(ctx, r, policy.PutObjectAction, bucket, object); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err := objectAPI.GetObjectInfo(ctx, bucket, object, opts); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
// Validate storage class metadata if present
if _, ok := r.Header[amzStorageClassCanonical]; ok {
if !isValidStorageClassMeta(r.Header.Get(amzStorageClassCanonical)) {
writeErrorResponse(w, ErrInvalidStorageClass, r.URL)
return
}
}
var encMetadata = map[string]string{}
if objectAPI.IsEncryptionSupported() {
if hasServerSideEncryptionHeader(r.Header) {
if err := setEncryptionMetadata(r, bucket, object, encMetadata); err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Set this for multipart only operations, we need to differentiate during
// decryption if the file was actually multipart or not.
encMetadata[ReservedMetadataPrefix+"Encrypted-Multipart"] = ""
}
}
// Extract metadata that needs to be saved.
metadata, err := extractMetadata(ctx, r)
if err != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
// We need to preserve the encryption headers set in EncryptRequest,
// so we do not want to override them, copy them instead.
for k, v := range encMetadata {
metadata[k] = v
}
// Ensure that metadata does not contain sensitive information
crypto.RemoveSensitiveEntries(metadata)
if objectAPI.IsCompressionSupported() && isCompressible(r.Header, object) {
// Storing the compression metadata.
metadata[ReservedMetadataPrefix+"compression"] = compressionAlgorithmV1
}
newMultipartUpload := objectAPI.NewMultipartUpload
if api.CacheAPI() != nil && !hasServerSideEncryptionHeader(r.Header) {
newMultipartUpload = api.CacheAPI().NewMultipartUpload
}
uploadID, err := newMultipartUpload(ctx, bucket, object, metadata, opts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
response := generateInitiateMultipartUploadResponse(bucket, object, uploadID)
encodedSuccessResponse := encodeResponse(response)
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// CopyObjectPartHandler - uploads a part by copying data from an existing object as data source.
func (api objectAPIHandlers) CopyObjectPartHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "CopyObjectPart")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) {
writeErrorResponse(w, ErrNotImplemented, r.URL) // SSE-KMS is not supported
return
}
vars := mux.Vars(r)
dstBucket := vars["bucket"]
dstObject := vars["object"]
if s3Error := checkRequestAuthType(ctx, r, policy.PutObjectAction, dstBucket, dstObject); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Copy source path.
cpSrcPath, err := url.QueryUnescape(r.Header.Get("X-Amz-Copy-Source"))
if err != nil {
// Save unescaped string as is.
cpSrcPath = r.Header.Get("X-Amz-Copy-Source")
}
srcBucket, srcObject := path2BucketAndObject(cpSrcPath)
// If source object is empty or bucket is empty, reply back invalid copy source.
if srcObject == "" || srcBucket == "" {
writeErrorResponse(w, ErrInvalidCopySource, r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.GetObjectAction, srcBucket, srcObject); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
uploadID := r.URL.Query().Get("uploadId")
partIDString := r.URL.Query().Get("partNumber")
partID, err := strconv.Atoi(partIDString)
if err != nil {
writeErrorResponse(w, ErrInvalidPart, r.URL)
return
}
// check partID with maximum part ID for multipart objects
if isMaxPartID(partID) {
writeErrorResponse(w, ErrInvalidMaxParts, r.URL)
return
}
var srcOpts, dstOpts ObjectOptions
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err = objectAPI.GetObjectInfo(ctx, dstBucket, dstObject, dstOpts); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
getObjectNInfo := objectAPI.GetObjectNInfo
if api.CacheAPI() != nil {
getObjectNInfo = api.CacheAPI().GetObjectNInfo
}
// Get request range.
var rs *HTTPRangeSpec
rangeHeader := r.Header.Get("x-amz-copy-source-range")
if rangeHeader != "" {
var parseRangeErr error
if rs, parseRangeErr = parseCopyPartRangeSpec(rangeHeader); parseRangeErr != nil {
// Handle only errInvalidRange
// Ignore other parse error and treat it as regular Get request like Amazon S3.
logger.GetReqInfo(ctx).AppendTags("rangeHeader", rangeHeader)
logger.LogIf(ctx, parseRangeErr)
writeCopyPartErr(w, parseRangeErr, r.URL)
return
}
}
gr, err := getObjectNInfo(ctx, srcBucket, srcObject, rs, r.Header, readLock, srcOpts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
defer gr.Close()
srcInfo := gr.ObjInfo
actualPartSize := srcInfo.Size
if crypto.IsEncrypted(srcInfo.UserDefined) {
actualPartSize, err = srcInfo.DecryptedSize()
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// Special care for CopyObjectPart
if partRangeErr := checkCopyPartRangeWithSize(rs, actualPartSize); partRangeErr != nil {
writeCopyPartErr(w, partRangeErr, r.URL)
return
}
// Verify before x-amz-copy-source preconditions before continuing with CopyObject.
if checkCopyObjectPartPreconditions(w, r, srcInfo) {
return
}
// Get the object offset & length
startOffset, length, err := rs.GetOffsetLength(actualPartSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
/// maximum copy size for multipart objects in a single operation
if isMaxAllowedPartSize(length) {
writeErrorResponse(w, ErrEntityTooLarge, r.URL)
return
}
actualPartSize = length
var reader io.Reader
var li ListPartsInfo
li, err = objectAPI.ListObjectParts(ctx, dstBucket, dstObject, uploadID, 0, 1)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Read compression metadata preserved in the init multipart for the decision.
_, compressPart := li.UserDefined[ReservedMetadataPrefix+"compression"]
isCompressed := compressPart
// Compress only if the compression is enabled during initial multipart.
if isCompressed {
// Open a pipe for compression.
// Where pipeWriter is piped to srcInfo.Reader.
// gr writes to pipeWriter.
pipeReader, pipeWriter := io.Pipe()
reader = pipeReader
length = -1
snappyWriter := snappy.NewWriter(pipeWriter)
go func() {
// Compress the decompressed source object.
_, cerr := io.Copy(snappyWriter, gr)
snappyWriter.Close()
pipeWriter.CloseWithError(cerr)
}()
} else {
reader = gr
}
srcInfo.Reader, err = hash.NewReader(reader, length, "", "", actualPartSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
if objectAPI.IsEncryptionSupported() && !isCompressed {
if crypto.IsEncrypted(li.UserDefined) {
if !crypto.SSEC.IsRequested(r.Header) && crypto.SSEC.IsEncrypted(li.UserDefined) {
writeErrorResponse(w, ErrSSEMultipartEncrypted, r.URL)
return
}
if crypto.S3.IsEncrypted(li.UserDefined) && crypto.SSEC.IsRequested(r.Header) {
writeErrorResponse(w, ErrSSEMultipartEncrypted, r.URL)
return
}
var key []byte
if crypto.SSEC.IsRequested(r.Header) {
key, err = ParseSSECustomerRequest(r)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
var objectEncryptionKey []byte
objectEncryptionKey, err = decryptObjectInfo(key, dstBucket, dstObject, li.UserDefined)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
var partIDbin [4]byte
binary.LittleEndian.PutUint32(partIDbin[:], uint32(partID)) // marshal part ID
mac := hmac.New(sha256.New, objectEncryptionKey) // derive part encryption key from part ID and object key
mac.Write(partIDbin[:])
partEncryptionKey := mac.Sum(nil)
reader, err = sio.EncryptReader(reader, sio.Config{Key: partEncryptionKey})
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
info := ObjectInfo{Size: length}
srcInfo.Reader, err = hash.NewReader(reader, info.EncryptedSize(), "", "", length)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
// Copy source object to destination, if source and destination
// object is same then only metadata is updated.
partInfo, err := objectAPI.CopyObjectPart(ctx, srcBucket, srcObject, dstBucket, dstObject, uploadID, partID,
startOffset, length, srcInfo, srcOpts, dstOpts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
response := generateCopyObjectPartResponse(partInfo.ETag, partInfo.LastModified)
encodedSuccessResponse := encodeResponse(response)
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// PutObjectPartHandler - uploads an incoming part for an ongoing multipart operation.
func (api objectAPIHandlers) PutObjectPartHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PutObjectPart")
defer logger.AuditLog(ctx, r)
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) {
writeErrorResponse(w, ErrNotImplemented, r.URL) // SSE-KMS is not supported
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
// X-Amz-Copy-Source shouldn't be set for this call.
if _, ok := r.Header["X-Amz-Copy-Source"]; ok {
writeErrorResponse(w, ErrInvalidCopySource, r.URL)
return
}
// get Content-Md5 sent by client and verify if valid
md5Bytes, err := checkValidMD5(r.Header)
if err != nil {
writeErrorResponse(w, ErrInvalidDigest, r.URL)
return
}
/// if Content-Length is unknown/missing, throw away
size := r.ContentLength
rAuthType := getRequestAuthType(r)
// For auth type streaming signature, we need to gather a different content length.
if rAuthType == authTypeStreamingSigned {
if sizeStr, ok := r.Header["X-Amz-Decoded-Content-Length"]; ok {
if sizeStr[0] == "" {
writeErrorResponse(w, ErrMissingContentLength, r.URL)
return
}
size, err = strconv.ParseInt(sizeStr[0], 10, 64)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
if size == -1 {
writeErrorResponse(w, ErrMissingContentLength, r.URL)
return
}
/// maximum Upload size for multipart objects in a single operation
if isMaxAllowedPartSize(size) {
writeErrorResponse(w, ErrEntityTooLarge, r.URL)
return
}
uploadID := r.URL.Query().Get("uploadId")
partIDString := r.URL.Query().Get("partNumber")
partID, err := strconv.Atoi(partIDString)
if err != nil {
writeErrorResponse(w, ErrInvalidPart, r.URL)
return
}
// check partID with maximum part ID for multipart objects
if isMaxPartID(partID) {
writeErrorResponse(w, ErrInvalidMaxParts, r.URL)
return
}
var (
md5hex = hex.EncodeToString(md5Bytes)
sha256hex = ""
reader io.Reader
s3Error APIErrorCode
)
reader = r.Body
if s3Error = isPutAllowed(rAuthType, bucket, object, r); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
switch rAuthType {
case authTypeStreamingSigned:
// Initialize stream signature verifier.
reader, s3Error = newSignV4ChunkedReader(r)
if s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
case authTypeSignedV2, authTypePresignedV2:
if s3Error = isReqAuthenticatedV2(r); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
case authTypePresigned, authTypeSigned:
if s3Error = reqSignatureV4Verify(r, globalServerConfig.GetRegion()); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
if !skipContentSha256Cksum(r) {
sha256hex = getContentSha256Cksum(r)
}
}
actualSize := size
var pipeReader *io.PipeReader
var pipeWriter *io.PipeWriter
var li ListPartsInfo
li, err = objectAPI.ListObjectParts(ctx, bucket, object, uploadID, 0, 1)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
// Read compression metadata preserved in the init multipart for the decision.
_, compressPart := li.UserDefined[ReservedMetadataPrefix+"compression"]
isCompressed := false
if objectAPI.IsCompressionSupported() && compressPart {
pipeReader, pipeWriter = io.Pipe()
snappyWriter := snappy.NewWriter(pipeWriter)
var actualReader *hash.Reader
actualReader, err = hash.NewReader(reader, size, md5hex, sha256hex, actualSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
go func() {
// Writing to the compressed writer.
_, cerr := io.CopyN(snappyWriter, actualReader, actualSize)
snappyWriter.Close()
pipeWriter.CloseWithError(cerr)
}()
// Set compression metrics.
size = -1 // Since compressed size is un-predictable.
md5hex = "" // Do not try to verify the content.
sha256hex = ""
reader = pipeReader
isCompressed = true
}
hashReader, err := hash.NewReader(reader, size, md5hex, sha256hex, actualSize)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
opts := ObjectOptions{}
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err = objectAPI.GetObjectInfo(ctx, bucket, object, opts); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
isEncrypted := false
if objectAPI.IsEncryptionSupported() && !isCompressed {
var li ListPartsInfo
li, err = objectAPI.ListObjectParts(ctx, bucket, object, uploadID, 0, 1)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
if crypto.IsEncrypted(li.UserDefined) {
isEncrypted = true
if !crypto.SSEC.IsRequested(r.Header) && crypto.SSEC.IsEncrypted(li.UserDefined) {
writeErrorResponse(w, ErrSSEMultipartEncrypted, r.URL)
return
}
var key []byte
if crypto.SSEC.IsRequested(r.Header) {
key, err = ParseSSECustomerRequest(r)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
// Calculating object encryption key
var objectEncryptionKey []byte
objectEncryptionKey, err = decryptObjectInfo(key, bucket, object, li.UserDefined)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
var partIDbin [4]byte
binary.LittleEndian.PutUint32(partIDbin[:], uint32(partID)) // marshal part ID
mac := hmac.New(sha256.New, objectEncryptionKey) // derive part encryption key from part ID and object key
mac.Write(partIDbin[:])
partEncryptionKey := mac.Sum(nil)
reader, err = sio.EncryptReader(hashReader, sio.Config{Key: partEncryptionKey})
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
info := ObjectInfo{Size: size}
hashReader, err = hash.NewReader(reader, info.EncryptedSize(), "", "", size) // do not try to verify encrypted content
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
}
}
putObjectPart := objectAPI.PutObjectPart
if api.CacheAPI() != nil && !isEncrypted {
putObjectPart = api.CacheAPI().PutObjectPart
}
partInfo, err := putObjectPart(ctx, bucket, object, uploadID, partID, hashReader, opts)
if err != nil {
// Verify if the underlying error is signature mismatch.
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
if isCompressed {
pipeWriter.Close()
// Suppress compressed ETag.
partInfo.ETag = partInfo.ETag + "-1"
}
if partInfo.ETag != "" {
w.Header().Set("ETag", "\""+partInfo.ETag+"\"")
}
writeSuccessResponseHeadersOnly(w)
}
// AbortMultipartUploadHandler - Abort multipart upload
func (api objectAPIHandlers) AbortMultipartUploadHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "AbortMultipartUpload")
defer logger.AuditLog(ctx, r)
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
abortMultipartUpload := objectAPI.AbortMultipartUpload
if api.CacheAPI() != nil {
abortMultipartUpload = api.CacheAPI().AbortMultipartUpload
}
if s3Error := checkRequestAuthType(ctx, r, policy.AbortMultipartUploadAction, bucket, object); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err := objectAPI.GetObjectInfo(ctx, bucket, object, ObjectOptions{}); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
uploadID, _, _, _, s3Error := getObjectResources(r.URL.Query())
if s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
if err := abortMultipartUpload(ctx, bucket, object, uploadID); err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
writeSuccessNoContent(w)
}
// ListObjectPartsHandler - List object parts
func (api objectAPIHandlers) ListObjectPartsHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "ListObjectParts")
defer logger.AuditLog(ctx, r)
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.ListMultipartUploadPartsAction, bucket, object); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
uploadID, partNumberMarker, maxParts, _, s3Error := getObjectResources(r.URL.Query())
if s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
if partNumberMarker < 0 {
writeErrorResponse(w, ErrInvalidPartNumberMarker, r.URL)
return
}
if maxParts < 0 {
writeErrorResponse(w, ErrInvalidMaxParts, r.URL)
return
}
listPartsInfo, err := objectAPI.ListObjectParts(ctx, bucket, object, uploadID, partNumberMarker, maxParts)
if err != nil {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
return
}
response := generateListPartsResponse(listPartsInfo)
encodedSuccessResponse := encodeResponse(response)
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// CompleteMultipartUploadHandler - Complete multipart upload.
func (api objectAPIHandlers) CompleteMultipartUploadHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "CompleteMultipartUpload")
defer logger.AuditLog(ctx, r)
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.PutObjectAction, bucket, object); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Deny if WORM is enabled
if globalWORMEnabled {
if _, err := objectAPI.GetObjectInfo(ctx, bucket, object, ObjectOptions{}); err == nil {
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
}
// Get upload id.
uploadID, _, _, _, s3Error := getObjectResources(r.URL.Query())
if s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
completeMultipartBytes, err := goioutil.ReadAll(r.Body)
if err != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
complMultipartUpload := &CompleteMultipartUpload{}
if err = xml.Unmarshal(completeMultipartBytes, complMultipartUpload); err != nil {
writeErrorResponse(w, ErrMalformedXML, r.URL)
return
}
if len(complMultipartUpload.Parts) == 0 {
writeErrorResponse(w, ErrMalformedXML, r.URL)
return
}
if !sort.IsSorted(CompletedParts(complMultipartUpload.Parts)) {
writeErrorResponse(w, ErrInvalidPartOrder, r.URL)
return
}
// Complete parts.
var completeParts []CompletePart
for _, part := range complMultipartUpload.Parts {
// Avoiding for gateway parts.
// `strings.TrimPrefix` does not work here as intended. So `Replace` is used instead.
if objectAPI.IsCompressionSupported() {
part.ETag = strings.Replace(part.ETag, "-1", "", -1) // For compressed multiparts, We append '-1' for part.ETag.
}
part.ETag = canonicalizeETag(part.ETag)
completeParts = append(completeParts, part)
}
completeMultiPartUpload := objectAPI.CompleteMultipartUpload
if api.CacheAPI() != nil {
completeMultiPartUpload = api.CacheAPI().CompleteMultipartUpload
}
objInfo, err := completeMultiPartUpload(ctx, bucket, object, uploadID, completeParts)
if err != nil {
switch oErr := err.(type) {
case PartTooSmall:
// Write part too small error.
writePartSmallErrorResponse(w, r, oErr)
default:
// Handle all other generic issues.
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
}
return
}
// Get object location.
location := getObjectLocation(r, globalDomainName, bucket, object)
// Generate complete multipart response.
response := generateCompleteMultpartUploadResponse(bucket, object, location, objInfo.ETag)
encodedSuccessResponse := encodeResponse(response)
if err != nil {
writeErrorResponse(w, ErrInternalError, r.URL)
return
}
// Set etag.
w.Header().Set("ETag", "\""+objInfo.ETag+"\"")
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
// Get host and port from Request.RemoteAddr.
host, port, err := net.SplitHostPort(handlers.GetSourceIP(r))
if err != nil {
host, port = "", ""
}
// Notify object created event.
sendEvent(eventArgs{
EventName: event.ObjectCreatedCompleteMultipartUpload,
BucketName: bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
UserAgent: r.UserAgent(),
Host: host,
Port: port,
})
for k, v := range objInfo.UserDefined {
logger.GetReqInfo(ctx).SetTags(k, v)
}
logger.GetReqInfo(ctx).SetTags("etag", objInfo.ETag)
}
/// Delete objectAPIHandlers
// DeleteObjectHandler - delete an object
func (api objectAPIHandlers) DeleteObjectHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "DeleteObject")
defer logger.AuditLog(ctx, r)
vars := mux.Vars(r)
bucket := vars["bucket"]
object := vars["object"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(w, ErrServerNotInitialized, r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.DeleteObjectAction, bucket, object); s3Error != ErrNone {
writeErrorResponse(w, s3Error, r.URL)
return
}
// Deny if WORM is enabled
if globalWORMEnabled {
// Not required to check whether given object exists or not, because
// DeleteObject is always successful irrespective of object existence.
writeErrorResponse(w, ErrMethodNotAllowed, r.URL)
return
}
if globalDNSConfig != nil {
_, err := globalDNSConfig.Get(bucket)
if err != nil {
if err == dns.ErrNoEntriesFound {
writeErrorResponse(w, ErrNoSuchBucket, r.URL)
} else {
writeErrorResponse(w, toAPIErrorCode(err), r.URL)
}
return
}
}
// http://docs.aws.amazon.com/AmazonS3/latest/API/RESTObjectDELETE.html
if err := deleteObject(ctx, objectAPI, api.CacheAPI(), bucket, object, r); err != nil {
switch toAPIErrorCode(err) {
case ErrNoSuchBucket:
// When bucket doesn't exist specially handle it.
writeErrorResponse(w, ErrNoSuchBucket, r.URL)
return
}
logger.LogIf(ctx, err)
// Ignore delete object errors while replying to client, since we are suppposed to reply only 204.
}
writeSuccessNoContent(w)
}