minio/cmd/bucket-handlers.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"
"encoding/base64"
"encoding/xml"
"fmt"
"io"
"net/http"
"net/textproto"
"net/url"
"path"
"sort"
"strconv"
"strings"
"sync"
"github.com/google/uuid"
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"github.com/gorilla/mux"
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"github.com/minio/madmin-go/v2"
"github.com/minio/minio-go/v7/pkg/set"
"github.com/minio/minio-go/v7/pkg/tags"
sse "github.com/minio/minio/internal/bucket/encryption"
objectlock "github.com/minio/minio/internal/bucket/object/lock"
"github.com/minio/minio/internal/bucket/replication"
"github.com/minio/minio/internal/config/dns"
"github.com/minio/minio/internal/crypto"
"github.com/minio/minio/internal/event"
"github.com/minio/minio/internal/handlers"
"github.com/minio/minio/internal/hash"
xhttp "github.com/minio/minio/internal/http"
"github.com/minio/minio/internal/kms"
"github.com/minio/minio/internal/logger"
"github.com/minio/minio/internal/sync/errgroup"
"github.com/minio/pkg/bucket/policy"
iampolicy "github.com/minio/pkg/iam/policy"
)
const (
objectLockConfig = "object-lock.xml"
bucketTaggingConfig = "tagging.xml"
bucketReplicationConfig = "replication.xml"
)
// Check if there are buckets on server without corresponding entry in etcd backend and
// make entries. Here is the general flow
// - Range over all the available buckets
// - Check if a bucket has an entry in etcd backend
// -- If no, make an entry
// -- If yes, check if the entry matches local IP check if we
//
// need to update the entry then proceed to update
//
// -- If yes, check if the IP of entry matches local IP.
//
// This means entry is for this instance.
//
// -- If IP of the entry doesn't match, this means entry is
//
// for another instance. Log an error to console.
func initFederatorBackend(buckets []BucketInfo, objLayer ObjectLayer) {
if len(buckets) == 0 {
return
}
// Get buckets in the DNS
dnsBuckets, err := globalDNSConfig.List()
if err != nil && !IsErrIgnored(err, dns.ErrNoEntriesFound, dns.ErrNotImplemented, dns.ErrDomainMissing) {
logger.LogIf(GlobalContext, err)
return
}
bucketsSet := set.NewStringSet()
bucketsToBeUpdated := set.NewStringSet()
bucketsInConflict := set.NewStringSet()
// This means that domain is updated, we should update
// all bucket entries with new domain name.
domainMissing := err == dns.ErrDomainMissing
if dnsBuckets != nil {
for _, bucket := range buckets {
bucketsSet.Add(bucket.Name)
r, ok := dnsBuckets[bucket.Name]
if !ok {
bucketsToBeUpdated.Add(bucket.Name)
continue
}
if !globalDomainIPs.Intersection(set.CreateStringSet(getHostsSlice(r)...)).IsEmpty() {
if globalDomainIPs.Difference(set.CreateStringSet(getHostsSlice(r)...)).IsEmpty() && !domainMissing {
// No difference in terms of domainIPs and nothing
// has changed so we don't change anything on the etcd.
//
// Additionally also check if domain is updated/missing with more
// entries, if that is the case we should update the
// new domain entries as well.
continue
}
// if domain IPs intersect then it won't be an empty set.
// such an intersection means that bucket exists on etcd.
// but if we do see a difference with local domain IPs with
// hostSlice from etcd then we should update with newer
// domainIPs, we proceed to do that here.
bucketsToBeUpdated.Add(bucket.Name)
continue
}
// No IPs seem to intersect, this means that bucket exists but has
// different IP addresses perhaps from a different deployment.
// bucket names are globally unique in federation at a given
// path prefix, name collision is not allowed. We simply log
// an error and continue.
bucketsInConflict.Add(bucket.Name)
}
}
// Add/update buckets that are not registered with the DNS
bucketsToBeUpdatedSlice := bucketsToBeUpdated.ToSlice()
g := errgroup.WithNErrs(len(bucketsToBeUpdatedSlice)).WithConcurrency(50)
for index := range bucketsToBeUpdatedSlice {
index := index
g.Go(func() error {
return globalDNSConfig.Put(bucketsToBeUpdatedSlice[index])
}, index)
}
ctx := GlobalContext
for _, err := range g.Wait() {
if err != nil {
logger.LogIf(ctx, err)
return
}
}
for _, bucket := range bucketsInConflict.ToSlice() {
logger.LogIf(ctx, fmt.Errorf("Unable to add bucket DNS entry for bucket %s, an entry exists for the same bucket by a different tenant. This local bucket will be ignored. Bucket names are globally unique in federated deployments. Use path style requests on following addresses '%v' to access this bucket", bucket, globalDomainIPs.ToSlice()))
}
var wg sync.WaitGroup
// Remove buckets that are in DNS for this server, but aren't local
for bucket, records := range dnsBuckets {
if bucketsSet.Contains(bucket) {
continue
}
if globalDomainIPs.Intersection(set.CreateStringSet(getHostsSlice(records)...)).IsEmpty() {
// This is not for our server, so we can continue
continue
}
wg.Add(1)
go func(bucket string) {
defer wg.Done()
// We go to here, so we know the bucket no longer exists,
// but is registered in DNS to this server
if err := globalDNSConfig.Delete(bucket); err != nil {
logger.LogIf(GlobalContext, fmt.Errorf("Failed to remove DNS entry for %s due to %w",
bucket, err))
}
}(bucket)
}
wg.Wait()
}
// GetBucketLocationHandler - GET Bucket location.
// -------------------------
// This operation returns bucket location.
func (api objectAPIHandlers) GetBucketLocationHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "GetBucketLocation")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.GetBucketLocationAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
getBucketInfo := objectAPI.GetBucketInfo
if _, err := getBucketInfo(ctx, bucket, BucketOptions{}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Generate response.
encodedSuccessResponse := encodeResponse(LocationResponse{})
// Get current region.
region := globalSite.Region
if region != globalMinioDefaultRegion {
encodedSuccessResponse = encodeResponse(LocationResponse{
Location: region,
})
}
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// ListMultipartUploadsHandler - GET Bucket (List Multipart uploads)
// -------------------------
// This operation lists in-progress multipart uploads. An in-progress
// multipart upload is a multipart upload that has been initiated,
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// using the Initiate Multipart Upload request, but has not yet been
// completed or aborted. This operation returns at most 1,000 multipart
// uploads in the response.
func (api objectAPIHandlers) ListMultipartUploadsHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "ListMultipartUploads")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
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bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.ListBucketMultipartUploadsAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
prefix, keyMarker, uploadIDMarker, delimiter, maxUploads, encodingType, errCode := getBucketMultipartResources(r.Form)
if errCode != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(errCode), r.URL)
return
}
if maxUploads < 0 {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrInvalidMaxUploads), r.URL)
return
}
if keyMarker != "" {
// Marker not common with prefix is not implemented.
if !HasPrefix(keyMarker, prefix) {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL)
return
}
}
listMultipartsInfo, err := objectAPI.ListMultipartUploads(ctx, bucket, prefix, keyMarker, uploadIDMarker, delimiter, maxUploads)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
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return
}
// generate response
response := generateListMultipartUploadsResponse(bucket, listMultipartsInfo, encodingType)
encodedSuccessResponse := encodeResponse(response)
// write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// ListBucketsHandler - GET Service.
// -----------
// This implementation of the GET operation returns a list of all buckets
// owned by the authenticated sender of the request.
func (api objectAPIHandlers) ListBucketsHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "ListBuckets")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
listBuckets := objectAPI.ListBuckets
cred, owner, s3Error := checkRequestAuthTypeCredential(ctx, r, policy.ListAllMyBucketsAction)
if s3Error != ErrNone && s3Error != ErrAccessDenied {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
// Anonymous users, should be rejected.
if cred.AccessKey == "" {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrAccessDenied), r.URL)
return
}
// If etcd, dns federation configured list buckets from etcd.
var bucketsInfo []BucketInfo
if globalDNSConfig != nil && globalBucketFederation {
dnsBuckets, err := globalDNSConfig.List()
if err != nil && !IsErrIgnored(err,
dns.ErrNoEntriesFound,
dns.ErrDomainMissing) {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
for _, dnsRecords := range dnsBuckets {
bucketsInfo = append(bucketsInfo, BucketInfo{
Name: dnsRecords[0].Key,
Created: dnsRecords[0].CreationDate,
})
}
sort.Slice(bucketsInfo, func(i, j int) bool {
return bucketsInfo[i].Name < bucketsInfo[j].Name
})
} else {
// Invoke the list buckets.
var err error
bucketsInfo, err = listBuckets(ctx, BucketOptions{})
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
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}
if s3Error == ErrAccessDenied {
// Set prefix value for "s3:prefix" policy conditionals.
r.Header.Set("prefix", "")
// Set delimiter value for "s3:delimiter" policy conditionals.
r.Header.Set("delimiter", SlashSeparator)
n := 0
// Use the following trick to filter in place
// https://github.com/golang/go/wiki/SliceTricks#filter-in-place
for _, bucketInfo := range bucketsInfo {
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Groups: cred.Groups,
Action: iampolicy.ListBucketAction,
BucketName: bucketInfo.Name,
ConditionValues: getConditionValues(r, "", cred.AccessKey, cred.Claims),
IsOwner: owner,
ObjectName: "",
Claims: cred.Claims,
}) {
bucketsInfo[n] = bucketInfo
n++
} else if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Groups: cred.Groups,
Action: iampolicy.GetBucketLocationAction,
BucketName: bucketInfo.Name,
ConditionValues: getConditionValues(r, "", cred.AccessKey, cred.Claims),
IsOwner: owner,
ObjectName: "",
Claims: cred.Claims,
}) {
bucketsInfo[n] = bucketInfo
n++
}
}
bucketsInfo = bucketsInfo[:n]
// No buckets can be filtered return access denied error.
if len(bucketsInfo) == 0 {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
}
// Generate response.
response := generateListBucketsResponse(bucketsInfo)
encodedSuccessResponse := encodeResponse(response)
// Write response.
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// DeleteMultipleObjectsHandler - deletes multiple objects.
func (api objectAPIHandlers) DeleteMultipleObjectsHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "DeleteMultipleObjects")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
// Content-Md5 is requied should be set
// http://docs.aws.amazon.com/AmazonS3/latest/API/multiobjectdeleteapi.html
if _, ok := r.Header[xhttp.ContentMD5]; !ok {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMissingContentMD5), r.URL)
return
}
// Content-Length is required and should be non-zero
// http://docs.aws.amazon.com/AmazonS3/latest/API/multiobjectdeleteapi.html
if r.ContentLength <= 0 {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMissingContentLength), r.URL)
return
}
// The max. XML contains 100000 object names (each at most 1024 bytes long) + XML overhead
const maxBodySize = 2 * 100000 * 1024
// Unmarshal list of keys to be deleted.
deleteObjectsReq := &DeleteObjectsRequest{}
if err := xmlDecoder(r.Body, deleteObjectsReq, maxBodySize); err != nil {
logger.LogIf(ctx, err, logger.Application)
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
objects := make([]ObjectV, len(deleteObjectsReq.Objects))
// Convert object name delete objects if it has `/` in the beginning.
for i := range deleteObjectsReq.Objects {
deleteObjectsReq.Objects[i].ObjectName = trimLeadingSlash(deleteObjectsReq.Objects[i].ObjectName)
objects[i] = deleteObjectsReq.Objects[i].ObjectV
}
// Make sure to update context to print ObjectNames for multi objects.
ctx = updateReqContext(ctx, objects...)
// Call checkRequestAuthType to populate ReqInfo.AccessKey before GetBucketInfo()
// Ignore errors here to preserve the S3 error behavior of GetBucketInfo()
checkRequestAuthType(ctx, r, policy.DeleteObjectAction, bucket, "")
// Before proceeding validate if bucket exists.
_, err := objectAPI.GetBucketInfo(ctx, bucket, BucketOptions{})
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
deleteObjectsFn := objectAPI.DeleteObjects
if api.CacheAPI() != nil {
deleteObjectsFn = api.CacheAPI().DeleteObjects
}
// Return Malformed XML as S3 spec if the number of objects is empty
if len(deleteObjectsReq.Objects) == 0 || len(deleteObjectsReq.Objects) > maxDeleteList {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedXML), r.URL)
return
}
objectsToDelete := map[ObjectToDelete]int{}
getObjectInfoFn := objectAPI.GetObjectInfo
if api.CacheAPI() != nil {
getObjectInfoFn = api.CacheAPI().GetObjectInfo
}
var (
hasLockEnabled bool
dsc ReplicateDecision
goi ObjectInfo
gerr error
)
replicateDeletes := hasReplicationRules(ctx, bucket, deleteObjectsReq.Objects)
if rcfg, _ := globalBucketObjectLockSys.Get(bucket); rcfg.LockEnabled {
hasLockEnabled = true
}
type deleteResult struct {
delInfo DeletedObject
errInfo DeleteError
}
deleteResults := make([]deleteResult, len(deleteObjectsReq.Objects))
vc, _ := globalBucketVersioningSys.Get(bucket)
oss := make([]*objSweeper, len(deleteObjectsReq.Objects))
for index, object := range deleteObjectsReq.Objects {
if apiErrCode := checkRequestAuthType(ctx, r, policy.DeleteObjectAction, bucket, object.ObjectName); apiErrCode != ErrNone {
if apiErrCode == ErrSignatureDoesNotMatch || apiErrCode == ErrInvalidAccessKeyID {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(apiErrCode), r.URL)
return
}
apiErr := errorCodes.ToAPIErr(apiErrCode)
deleteResults[index].errInfo = DeleteError{
Code: apiErr.Code,
Message: apiErr.Description,
Key: object.ObjectName,
VersionID: object.VersionID,
}
continue
}
if object.VersionID != "" && object.VersionID != nullVersionID {
if _, err := uuid.Parse(object.VersionID); err != nil {
logger.LogIf(ctx, fmt.Errorf("invalid version-id specified %w", err))
apiErr := errorCodes.ToAPIErr(ErrNoSuchVersion)
deleteResults[index].errInfo = DeleteError{
Code: apiErr.Code,
Message: apiErr.Description,
Key: object.ObjectName,
VersionID: object.VersionID,
}
continue
}
}
opts := ObjectOptions{
VersionID: object.VersionID,
Versioned: vc.PrefixEnabled(object.ObjectName),
VersionSuspended: vc.Suspended(),
}
if replicateDeletes || object.VersionID != "" && hasLockEnabled || !globalTierConfigMgr.Empty() {
if !globalTierConfigMgr.Empty() && object.VersionID == "" && opts.VersionSuspended {
opts.VersionID = nullVersionID
}
goi, gerr = getObjectInfoFn(ctx, bucket, object.ObjectName, opts)
}
if !globalTierConfigMgr.Empty() {
oss[index] = newObjSweeper(bucket, object.ObjectName).WithVersion(opts.VersionID).WithVersioning(opts.Versioned, opts.VersionSuspended)
oss[index].SetTransitionState(goi.TransitionedObject)
}
if replicateDeletes {
dsc = checkReplicateDelete(ctx, bucket, ObjectToDelete{
ObjectV: ObjectV{
ObjectName: object.ObjectName,
VersionID: object.VersionID,
},
}, goi, opts, gerr)
if dsc.ReplicateAny() {
if object.VersionID != "" {
object.VersionPurgeStatus = Pending
object.VersionPurgeStatuses = dsc.PendingStatus()
} else {
object.DeleteMarkerReplicationStatus = dsc.PendingStatus()
}
object.ReplicateDecisionStr = dsc.String()
}
}
if object.VersionID != "" && hasLockEnabled {
if apiErrCode := enforceRetentionBypassForDelete(ctx, r, bucket, object, goi, gerr); apiErrCode != ErrNone {
apiErr := errorCodes.ToAPIErr(apiErrCode)
deleteResults[index].errInfo = DeleteError{
Code: apiErr.Code,
Message: apiErr.Description,
Key: object.ObjectName,
VersionID: object.VersionID,
}
continue
}
}
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// Avoid duplicate objects, we use map to filter them out.
if _, ok := objectsToDelete[object]; !ok {
objectsToDelete[object] = index
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}
}
toNames := func(input map[ObjectToDelete]int) (output []ObjectToDelete) {
output = make([]ObjectToDelete, len(input))
idx := 0
for obj := range input {
output[idx] = obj
idx++
}
return
}
// Disable timeouts and cancellation
ctx = bgContext(ctx)
deleteList := toNames(objectsToDelete)
dObjects, errs := deleteObjectsFn(ctx, bucket, deleteList, ObjectOptions{
PrefixEnabledFn: vc.PrefixEnabled,
VersionSuspended: vc.Suspended(),
})
for i := range errs {
// DeleteMarkerVersionID is not used specifically to avoid
// lookup errors, since DeleteMarkerVersionID is only
// created during DeleteMarker creation when client didn't
// specify a versionID.
objToDel := ObjectToDelete{
ObjectV: ObjectV{
ObjectName: dObjects[i].ObjectName,
VersionID: dObjects[i].VersionID,
},
VersionPurgeStatus: dObjects[i].VersionPurgeStatus(),
VersionPurgeStatuses: dObjects[i].ReplicationState.VersionPurgeStatusInternal,
DeleteMarkerReplicationStatus: dObjects[i].ReplicationState.ReplicationStatusInternal,
ReplicateDecisionStr: dObjects[i].ReplicationState.ReplicateDecisionStr,
}
dindex := objectsToDelete[objToDel]
if errs[i] == nil || isErrObjectNotFound(errs[i]) || isErrVersionNotFound(errs[i]) {
if replicateDeletes {
dObjects[i].ReplicationState = deleteList[i].ReplicationState()
}
deleteResults[dindex].delInfo = dObjects[i]
continue
}
apiErr := toAPIError(ctx, errs[i])
deleteResults[dindex].errInfo = DeleteError{
Code: apiErr.Code,
Message: apiErr.Description,
Key: deleteList[i].ObjectName,
VersionID: deleteList[i].VersionID,
}
}
// Generate response
deleteErrors := make([]DeleteError, 0, len(deleteObjectsReq.Objects))
deletedObjects := make([]DeletedObject, 0, len(deleteObjectsReq.Objects))
for _, deleteResult := range deleteResults {
if deleteResult.errInfo.Code != "" {
deleteErrors = append(deleteErrors, deleteResult.errInfo)
} else {
deletedObjects = append(deletedObjects, deleteResult.delInfo)
}
}
response := generateMultiDeleteResponse(deleteObjectsReq.Quiet, deletedObjects, deleteErrors)
encodedSuccessResponse := encodeResponse(response)
// Write success response.
writeSuccessResponseXML(w, encodedSuccessResponse)
for _, dobj := range deletedObjects {
if dobj.ObjectName == "" {
continue
}
if replicateDeletes && (dobj.DeleteMarkerReplicationStatus() == replication.Pending || dobj.VersionPurgeStatus() == Pending) {
dv := DeletedObjectReplicationInfo{
DeletedObject: dobj,
Bucket: bucket,
EventType: ReplicateIncomingDelete,
}
scheduleReplicationDelete(ctx, dv, objectAPI)
}
eventName := event.ObjectRemovedDelete
objInfo := ObjectInfo{
Name: dobj.ObjectName,
VersionID: dobj.VersionID,
DeleteMarker: dobj.DeleteMarker,
}
if objInfo.DeleteMarker {
objInfo.VersionID = dobj.DeleteMarkerVersionID
eventName = event.ObjectRemovedDeleteMarkerCreated
}
sendEvent(eventArgs{
EventName: eventName,
BucketName: bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: handlers.GetSourceIP(r),
})
}
// Clean up transitioned objects from remote tier
for _, os := range oss {
if os == nil { // skip objects that weren't deleted due to invalid versionID etc.
continue
}
logger.LogIf(ctx, os.Sweep())
}
}
// PutBucketHandler - PUT Bucket
// ----------
// This implementation of the PUT operation creates a new bucket for authenticated request
func (api objectAPIHandlers) PutBucketHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PutBucket")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
vars := mux.Vars(r)
bucket := vars["bucket"]
objectLockEnabled := false
if vs := r.Header.Get(xhttp.AmzObjectLockEnabled); len(vs) > 0 {
v := strings.ToLower(vs)
switch v {
case "true", "false":
objectLockEnabled = v == "true"
default:
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrInvalidRequest), r.URL)
return
}
}
forceCreate := false
if vs := r.Header.Get(xhttp.MinIOForceCreate); len(vs) > 0 {
v := strings.ToLower(vs)
switch v {
case "true", "false":
forceCreate = v == "true"
default:
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrInvalidRequest), r.URL)
return
}
}
cred, owner, s3Error := checkRequestAuthTypeCredential(ctx, r, policy.CreateBucketAction)
if s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
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}
if objectLockEnabled {
// Creating a bucket with locking requires the user having more permissions
for _, action := range []iampolicy.Action{iampolicy.PutBucketObjectLockConfigurationAction, iampolicy.PutBucketVersioningAction} {
if !globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Groups: cred.Groups,
Action: action,
ConditionValues: getConditionValues(r, "", cred.AccessKey, cred.Claims),
BucketName: bucket,
IsOwner: owner,
Claims: cred.Claims,
}) {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrAccessDenied), r.URL)
return
}
}
}
// Parse incoming location constraint.
location, s3Error := parseLocationConstraint(r)
if s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
// Validate if location sent by the client is valid, reject
// requests which do not follow valid region requirements.
if !isValidLocation(location) {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrInvalidRegion), r.URL)
return
}
// check if client is attempting to create more buckets than allowed maximum.
if currBuckets := globalBucketMetadataSys.Count(); currBuckets+1 > maxBuckets {
apiErr := errorCodes.ToAPIErr(ErrTooManyBuckets)
apiErr.Description = fmt.Sprintf("You have attempted to create %d buckets than allowed %d", currBuckets+1, maxBuckets)
writeErrorResponse(ctx, w, apiErr, r.URL)
return
}
opts := MakeBucketOptions{
Location: location,
LockEnabled: objectLockEnabled,
ForceCreate: forceCreate,
}
if globalDNSConfig != nil {
sr, err := globalDNSConfig.Get(bucket)
if err != nil {
// ErrNotImplemented indicates a DNS backend that doesn't need to check if bucket already
// exists elsewhere
if err == dns.ErrNoEntriesFound || err == dns.ErrNotImplemented {
// Proceed to creating a bucket.
if err = objectAPI.MakeBucketWithLocation(ctx, bucket, opts); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
if err = globalDNSConfig.Put(bucket); err != nil {
objectAPI.DeleteBucket(context.Background(), bucket, DeleteBucketOptions{
Force: false,
NoRecreate: true,
SRDeleteOp: getSRBucketDeleteOp(globalSiteReplicationSys.isEnabled()),
})
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Load updated bucket metadata into memory.
globalNotificationSys.LoadBucketMetadata(GlobalContext, bucket)
// Make sure to add Location information here only for bucket
w.Header().Set(xhttp.Location,
getObjectLocation(r, globalDomainNames, bucket, ""))
writeSuccessResponseHeadersOnly(w)
sendEvent(eventArgs{
EventName: event.BucketCreated,
BucketName: bucket,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: handlers.GetSourceIP(r),
})
return
}
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
apiErr := ErrBucketAlreadyExists
if !globalDomainIPs.Intersection(set.CreateStringSet(getHostsSlice(sr)...)).IsEmpty() {
apiErr = ErrBucketAlreadyOwnedByYou
}
// No IPs seem to intersect, this means that bucket exists but has
// different IP addresses perhaps from a different deployment.
// bucket names are globally unique in federation at a given
// path prefix, name collision is not allowed. Return appropriate error.
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(apiErr), r.URL)
return
}
// Proceed to creating a bucket.
if err := objectAPI.MakeBucketWithLocation(ctx, bucket, opts); err != nil {
if _, ok := err.(BucketExists); ok {
// Though bucket exists locally, we send the site-replication
// hook to ensure all sites have this bucket. If the hook
// succeeds, the client will still receive a bucket exists
// message.
globalSiteReplicationSys.MakeBucketHook(ctx, bucket, opts)
}
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
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return
}
// Load updated bucket metadata into memory.
globalNotificationSys.LoadBucketMetadata(GlobalContext, bucket)
// Call site replication hook
globalSiteReplicationSys.MakeBucketHook(ctx, bucket, opts)
// Make sure to add Location information here only for bucket
if cp := pathClean(r.URL.Path); cp != "" {
w.Header().Set(xhttp.Location, cp) // Clean any trailing slashes.
}
writeSuccessResponseHeadersOnly(w)
sendEvent(eventArgs{
EventName: event.BucketCreated,
BucketName: bucket,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: handlers.GetSourceIP(r),
})
}
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// PostPolicyBucketHandler - POST policy
// ----------
// This implementation of the POST operation handles object creation with a specified
// signature policy in multipart/form-data
func (api objectAPIHandlers) PostPolicyBucketHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PostPolicyBucket")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
if crypto.S3KMS.IsRequested(r.Header) { // SSE-KMS is not supported
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL)
return
}
if crypto.Requested(r.Header) && !objectAPI.IsEncryptionSupported() {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL)
return
}
bucket := mux.Vars(r)["bucket"]
// Require Content-Length to be set in the request
size := r.ContentLength
if size < 0 {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMissingContentLength), r.URL)
return
}
resource, err := getResource(r.URL.Path, r.Host, globalDomainNames)
if err != nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrInvalidRequest), r.URL)
return
}
// Make sure that the URL does not contain object name.
if bucket != path.Clean(resource[1:]) {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMethodNotAllowed), r.URL)
return
}
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// Here the parameter is the size of the form data that should
// be loaded in memory, the remaining being put in temporary files.
reader, err := r.MultipartReader()
if err != nil {
logger.LogIf(ctx, err)
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL)
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return
}
// Read multipart data and save in memory and in the disk if needed
form, err := reader.ReadForm(maxFormMemory)
if err != nil {
logger.LogIf(ctx, err, logger.Application)
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL)
return
}
// Remove all tmp files created during multipart upload
defer form.RemoveAll()
// Extract all form fields
fileBody, fileName, fileSize, formValues, err := extractPostPolicyFormValues(ctx, form)
if err != nil {
logger.LogIf(ctx, err, logger.Application)
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL)
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return
}
// Check if file is provided, error out otherwise.
if fileBody == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrPOSTFileRequired), r.URL)
return
}
// Close multipart file
defer fileBody.Close()
formValues.Set("Bucket", bucket)
if fileName != "" && strings.Contains(formValues.Get("Key"), "${filename}") {
// S3 feature to replace ${filename} found in Key form field
// by the filename attribute passed in multipart
formValues.Set("Key", strings.ReplaceAll(formValues.Get("Key"), "${filename}", fileName))
}
object := trimLeadingSlash(formValues.Get("Key"))
successRedirect := formValues.Get("success_action_redirect")
successStatus := formValues.Get("success_action_status")
var redirectURL *url.URL
if successRedirect != "" {
redirectURL, err = url.Parse(successRedirect)
if err != nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL)
return
}
}
// Verify policy signature.
cred, errCode := doesPolicySignatureMatch(formValues)
if errCode != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(errCode), r.URL)
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return
}
// Once signature is validated, check if the user has
// explicit permissions for the user.
if !globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Groups: cred.Groups,
Action: iampolicy.PutObjectAction,
ConditionValues: getConditionValues(r, "", cred.AccessKey, cred.Claims),
BucketName: bucket,
ObjectName: object,
IsOwner: globalActiveCred.AccessKey == cred.AccessKey,
Claims: cred.Claims,
}) {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrAccessDenied), r.URL)
return
}
policyBytes, err := base64.StdEncoding.DecodeString(formValues.Get("Policy"))
if err != nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL)
return
}
// Handle policy if it is set.
if len(policyBytes) > 0 {
postPolicyForm, err := parsePostPolicyForm(bytes.NewReader(policyBytes))
if err != nil {
errAPI := errorCodes.ToAPIErr(ErrPostPolicyConditionInvalidFormat)
errAPI.Description = fmt.Sprintf("%s '(%s)'", errAPI.Description, err)
writeErrorResponse(ctx, w, errAPI, r.URL)
return
}
// Make sure formValues adhere to policy restrictions.
if err = checkPostPolicy(formValues, postPolicyForm); err != nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErrWithErr(ErrAccessDenied, err), r.URL)
return
}
// Ensure that the object size is within expected range, also the file size
// should not exceed the maximum single Put size (5 GiB)
lengthRange := postPolicyForm.Conditions.ContentLengthRange
if lengthRange.Valid {
if fileSize < lengthRange.Min {
writeErrorResponse(ctx, w, toAPIError(ctx, errDataTooSmall), r.URL)
return
}
if fileSize > lengthRange.Max || isMaxObjectSize(fileSize) {
writeErrorResponse(ctx, w, toAPIError(ctx, errDataTooLarge), r.URL)
return
}
}
}
// Extract metadata to be saved from received Form.
metadata := make(map[string]string)
err = extractMetadataFromMime(ctx, textproto.MIMEHeader(formValues), metadata)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
pkg/etag: add new package for S3 ETag handling (#11577) This commit adds a new package `etag` for dealing with S3 ETags. Even though ETag is often viewed as MD5 checksum of an object, handling S3 ETags correctly is a surprisingly complex task. While it is true that the ETag corresponds to the MD5 for the most basic S3 API operations, there are many exceptions in case of multipart uploads or encryption. In worse, some S3 clients expect very specific behavior when it comes to ETags. For example, some clients expect that the ETag is a double-quoted string and fail otherwise. Non-AWS compliant ETag handling has been a source of many bugs in the past. Therefore, this commit adds a dedicated `etag` package that provides functionality for parsing, generating and converting S3 ETags. Further, this commit removes the ETag computation from the `hash` package. Instead, the `hash` package (i.e. `hash.Reader`) should focus only on computing and verifying the content-sha256. One core feature of this commit is to provide a mechanism to communicate a computed ETag from a low-level `io.Reader` to a high-level `io.Reader`. This problem occurs when an S3 server receives a request and has to compute the ETag of the content. However, the server may also wrap the initial body with several other `io.Reader`, e.g. when encrypting or compressing the content: ``` reader := Encrypt(Compress(ETag(content))) ``` In such a case, the ETag should be accessible by the high-level `io.Reader`. The `etag` provides a mechanism to wrap `io.Reader` implementations such that the `ETag` can be accessed by a type-check. This technique is applied to the PUT, COPY and Upload handlers.
2021-02-23 15:31:53 -05:00
hashReader, err := hash.NewReader(fileBody, fileSize, "", "", fileSize)
if err != nil {
logger.LogIf(ctx, err)
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
rawReader := hashReader
pReader := NewPutObjReader(rawReader)
var objectEncryptionKey crypto.ObjectKey
// Check if bucket encryption is enabled
sseConfig, _ := globalBucketSSEConfigSys.Get(bucket)
sseConfig.Apply(r.Header, sse.ApplyOptions{
AutoEncrypt: globalAutoEncryption,
})
var opts ObjectOptions
opts, err = putOpts(ctx, r, bucket, object, metadata)
if err != nil {
writeErrorResponseHeadersOnly(w, toAPIError(ctx, err))
return
}
if objectAPI.IsEncryptionSupported() {
if crypto.Requested(formValues) && !HasSuffix(object, SlashSeparator) { // handle SSE requests
if crypto.SSECopy.IsRequested(r.Header) {
writeErrorResponse(ctx, w, toAPIError(ctx, errInvalidEncryptionParameters), r.URL)
return
}
var (
reader io.Reader
keyID string
key []byte
kmsCtx kms.Context
)
kind, _ := crypto.IsRequested(formValues)
switch kind {
case crypto.SSEC:
key, err = ParseSSECustomerHeader(formValues)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
case crypto.S3KMS:
keyID, kmsCtx, err = crypto.S3KMS.ParseHTTP(formValues)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
}
reader, objectEncryptionKey, err = newEncryptReader(ctx, hashReader, kind, keyID, key, bucket, object, metadata, kmsCtx)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
info := ObjectInfo{Size: fileSize}
// do not try to verify encrypted content
pkg/etag: add new package for S3 ETag handling (#11577) This commit adds a new package `etag` for dealing with S3 ETags. Even though ETag is often viewed as MD5 checksum of an object, handling S3 ETags correctly is a surprisingly complex task. While it is true that the ETag corresponds to the MD5 for the most basic S3 API operations, there are many exceptions in case of multipart uploads or encryption. In worse, some S3 clients expect very specific behavior when it comes to ETags. For example, some clients expect that the ETag is a double-quoted string and fail otherwise. Non-AWS compliant ETag handling has been a source of many bugs in the past. Therefore, this commit adds a dedicated `etag` package that provides functionality for parsing, generating and converting S3 ETags. Further, this commit removes the ETag computation from the `hash` package. Instead, the `hash` package (i.e. `hash.Reader`) should focus only on computing and verifying the content-sha256. One core feature of this commit is to provide a mechanism to communicate a computed ETag from a low-level `io.Reader` to a high-level `io.Reader`. This problem occurs when an S3 server receives a request and has to compute the ETag of the content. However, the server may also wrap the initial body with several other `io.Reader`, e.g. when encrypting or compressing the content: ``` reader := Encrypt(Compress(ETag(content))) ``` In such a case, the ETag should be accessible by the high-level `io.Reader`. The `etag` provides a mechanism to wrap `io.Reader` implementations such that the `ETag` can be accessed by a type-check. This technique is applied to the PUT, COPY and Upload handlers.
2021-02-23 15:31:53 -05:00
hashReader, err = hash.NewReader(reader, info.EncryptedSize(), "", "", fileSize)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
pReader, err = pReader.WithEncryption(hashReader, &objectEncryptionKey)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
}
}
objInfo, err := objectAPI.PutObject(ctx, bucket, object, pReader, opts)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
2015-10-02 02:51:17 -04:00
return
}
// We must not use the http.Header().Set method here because some (broken)
// clients expect the ETag header key to be literally "ETag" - not "Etag" (case-sensitive).
// Therefore, we have to set the ETag directly as map entry.
w.Header()[xhttp.ETag] = []string{`"` + objInfo.ETag + `"`}
// Set the relevant version ID as part of the response header.
if objInfo.VersionID != "" {
w.Header()[xhttp.AmzVersionID] = []string{objInfo.VersionID}
}
w.Header().Set(xhttp.Location, getObjectLocation(r, globalDomainNames, bucket, object))
// Notify object created event.
defer sendEvent(eventArgs{
EventName: event.ObjectCreatedPost,
BucketName: objInfo.Bucket,
Object: objInfo,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: handlers.GetSourceIP(r),
})
if redirectURL != nil { // success_action_redirect is valid and set.
v := redirectURL.Query()
v.Add("bucket", objInfo.Bucket)
v.Add("key", objInfo.Name)
v.Add("etag", "\""+objInfo.ETag+"\"")
redirectURL.RawQuery = v.Encode()
writeRedirectSeeOther(w, redirectURL.String())
return
}
// Decide what http response to send depending on success_action_status parameter
switch successStatus {
case "201":
resp := encodeResponse(PostResponse{
Bucket: objInfo.Bucket,
Key: objInfo.Name,
ETag: `"` + objInfo.ETag + `"`,
Location: w.Header().Get(xhttp.Location),
})
writeResponse(w, http.StatusCreated, resp, mimeXML)
case "200":
writeSuccessResponseHeadersOnly(w)
default:
writeSuccessNoContent(w)
}
2015-10-02 02:51:17 -04:00
}
// GetBucketPolicyStatusHandler - Retrieves the policy status
// for an MinIO bucket, indicating whether the bucket is public.
func (api objectAPIHandlers) GetBucketPolicyStatusHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "GetBucketPolicyStatus")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponseHeadersOnly(w, errorCodes.ToAPIErr(ErrServerNotInitialized))
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.GetBucketPolicyStatusAction, bucket, ""); s3Error != ErrNone {
writeErrorResponseHeadersOnly(w, errorCodes.ToAPIErr(s3Error))
return
}
// Check if bucket exists.
if _, err := objectAPI.GetBucketInfo(ctx, bucket, BucketOptions{}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Check if anonymous (non-owner) has access to list objects.
readable := globalPolicySys.IsAllowed(policy.Args{
Action: policy.ListBucketAction,
BucketName: bucket,
ConditionValues: getConditionValues(r, "", "", nil),
IsOwner: false,
})
// Check if anonymous (non-owner) has access to upload objects.
writable := globalPolicySys.IsAllowed(policy.Args{
Action: policy.PutObjectAction,
BucketName: bucket,
ConditionValues: getConditionValues(r, "", "", nil),
IsOwner: false,
})
encodedSuccessResponse := encodeResponse(PolicyStatus{
IsPublic: func() string {
// Silly to have special 'boolean' values yes
// but complying with silly implementation
// https://docs.aws.amazon.com/AmazonS3/latest/API/API_GetBucketPolicyStatus.html
if readable && writable {
return "TRUE"
}
return "FALSE"
}(),
})
writeSuccessResponseXML(w, encodedSuccessResponse)
}
// HeadBucketHandler - HEAD Bucket
// ----------
// This operation is useful to determine if a bucket exists.
// The operation returns a 200 OK if the bucket exists and you
// have permission to access it. Otherwise, the operation might
// return responses such as 404 Not Found and 403 Forbidden.
func (api objectAPIHandlers) HeadBucketHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "HeadBucket")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponseHeadersOnly(w, errorCodes.ToAPIErr(ErrServerNotInitialized))
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.ListBucketAction, bucket, ""); s3Error != ErrNone {
writeErrorResponseHeadersOnly(w, errorCodes.ToAPIErr(s3Error))
return
}
getBucketInfo := objectAPI.GetBucketInfo
if _, err := getBucketInfo(ctx, bucket, BucketOptions{}); err != nil {
writeErrorResponseHeadersOnly(w, toAPIError(ctx, err))
2015-08-03 19:17:21 -04:00
return
}
writeResponse(w, http.StatusOK, nil, mimeXML)
}
// DeleteBucketHandler - Delete bucket
func (api objectAPIHandlers) DeleteBucketHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "DeleteBucket")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
// Verify if the caller has sufficient permissions.
if s3Error := checkRequestAuthType(ctx, r, policy.DeleteBucketAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
forceDelete := false
if value := r.Header.Get(xhttp.MinIOForceDelete); value != "" {
var err error
forceDelete, err = strconv.ParseBool(value)
if err != nil {
apiErr := errorCodes.ToAPIErr(ErrInvalidRequest)
apiErr.Description = err.Error()
writeErrorResponse(ctx, w, apiErr, r.URL)
return
}
// if force delete header is set, we need to evaluate the policy anyways
// regardless of it being true or not.
if s3Error := checkRequestAuthType(ctx, r, policy.ForceDeleteBucketAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
if forceDelete {
if rcfg, _ := globalBucketObjectLockSys.Get(bucket); rcfg.LockEnabled {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMethodNotAllowed), r.URL)
return
}
rcfg, err := getReplicationConfig(ctx, bucket)
switch {
case err != nil:
if _, ok := err.(BucketReplicationConfigNotFound); !ok {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMethodNotAllowed), r.URL)
return
}
case rcfg.HasActiveRules("", true):
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrMethodNotAllowed), r.URL)
return
}
}
}
if globalDNSConfig != nil {
if err := globalDNSConfig.Delete(bucket); err != nil {
logger.LogIf(ctx, fmt.Errorf("Unable to delete bucket DNS entry %w, please delete it manually", err))
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
}
deleteBucket := objectAPI.DeleteBucket
// Attempt to delete bucket.
if err := deleteBucket(ctx, bucket, DeleteBucketOptions{
Force: forceDelete,
SRDeleteOp: getSRBucketDeleteOp(globalSiteReplicationSys.isEnabled()),
}); err != nil {
apiErr := toAPIError(ctx, err)
if _, ok := err.(BucketNotEmpty); ok {
if globalBucketVersioningSys.Enabled(bucket) || globalBucketVersioningSys.Suspended(bucket) {
apiErr.Description = "The bucket you tried to delete is not empty. You must delete all versions in the bucket."
}
}
if globalDNSConfig != nil {
if err2 := globalDNSConfig.Put(bucket); err2 != nil {
logger.LogIf(ctx, fmt.Errorf("Unable to restore bucket DNS entry %w, please fix it manually", err2))
}
}
writeErrorResponse(ctx, w, apiErr, r.URL)
return
}
globalNotificationSys.DeleteBucketMetadata(ctx, bucket)
globalReplicationPool.deleteResyncMetadata(ctx, bucket)
// Call site replication hook.
if err := globalSiteReplicationSys.DeleteBucketHook(ctx, bucket, forceDelete); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessNoContent(w)
sendEvent(eventArgs{
EventName: event.BucketRemoved,
BucketName: bucket,
ReqParams: extractReqParams(r),
RespElements: extractRespElements(w),
UserAgent: r.UserAgent(),
Host: handlers.GetSourceIP(r),
})
}
// PutBucketObjectLockConfigHandler - PUT Bucket object lock configuration.
// ----------
// Places an Object Lock configuration on the specified bucket. The rule
// specified in the Object Lock configuration will be applied by default
// to every new object placed in the specified bucket.
func (api objectAPIHandlers) PutBucketObjectLockConfigHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PutBucketObjectLockConfig")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.PutBucketObjectLockConfigurationAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
config, err := objectlock.ParseObjectLockConfig(r.Body)
if err != nil {
apiErr := errorCodes.ToAPIErr(ErrMalformedXML)
apiErr.Description = err.Error()
writeErrorResponse(ctx, w, apiErr, r.URL)
return
}
configData, err := xml.Marshal(config)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Deny object locking configuration settings on existing buckets without object lock enabled.
if _, _, err = globalBucketMetadataSys.GetObjectLockConfig(bucket); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
updatedAt, err := globalBucketMetadataSys.Update(ctx, bucket, objectLockConfig, configData)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Call site replication hook.
//
// We encode the xml bytes as base64 to ensure there are no encoding
// errors.
cfgStr := base64.StdEncoding.EncodeToString(configData)
if err = globalSiteReplicationSys.BucketMetaHook(ctx, madmin.SRBucketMeta{
Type: madmin.SRBucketMetaTypeObjectLockConfig,
Bucket: bucket,
ObjectLockConfig: &cfgStr,
UpdatedAt: updatedAt,
}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessResponseHeadersOnly(w)
}
// GetBucketObjectLockConfigHandler - GET Bucket object lock configuration.
// ----------
// Gets the Object Lock configuration for a bucket. The rule specified in
// the Object Lock configuration will be applied by default to every new
// object placed in the specified bucket.
func (api objectAPIHandlers) GetBucketObjectLockConfigHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "GetBucketObjectLockConfig")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
// check if user has permissions to perform this operation
if s3Error := checkRequestAuthType(ctx, r, policy.GetBucketObjectLockConfigurationAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
config, _, err := globalBucketMetadataSys.GetObjectLockConfig(bucket)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
configData, err := xml.Marshal(config)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessResponseXML(w, configData)
}
// PutBucketTaggingHandler - PUT Bucket tagging.
// ----------
func (api objectAPIHandlers) PutBucketTaggingHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "PutBucketTagging")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
// Check if bucket exists.
if _, err := objectAPI.GetBucketInfo(ctx, bucket, BucketOptions{}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.PutBucketTaggingAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
tags, err := tags.ParseBucketXML(io.LimitReader(r.Body, r.ContentLength))
if err != nil {
apiErr := errorCodes.ToAPIErr(ErrMalformedXML)
apiErr.Description = err.Error()
writeErrorResponse(ctx, w, apiErr, r.URL)
return
}
configData, err := xml.Marshal(tags)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
updatedAt, err := globalBucketMetadataSys.Update(ctx, bucket, bucketTaggingConfig, configData)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Call site replication hook.
//
// We encode the xml bytes as base64 to ensure there are no encoding
// errors.
cfgStr := base64.StdEncoding.EncodeToString(configData)
if err = globalSiteReplicationSys.BucketMetaHook(ctx, madmin.SRBucketMeta{
Type: madmin.SRBucketMetaTypeTags,
Bucket: bucket,
Tags: &cfgStr,
UpdatedAt: updatedAt,
}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessResponseHeadersOnly(w)
}
// GetBucketTaggingHandler - GET Bucket tagging.
// ----------
func (api objectAPIHandlers) GetBucketTaggingHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "GetBucketTagging")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
// check if user has permissions to perform this operation
if s3Error := checkRequestAuthType(ctx, r, policy.GetBucketTaggingAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
config, _, err := globalBucketMetadataSys.GetTaggingConfig(bucket)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
configData, err := xml.Marshal(config)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessResponseXML(w, configData)
}
// DeleteBucketTaggingHandler - DELETE Bucket tagging.
// ----------
func (api objectAPIHandlers) DeleteBucketTaggingHandler(w http.ResponseWriter, r *http.Request) {
ctx := newContext(r, w, "DeleteBucketTagging")
defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r))
vars := mux.Vars(r)
bucket := vars["bucket"]
objectAPI := api.ObjectAPI()
if objectAPI == nil {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL)
return
}
if s3Error := checkRequestAuthType(ctx, r, policy.PutBucketTaggingAction, bucket, ""); s3Error != ErrNone {
writeErrorResponse(ctx, w, errorCodes.ToAPIErr(s3Error), r.URL)
return
}
updatedAt, err := globalBucketMetadataSys.Delete(ctx, bucket, bucketTaggingConfig)
if err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
if err := globalSiteReplicationSys.BucketMetaHook(ctx, madmin.SRBucketMeta{
Type: madmin.SRBucketMetaTypeTags,
Bucket: bucket,
UpdatedAt: updatedAt,
}); err != nil {
writeErrorResponse(ctx, w, toAPIError(ctx, err), r.URL)
return
}
// Write success response.
writeSuccessResponseHeadersOnly(w)
}