minio/cmd/auth-handler.go

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/*
* 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 (
"bytes"
"context"
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"crypto/subtle"
"encoding/base64"
"encoding/hex"
"errors"
"io"
"io/ioutil"
"net/http"
"strconv"
"strings"
"time"
xhttp "github.com/minio/minio/cmd/http"
xjwt "github.com/minio/minio/cmd/jwt"
"github.com/minio/minio/cmd/logger"
"github.com/minio/minio/pkg/auth"
objectlock "github.com/minio/minio/pkg/bucket/object/lock"
"github.com/minio/minio/pkg/bucket/policy"
"github.com/minio/minio/pkg/hash"
iampolicy "github.com/minio/minio/pkg/iam/policy"
)
// Verify if request has JWT.
func isRequestJWT(r *http.Request) bool {
return strings.HasPrefix(r.Header.Get(xhttp.Authorization), jwtAlgorithm)
}
// Verify if request has AWS Signature Version '4'.
func isRequestSignatureV4(r *http.Request) bool {
return strings.HasPrefix(r.Header.Get(xhttp.Authorization), signV4Algorithm)
}
// Verify if request has AWS Signature Version '2'.
func isRequestSignatureV2(r *http.Request) bool {
return (!strings.HasPrefix(r.Header.Get(xhttp.Authorization), signV4Algorithm) &&
strings.HasPrefix(r.Header.Get(xhttp.Authorization), signV2Algorithm))
}
// Verify if request has AWS PreSign Version '4'.
func isRequestPresignedSignatureV4(r *http.Request) bool {
_, ok := r.URL.Query()[xhttp.AmzCredential]
return ok
}
// Verify request has AWS PreSign Version '2'.
func isRequestPresignedSignatureV2(r *http.Request) bool {
_, ok := r.URL.Query()[xhttp.AmzAccessKeyID]
return ok
}
// Verify if request has AWS Post policy Signature Version '4'.
func isRequestPostPolicySignatureV4(r *http.Request) bool {
return strings.Contains(r.Header.Get(xhttp.ContentType), "multipart/form-data") &&
r.Method == http.MethodPost
}
// Verify if the request has AWS Streaming Signature Version '4'. This is only valid for 'PUT' operation.
func isRequestSignStreamingV4(r *http.Request) bool {
return r.Header.Get(xhttp.AmzContentSha256) == streamingContentSHA256 &&
r.Method == http.MethodPut
}
// Authorization type.
type authType int
// List of all supported auth types.
const (
authTypeUnknown authType = iota
authTypeAnonymous
authTypePresigned
authTypePresignedV2
authTypePostPolicy
authTypeStreamingSigned
authTypeSigned
authTypeSignedV2
authTypeJWT
authTypeSTS
)
// Get request authentication type.
func getRequestAuthType(r *http.Request) authType {
if isRequestSignatureV2(r) {
return authTypeSignedV2
} else if isRequestPresignedSignatureV2(r) {
return authTypePresignedV2
} else if isRequestSignStreamingV4(r) {
return authTypeStreamingSigned
} else if isRequestSignatureV4(r) {
return authTypeSigned
} else if isRequestPresignedSignatureV4(r) {
return authTypePresigned
} else if isRequestJWT(r) {
return authTypeJWT
} else if isRequestPostPolicySignatureV4(r) {
return authTypePostPolicy
} else if _, ok := r.URL.Query()[xhttp.Action]; ok {
return authTypeSTS
} else if _, ok := r.Header[xhttp.Authorization]; !ok {
return authTypeAnonymous
}
return authTypeUnknown
}
func validateAdminSignature(ctx context.Context, r *http.Request, region string) (auth.Credentials, map[string]interface{}, bool, APIErrorCode) {
var cred auth.Credentials
var owner bool
s3Err := ErrAccessDenied
if _, ok := r.Header[xhttp.AmzContentSha256]; ok &&
getRequestAuthType(r) == authTypeSigned && !skipContentSha256Cksum(r) {
// We only support admin credentials to access admin APIs.
cred, owner, s3Err = getReqAccessKeyV4(r, region, serviceS3)
if s3Err != ErrNone {
return cred, nil, owner, s3Err
}
// we only support V4 (no presign) with auth body
s3Err = isReqAuthenticated(ctx, r, region, serviceS3)
}
if s3Err != ErrNone {
reqInfo := (&logger.ReqInfo{}).AppendTags("requestHeaders", dumpRequest(r))
ctx := logger.SetReqInfo(ctx, reqInfo)
logger.LogIf(ctx, errors.New(getAPIError(s3Err).Description), logger.Application)
return cred, nil, owner, s3Err
}
claims, s3Err := checkClaimsFromToken(r, cred)
if s3Err != ErrNone {
return cred, nil, owner, s3Err
}
return cred, claims, owner, ErrNone
}
// checkAdminRequestAuth checks for authentication and authorization for the incoming
// request. It only accepts V2 and V4 requests. Presigned, JWT and anonymous requests
// are automatically rejected.
func checkAdminRequestAuth(ctx context.Context, r *http.Request, action iampolicy.AdminAction, region string) (auth.Credentials, APIErrorCode) {
cred, claims, owner, s3Err := validateAdminSignature(ctx, r, region)
if s3Err != ErrNone {
return cred, s3Err
}
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: iampolicy.Action(action),
ConditionValues: getConditionValues(r, "", cred.AccessKey, claims),
IsOwner: owner,
Claims: claims,
}) {
// Request is allowed return the appropriate access key.
return cred, ErrNone
}
return cred, ErrAccessDenied
}
// Fetch the security token set by the client.
func getSessionToken(r *http.Request) (token string) {
token = r.Header.Get(xhttp.AmzSecurityToken)
if token != "" {
return token
}
return r.URL.Query().Get(xhttp.AmzSecurityToken)
}
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// Fetch claims in the security token returned by the client, doesn't return
// errors - upon errors the returned claims map will be empty.
func mustGetClaimsFromToken(r *http.Request) map[string]interface{} {
claims, _ := getClaimsFromToken(r, getSessionToken(r))
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return claims
}
// Fetch claims in the security token returned by the client.
func getClaimsFromToken(r *http.Request, token string) (map[string]interface{}, error) {
claims := xjwt.NewMapClaims()
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if token == "" {
return claims.Map(), nil
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}
stsTokenCallback := func(claims *xjwt.MapClaims) ([]byte, error) {
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// JWT token for x-amz-security-token is signed with admin
// secret key, temporary credentials become invalid if
// server admin credentials change. This is done to ensure
// that clients cannot decode the token using the temp
// secret keys and generate an entirely new claim by essentially
// hijacking the policies. We need to make sure that this is
// based an admin credential such that token cannot be decoded
// on the client side and is treated like an opaque value.
return []byte(globalActiveCred.SecretKey), nil
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}
if err := xjwt.ParseWithClaims(token, claims, stsTokenCallback); err != nil {
return nil, errAuthentication
}
if globalPolicyOPA == nil {
// If OPA is not set and if ldap claim key is set, allow the claim.
if _, ok := claims.MapClaims[ldapUser]; ok {
return claims.Map(), nil
}
// If OPA is not set, session token should
// have a policy and its mandatory, reject
// requests without policy claim.
_, pokOpenID := claims.MapClaims[iamPolicyClaimNameOpenID()]
_, pokSA := claims.MapClaims[iamPolicyClaimNameSA()]
if !pokOpenID && !pokSA {
return nil, errAuthentication
}
sp, spok := claims.Lookup(iampolicy.SessionPolicyName)
if !spok {
return claims.Map(), nil
}
// Looks like subpolicy is set and is a string, if set then its
// base64 encoded, decode it. Decoding fails reject such requests.
spBytes, err := base64.StdEncoding.DecodeString(sp)
if err != nil {
// Base64 decoding fails, we should log to indicate
// something is malforming the request sent by client.
logger.LogIf(r.Context(), err, logger.Application)
return nil, errAuthentication
}
claims.MapClaims[iampolicy.SessionPolicyName] = string(spBytes)
}
return claims.Map(), nil
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}
// Fetch claims in the security token returned by the client and validate the token.
func checkClaimsFromToken(r *http.Request, cred auth.Credentials) (map[string]interface{}, APIErrorCode) {
token := getSessionToken(r)
if token != "" && cred.AccessKey == "" {
return nil, ErrNoAccessKey
}
if cred.IsServiceAccount() && token == "" {
token = cred.SessionToken
}
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if subtle.ConstantTimeCompare([]byte(token), []byte(cred.SessionToken)) != 1 {
return nil, ErrInvalidToken
}
claims, err := getClaimsFromToken(r, token)
if err != nil {
return nil, toAPIErrorCode(r.Context(), err)
}
return claims, ErrNone
}
// Check request auth type verifies the incoming http request
// - validates the request signature
// - validates the policy action if anonymous tests bucket policies if any,
// for authenticated requests validates IAM policies.
// returns APIErrorCode if any to be replied to the client.
func checkRequestAuthType(ctx context.Context, r *http.Request, action policy.Action, bucketName, objectName string) (s3Err APIErrorCode) {
_, _, s3Err = checkRequestAuthTypeToAccessKey(ctx, r, action, bucketName, objectName)
return s3Err
}
// Check request auth type verifies the incoming http request
// - validates the request signature
// - validates the policy action if anonymous tests bucket policies if any,
// for authenticated requests validates IAM policies.
// returns APIErrorCode if any to be replied to the client.
// Additionally returns the accessKey used in the request, and if this request is by an admin.
func checkRequestAuthTypeToAccessKey(ctx context.Context, r *http.Request, action policy.Action, bucketName, objectName string) (accessKey string, owner bool, s3Err APIErrorCode) {
var cred auth.Credentials
switch getRequestAuthType(r) {
case authTypeUnknown, authTypeStreamingSigned:
return accessKey, owner, ErrSignatureVersionNotSupported
case authTypePresignedV2, authTypeSignedV2:
if s3Err = isReqAuthenticatedV2(r); s3Err != ErrNone {
return accessKey, owner, s3Err
}
cred, owner, s3Err = getReqAccessKeyV2(r)
case authTypeSigned, authTypePresigned:
region := globalServerRegion
switch action {
case policy.GetBucketLocationAction, policy.ListAllMyBucketsAction:
region = ""
}
if s3Err = isReqAuthenticated(ctx, r, region, serviceS3); s3Err != ErrNone {
return accessKey, owner, s3Err
}
cred, owner, s3Err = getReqAccessKeyV4(r, region, serviceS3)
}
if s3Err != ErrNone {
return accessKey, owner, s3Err
}
var claims map[string]interface{}
claims, s3Err = checkClaimsFromToken(r, cred)
if s3Err != ErrNone {
return accessKey, owner, s3Err
}
// LocationConstraint is valid only for CreateBucketAction.
var locationConstraint string
if action == policy.CreateBucketAction {
// To extract region from XML in request body, get copy of request body.
payload, err := ioutil.ReadAll(io.LimitReader(r.Body, maxLocationConstraintSize))
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if err != nil {
logger.LogIf(ctx, err, logger.Application)
return accessKey, owner, ErrMalformedXML
}
// Populate payload to extract location constraint.
r.Body = ioutil.NopCloser(bytes.NewReader(payload))
var s3Error APIErrorCode
locationConstraint, s3Error = parseLocationConstraint(r)
if s3Error != ErrNone {
return accessKey, owner, s3Error
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}
// Populate payload again to handle it in HTTP handler.
r.Body = ioutil.NopCloser(bytes.NewReader(payload))
}
if cred.AccessKey != "" {
logger.GetReqInfo(ctx).AccessKey = cred.AccessKey
}
if action != policy.ListAllMyBucketsAction && cred.AccessKey == "" {
// Anonymous checks are not meant for ListBuckets action
if globalPolicySys.IsAllowed(policy.Args{
AccountName: cred.AccessKey,
Action: action,
BucketName: bucketName,
ConditionValues: getConditionValues(r, locationConstraint, "", nil),
IsOwner: false,
ObjectName: objectName,
}) {
// Request is allowed return the appropriate access key.
return cred.AccessKey, owner, ErrNone
}
if action == policy.ListBucketVersionsAction {
// In AWS S3 s3:ListBucket permission is same as s3:ListBucketVersions permission
// verify as a fallback.
if globalPolicySys.IsAllowed(policy.Args{
AccountName: cred.AccessKey,
Action: policy.ListBucketAction,
BucketName: bucketName,
ConditionValues: getConditionValues(r, locationConstraint, "", nil),
IsOwner: false,
ObjectName: objectName,
}) {
// Request is allowed return the appropriate access key.
return cred.AccessKey, owner, ErrNone
}
}
return cred.AccessKey, owner, ErrAccessDenied
}
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: iampolicy.Action(action),
BucketName: bucketName,
ConditionValues: getConditionValues(r, "", cred.AccessKey, claims),
ObjectName: objectName,
IsOwner: owner,
Claims: claims,
}) {
// Request is allowed return the appropriate access key.
return cred.AccessKey, owner, ErrNone
}
if action == policy.ListBucketVersionsAction {
// In AWS S3 s3:ListBucket permission is same as s3:ListBucketVersions permission
// verify as a fallback.
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: iampolicy.ListBucketAction,
BucketName: bucketName,
ConditionValues: getConditionValues(r, "", cred.AccessKey, claims),
ObjectName: objectName,
IsOwner: owner,
Claims: claims,
}) {
// Request is allowed return the appropriate access key.
return cred.AccessKey, owner, ErrNone
}
}
return cred.AccessKey, owner, ErrAccessDenied
}
// Verify if request has valid AWS Signature Version '2'.
func isReqAuthenticatedV2(r *http.Request) (s3Error APIErrorCode) {
if isRequestSignatureV2(r) {
return doesSignV2Match(r)
}
return doesPresignV2SignatureMatch(r)
}
func reqSignatureV4Verify(r *http.Request, region string, stype serviceType) (s3Error APIErrorCode) {
sha256sum := getContentSha256Cksum(r, stype)
switch {
case isRequestSignatureV4(r):
return doesSignatureMatch(sha256sum, r, region, stype)
case isRequestPresignedSignatureV4(r):
return doesPresignedSignatureMatch(sha256sum, r, region, stype)
default:
return ErrAccessDenied
}
}
// Verify if request has valid AWS Signature Version '4'.
func isReqAuthenticated(ctx context.Context, r *http.Request, region string, stype serviceType) (s3Error APIErrorCode) {
if errCode := reqSignatureV4Verify(r, region, stype); errCode != ErrNone {
return errCode
}
var (
err error
contentMD5, contentSHA256 []byte
)
// Extract 'Content-Md5' if present.
contentMD5, err = checkValidMD5(r.Header)
if err != nil {
return ErrInvalidDigest
}
// Extract either 'X-Amz-Content-Sha256' header or 'X-Amz-Content-Sha256' query parameter (if V4 presigned)
// Do not verify 'X-Amz-Content-Sha256' if skipSHA256.
if skipSHA256 := skipContentSha256Cksum(r); !skipSHA256 && isRequestPresignedSignatureV4(r) {
if sha256Sum, ok := r.URL.Query()[xhttp.AmzContentSha256]; ok && len(sha256Sum) > 0 {
contentSHA256, err = hex.DecodeString(sha256Sum[0])
if err != nil {
return ErrContentSHA256Mismatch
}
}
} else if _, ok := r.Header[xhttp.AmzContentSha256]; !skipSHA256 && ok {
contentSHA256, err = hex.DecodeString(r.Header.Get(xhttp.AmzContentSha256))
if err != nil || len(contentSHA256) == 0 {
return ErrContentSHA256Mismatch
}
}
// Verify 'Content-Md5' and/or 'X-Amz-Content-Sha256' if present.
// The verification happens implicit during reading.
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.
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reader, err := hash.NewReader(r.Body, -1, hex.EncodeToString(contentMD5), hex.EncodeToString(contentSHA256), -1)
if err != nil {
return toAPIErrorCode(ctx, err)
}
r.Body = reader
return ErrNone
}
// List of all support S3 auth types.
var supportedS3AuthTypes = map[authType]struct{}{
authTypeAnonymous: {},
authTypePresigned: {},
authTypePresignedV2: {},
authTypeSigned: {},
authTypeSignedV2: {},
authTypePostPolicy: {},
authTypeStreamingSigned: {},
}
// Validate if the authType is valid and supported.
func isSupportedS3AuthType(aType authType) bool {
_, ok := supportedS3AuthTypes[aType]
return ok
}
// setAuthHandler to validate authorization header for the incoming request.
func setAuthHandler(h http.Handler) http.Handler {
// handler for validating incoming authorization headers.
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
aType := getRequestAuthType(r)
if isSupportedS3AuthType(aType) {
// Let top level caller validate for anonymous and known signed requests.
h.ServeHTTP(w, r)
return
} else if aType == authTypeJWT {
// Validate Authorization header if its valid for JWT request.
if _, _, authErr := webRequestAuthenticate(r); authErr != nil {
w.WriteHeader(http.StatusUnauthorized)
w.Write([]byte(authErr.Error()))
return
}
h.ServeHTTP(w, r)
return
} else if aType == authTypeSTS {
h.ServeHTTP(w, r)
return
}
writeErrorResponse(r.Context(), w, errorCodes.ToAPIErr(ErrSignatureVersionNotSupported), r.URL, guessIsBrowserReq(r))
})
}
func validateSignature(atype authType, r *http.Request) (auth.Credentials, bool, map[string]interface{}, APIErrorCode) {
var cred auth.Credentials
var owner bool
var s3Err APIErrorCode
switch atype {
case authTypeUnknown, authTypeStreamingSigned:
return cred, owner, nil, ErrSignatureVersionNotSupported
case authTypeSignedV2, authTypePresignedV2:
if s3Err = isReqAuthenticatedV2(r); s3Err != ErrNone {
return cred, owner, nil, s3Err
}
cred, owner, s3Err = getReqAccessKeyV2(r)
case authTypePresigned, authTypeSigned:
region := globalServerRegion
if s3Err = isReqAuthenticated(GlobalContext, r, region, serviceS3); s3Err != ErrNone {
return cred, owner, nil, s3Err
}
cred, owner, s3Err = getReqAccessKeyV4(r, region, serviceS3)
}
if s3Err != ErrNone {
return cred, owner, nil, s3Err
}
claims, s3Err := checkClaimsFromToken(r, cred)
if s3Err != ErrNone {
return cred, owner, nil, s3Err
}
return cred, owner, claims, ErrNone
}
func isPutRetentionAllowed(bucketName, objectName string, retDays int, retDate time.Time, retMode objectlock.RetMode, byPassSet bool, r *http.Request, cred auth.Credentials, owner bool, claims map[string]interface{}) (s3Err APIErrorCode) {
var retSet bool
if cred.AccessKey == "" {
conditions := getConditionValues(r, "", "", nil)
conditions["object-lock-mode"] = []string{string(retMode)}
conditions["object-lock-retain-until-date"] = []string{retDate.Format(time.RFC3339)}
if retDays > 0 {
conditions["object-lock-remaining-retention-days"] = []string{strconv.Itoa(retDays)}
}
if retMode == objectlock.RetGovernance && byPassSet {
byPassSet = globalPolicySys.IsAllowed(policy.Args{
AccountName: cred.AccessKey,
Action: policy.BypassGovernanceRetentionAction,
BucketName: bucketName,
ConditionValues: conditions,
IsOwner: false,
ObjectName: objectName,
})
}
if globalPolicySys.IsAllowed(policy.Args{
AccountName: cred.AccessKey,
Action: policy.PutObjectRetentionAction,
BucketName: bucketName,
ConditionValues: conditions,
IsOwner: false,
ObjectName: objectName,
}) {
retSet = true
}
if byPassSet || retSet {
return ErrNone
}
return ErrAccessDenied
}
conditions := getConditionValues(r, "", cred.AccessKey, claims)
conditions["object-lock-mode"] = []string{string(retMode)}
conditions["object-lock-retain-until-date"] = []string{retDate.Format(time.RFC3339)}
if retDays > 0 {
conditions["object-lock-remaining-retention-days"] = []string{strconv.Itoa(retDays)}
}
if retMode == objectlock.RetGovernance && byPassSet {
byPassSet = globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: iampolicy.BypassGovernanceRetentionAction,
BucketName: bucketName,
ObjectName: objectName,
ConditionValues: conditions,
IsOwner: owner,
Claims: claims,
})
}
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: iampolicy.PutObjectRetentionAction,
BucketName: bucketName,
ConditionValues: conditions,
ObjectName: objectName,
IsOwner: owner,
Claims: claims,
}) {
retSet = true
}
if byPassSet || retSet {
return ErrNone
}
return ErrAccessDenied
}
// isPutActionAllowed - check if PUT operation is allowed on the resource, this
// call verifies bucket policies and IAM policies, supports multi user
// checks etc.
func isPutActionAllowed(ctx context.Context, atype authType, bucketName, objectName string, r *http.Request, action iampolicy.Action) (s3Err APIErrorCode) {
var cred auth.Credentials
var owner bool
switch atype {
case authTypeUnknown:
return ErrSignatureVersionNotSupported
case authTypeSignedV2, authTypePresignedV2:
cred, owner, s3Err = getReqAccessKeyV2(r)
case authTypeStreamingSigned, authTypePresigned, authTypeSigned:
region := globalServerRegion
cred, owner, s3Err = getReqAccessKeyV4(r, region, serviceS3)
}
if s3Err != ErrNone {
return s3Err
}
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claims, s3Err := checkClaimsFromToken(r, cred)
if s3Err != ErrNone {
return s3Err
}
if cred.AccessKey != "" {
logger.GetReqInfo(ctx).AccessKey = cred.AccessKey
}
// Do not check for PutObjectRetentionAction permission,
// if mode and retain until date are not set.
// Can happen when bucket has default lock config set
if action == iampolicy.PutObjectRetentionAction &&
r.Header.Get(xhttp.AmzObjectLockMode) == "" &&
r.Header.Get(xhttp.AmzObjectLockRetainUntilDate) == "" {
return ErrNone
}
if cred.AccessKey == "" {
if globalPolicySys.IsAllowed(policy.Args{
AccountName: cred.AccessKey,
Action: policy.Action(action),
BucketName: bucketName,
ConditionValues: getConditionValues(r, "", "", nil),
IsOwner: false,
ObjectName: objectName,
}) {
return ErrNone
}
return ErrAccessDenied
}
if globalIAMSys.IsAllowed(iampolicy.Args{
AccountName: cred.AccessKey,
Action: action,
BucketName: bucketName,
ConditionValues: getConditionValues(r, "", cred.AccessKey, claims),
ObjectName: objectName,
IsOwner: owner,
Claims: claims,
}) {
return ErrNone
}
return ErrAccessDenied
}