frostfs-s3-gw/api/handler/acl.go
Denis Kirillov 12eb91feaa [#306] Simplify namespaces configuration
Resolve ns alias at the beginning of the request just once.
Keep in ns map only one default ns key.

Signed-off-by: Denis Kirillov <d.kirillov@yadro.com>
2024-02-13 12:57:33 +03:00

1551 lines
41 KiB
Go

package handler
import (
"context"
"crypto/ecdsa"
"crypto/elliptic"
"encoding/hex"
"encoding/json"
stderrors "errors"
"fmt"
"io"
"net/http"
"sort"
"strconv"
"strings"
v2acl "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/acl"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/data"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/errors"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/layer"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/middleware"
"git.frostfs.info/TrueCloudLab/frostfs-s3-gw/internal/logs"
"git.frostfs.info/TrueCloudLab/frostfs-sdk-go/eacl"
"git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object"
oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id"
"git.frostfs.info/TrueCloudLab/frostfs-sdk-go/session"
engineiam "git.frostfs.info/TrueCloudLab/policy-engine/iam"
"git.frostfs.info/TrueCloudLab/policy-engine/pkg/chain"
"git.frostfs.info/TrueCloudLab/policy-engine/pkg/engine"
"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
"go.uber.org/zap"
)
var (
writeOps = []eacl.Operation{eacl.OperationPut, eacl.OperationDelete}
readOps = []eacl.Operation{eacl.OperationGet, eacl.OperationHead,
eacl.OperationSearch, eacl.OperationRange, eacl.OperationRangeHash}
fullOps = []eacl.Operation{eacl.OperationGet, eacl.OperationHead, eacl.OperationPut,
eacl.OperationDelete, eacl.OperationSearch, eacl.OperationRange, eacl.OperationRangeHash}
)
var actionToOpMap = map[string][]eacl.Operation{
s3DeleteObject: {eacl.OperationDelete},
s3GetObject: readOps,
s3PutObject: {eacl.OperationPut},
s3ListBucket: readOps,
}
const (
arnAwsPrefix = "arn:aws:s3:::"
allUsersWildcard = "*"
allUsersGroup = "http://acs.amazonaws.com/groups/global/AllUsers"
s3DeleteObject = "s3:DeleteObject"
s3GetObject = "s3:GetObject"
s3PutObject = "s3:PutObject"
s3ListBucket = "s3:ListBucket"
s3ListBucketVersions = "s3:ListBucketVersions"
s3ListBucketMultipartUploads = "s3:ListBucketMultipartUploads"
s3GetObjectVersion = "s3:GetObjectVersion"
)
// AWSACL is aws permission constants.
type AWSACL string
const (
aclFullControl AWSACL = "FULL_CONTROL"
aclWrite AWSACL = "WRITE"
aclRead AWSACL = "READ"
)
// GranteeType is aws grantee permission type constants.
type GranteeType string
const (
acpCanonicalUser GranteeType = "CanonicalUser"
acpAmazonCustomerByEmail GranteeType = "AmazonCustomerByEmail"
acpGroup GranteeType = "Group"
)
type bucketPolicy struct {
Version string `json:"Version"`
ID string `json:"Id"`
Statement []statement `json:"Statement"`
Bucket string `json:"-"`
}
type statement struct {
Sid string `json:"Sid"`
Effect string `json:"Effect"`
Principal principal `json:"Principal"`
Action []string `json:"Action"`
Resource []string `json:"Resource"`
}
type principal struct {
AWS string `json:"AWS,omitempty"`
CanonicalUser string `json:"CanonicalUser,omitempty"`
}
type orderedAstResource struct {
Index int
Resource *astResource
}
type ast struct {
Resources []*astResource
}
type astResource struct {
resourceInfo
Operations []*astOperation
}
type resourceInfo struct {
Bucket string
Object string
Version string
}
func (r *resourceInfo) Name() string {
if len(r.Object) == 0 {
return r.Bucket
}
if len(r.Version) == 0 {
return r.Bucket + "/" + r.Object
}
return r.Bucket + "/" + r.Object + ":" + r.Version
}
func (r *resourceInfo) IsBucket() bool {
return len(r.Object) == 0
}
type astOperation struct {
Users []string
Op eacl.Operation
Action eacl.Action
}
func (a astOperation) IsGroupGrantee() bool {
return len(a.Users) == 0
}
const (
serviceRecordResourceKey = "Resource"
serviceRecordGroupLengthKey = "GroupLength"
)
type ServiceRecord struct {
Resource string
GroupRecordsLength int
}
func (s ServiceRecord) ToEACLRecord() *eacl.Record {
serviceRecord := eacl.NewRecord()
serviceRecord.SetAction(eacl.ActionAllow)
serviceRecord.SetOperation(eacl.OperationGet)
serviceRecord.AddFilter(eacl.HeaderFromService, eacl.MatchUnknown, serviceRecordResourceKey, s.Resource)
serviceRecord.AddFilter(eacl.HeaderFromService, eacl.MatchUnknown, serviceRecordGroupLengthKey, strconv.Itoa(s.GroupRecordsLength))
eacl.AddFormedTarget(serviceRecord, eacl.RoleSystem)
return serviceRecord
}
var (
errInvalidStatement = stderrors.New("invalid statement")
errInvalidPrincipal = stderrors.New("invalid principal")
)
func (s *statement) UnmarshalJSON(data []byte) error {
var statementMap map[string]interface{}
if err := json.Unmarshal(data, &statementMap); err != nil {
return err
}
sidField, ok := statementMap["Sid"]
if ok {
if s.Sid, ok = sidField.(string); !ok {
return errInvalidStatement
}
}
effectField, ok := statementMap["Effect"]
if ok {
if s.Effect, ok = effectField.(string); !ok {
return errInvalidStatement
}
}
principalField, ok := statementMap["Principal"]
if ok {
principalMap, ok := principalField.(map[string]interface{})
if !ok {
return errInvalidPrincipal
}
awsField, ok := principalMap["AWS"]
if ok {
if s.Principal.AWS, ok = awsField.(string); !ok {
return fmt.Errorf("%w: 'AWS' field must be string", errInvalidPrincipal)
}
}
canonicalUserField, ok := principalMap["CanonicalUser"]
if ok {
if s.Principal.CanonicalUser, ok = canonicalUserField.(string); !ok {
return errInvalidPrincipal
}
}
}
actionField, ok := statementMap["Action"]
if ok {
switch actionField := actionField.(type) {
case []interface{}:
s.Action = make([]string, len(actionField))
for i, action := range actionField {
if s.Action[i], ok = action.(string); !ok {
return errInvalidStatement
}
}
case string:
s.Action = []string{actionField}
default:
return errInvalidStatement
}
}
resourceField, ok := statementMap["Resource"]
if ok {
switch resourceField := resourceField.(type) {
case []interface{}:
s.Resource = make([]string, len(resourceField))
for i, action := range resourceField {
if s.Resource[i], ok = action.(string); !ok {
return errInvalidStatement
}
}
case string:
s.Resource = []string{resourceField}
default:
return errInvalidStatement
}
}
return nil
}
func (h *handler) GetBucketACLHandler(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
reqInfo := middleware.GetReqInfo(ctx)
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
bucketACL, err := h.obj.GetBucketACL(ctx, bktInfo)
if err != nil {
h.logAndSendError(w, "could not fetch bucket acl", reqInfo, err)
return
}
if err = middleware.EncodeToResponse(w, h.encodeBucketACL(ctx, bktInfo.Name, bucketACL)); err != nil {
h.logAndSendError(w, "something went wrong", reqInfo, err)
return
}
}
func (h *handler) bearerTokenIssuerKey(ctx context.Context) (*keys.PublicKey, error) {
box, err := middleware.GetBoxData(ctx)
if err != nil {
return nil, err
}
var btoken v2acl.BearerToken
box.Gate.BearerToken.WriteToV2(&btoken)
key, err := keys.NewPublicKeyFromBytes(btoken.GetSignature().GetKey(), elliptic.P256())
if err != nil {
return nil, fmt.Errorf("public key from bytes: %w", err)
}
return key, nil
}
func (h *handler) PutBucketACLHandler(w http.ResponseWriter, r *http.Request) {
reqInfo := middleware.GetReqInfo(r.Context())
key, err := h.bearerTokenIssuerKey(r.Context())
if err != nil {
h.logAndSendError(w, "couldn't get bearer token issuer key", reqInfo, err)
return
}
token, err := getSessionTokenSetEACL(r.Context())
if err != nil {
h.logAndSendError(w, "couldn't get eacl token", reqInfo, err)
return
}
list := &AccessControlPolicy{}
if r.ContentLength == 0 {
list, err = parseACLHeaders(r.Header, key)
if err != nil {
h.logAndSendError(w, "could not parse bucket acl", reqInfo, err)
return
}
} else if err = h.cfg.NewXMLDecoder(r.Body).Decode(list); err != nil {
h.logAndSendError(w, "could not parse bucket acl", reqInfo, errors.GetAPIError(errors.ErrMalformedXML))
return
}
resInfo := &resourceInfo{Bucket: reqInfo.BucketName}
astBucket, err := aclToAst(list, resInfo)
if err != nil {
h.logAndSendError(w, "could not translate acl to policy", reqInfo, err)
return
}
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
if _, err = h.updateBucketACL(r, astBucket, bktInfo, token); err != nil {
h.logAndSendError(w, "could not update bucket acl", reqInfo, err)
return
}
w.WriteHeader(http.StatusOK)
}
func (h *handler) updateBucketACL(r *http.Request, astChild *ast, bktInfo *data.BucketInfo, sessionToken *session.Container) (bool, error) {
bucketACL, err := h.obj.GetBucketACL(r.Context(), bktInfo)
if err != nil {
return false, fmt.Errorf("could not get bucket eacl: %w", err)
}
parentAst := tableToAst(bucketACL.EACL, bktInfo.Name)
strCID := bucketACL.Info.CID.EncodeToString()
for _, resource := range parentAst.Resources {
if resource.Bucket == strCID {
resource.Bucket = bktInfo.Name
}
}
resAst, updated := mergeAst(parentAst, astChild)
if !updated {
return false, nil
}
table, err := astToTable(resAst)
if err != nil {
return false, fmt.Errorf("could not translate ast to table: %w", err)
}
p := &layer.PutBucketACLParams{
BktInfo: bktInfo,
EACL: table,
SessionToken: sessionToken,
}
if err = h.obj.PutBucketACL(r.Context(), p); err != nil {
return false, fmt.Errorf("could not put bucket acl: %w", err)
}
return true, nil
}
func (h *handler) GetObjectACLHandler(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
reqInfo := middleware.GetReqInfo(ctx)
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
bucketACL, err := h.obj.GetBucketACL(ctx, bktInfo)
if err != nil {
h.logAndSendError(w, "could not fetch bucket acl", reqInfo, err)
return
}
prm := &layer.HeadObjectParams{
BktInfo: bktInfo,
Object: reqInfo.ObjectName,
VersionID: reqInfo.URL.Query().Get(api.QueryVersionID),
}
objInfo, err := h.obj.GetObjectInfo(ctx, prm)
if err != nil {
h.logAndSendError(w, "could not object info", reqInfo, err)
return
}
if err = middleware.EncodeToResponse(w, h.encodeObjectACL(ctx, bucketACL, reqInfo.BucketName, objInfo.VersionID())); err != nil {
h.logAndSendError(w, "failed to encode response", reqInfo, err)
}
}
func (h *handler) PutObjectACLHandler(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
reqInfo := middleware.GetReqInfo(ctx)
versionID := reqInfo.URL.Query().Get(api.QueryVersionID)
key, err := h.bearerTokenIssuerKey(ctx)
if err != nil {
h.logAndSendError(w, "couldn't get gate key", reqInfo, err)
return
}
token, err := getSessionTokenSetEACL(ctx)
if err != nil {
h.logAndSendError(w, "couldn't get eacl token", reqInfo, err)
return
}
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
p := &layer.HeadObjectParams{
BktInfo: bktInfo,
Object: reqInfo.ObjectName,
VersionID: versionID,
}
objInfo, err := h.obj.GetObjectInfo(ctx, p)
if err != nil {
h.logAndSendError(w, "could not get object info", reqInfo, err)
return
}
list := &AccessControlPolicy{}
if r.ContentLength == 0 {
list, err = parseACLHeaders(r.Header, key)
if err != nil {
h.logAndSendError(w, "could not parse bucket acl", reqInfo, err)
return
}
} else if err = h.cfg.NewXMLDecoder(r.Body).Decode(list); err != nil {
h.logAndSendError(w, "could not parse bucket acl", reqInfo, errors.GetAPIError(errors.ErrMalformedXML))
return
}
resInfo := &resourceInfo{
Bucket: reqInfo.BucketName,
Object: reqInfo.ObjectName,
Version: objInfo.VersionID(),
}
astObject, err := aclToAst(list, resInfo)
if err != nil {
h.logAndSendError(w, "could not translate acl to ast", reqInfo, err)
return
}
updated, err := h.updateBucketACL(r, astObject, bktInfo, token)
if err != nil {
h.logAndSendError(w, "could not update bucket acl", reqInfo, err)
return
}
if updated {
s := &SendNotificationParams{
Event: EventObjectACLPut,
NotificationInfo: data.NotificationInfoFromObject(objInfo, h.cfg.MD5Enabled()),
BktInfo: bktInfo,
ReqInfo: reqInfo,
}
if err = h.sendNotifications(ctx, s); err != nil {
h.reqLogger(ctx).Error(logs.CouldntSendNotification, zap.Error(err))
}
}
w.WriteHeader(http.StatusOK)
}
func (h *handler) GetBucketPolicyHandler(w http.ResponseWriter, r *http.Request) {
reqInfo := middleware.GetReqInfo(r.Context())
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
jsonPolicy, err := h.ape.GetPolicy(reqInfo.Namespace, bktInfo.CID)
if err != nil {
if strings.Contains(err.Error(), "not found") {
err = fmt.Errorf("%w: %s", errors.GetAPIError(errors.ErrNoSuchBucketPolicy), err.Error())
}
h.logAndSendError(w, "failed to get policy from storage", reqInfo, err)
return
}
w.Header().Set(api.ContentType, "application/json")
w.WriteHeader(http.StatusOK)
if _, err = w.Write(jsonPolicy); err != nil {
h.logAndSendError(w, "write json policy to client", reqInfo, err)
}
}
func (h *handler) DeleteBucketPolicyHandler(w http.ResponseWriter, r *http.Request) {
reqInfo := middleware.GetReqInfo(r.Context())
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
target := engine.NamespaceTarget(reqInfo.Namespace)
chainID := getBucketChainID(bktInfo)
if err = h.ape.RemoveChain(target, chainID); err != nil {
h.logAndSendError(w, "failed to remove morph rule chain", reqInfo, err)
return
}
if err = h.ape.DeletePolicy(reqInfo.Namespace, bktInfo.CID); err != nil {
h.logAndSendError(w, "failed to delete policy from storage", reqInfo, err)
return
}
}
func checkOwner(info *data.BucketInfo, owner string) error {
if owner == "" {
return nil
}
// may need to convert owner to appropriate format
if info.Owner.String() != owner {
return fmt.Errorf("%w: mismatch owner", errors.GetAPIError(errors.ErrAccessDenied))
}
return nil
}
func (h *handler) PutBucketPolicyHandler(w http.ResponseWriter, r *http.Request) {
reqInfo := middleware.GetReqInfo(r.Context())
bktInfo, err := h.getBucketAndCheckOwner(r, reqInfo.BucketName)
if err != nil {
h.logAndSendError(w, "could not get bucket info", reqInfo, err)
return
}
jsonPolicy, err := io.ReadAll(r.Body)
if err != nil {
h.logAndSendError(w, "read body", reqInfo, err)
return
}
var bktPolicy engineiam.Policy
if err = json.Unmarshal(jsonPolicy, &bktPolicy); err != nil {
h.logAndSendError(w, "could not parse bucket policy", reqInfo, err)
return
}
s3Chain, err := engineiam.ConvertToS3Chain(bktPolicy, h.frostfsid)
if err != nil {
h.logAndSendError(w, "could not convert s3 policy to chain policy", reqInfo, err)
return
}
s3Chain.ID = getBucketChainID(bktInfo)
for _, rule := range s3Chain.Rules {
for _, resource := range rule.Resources.Names {
if reqInfo.BucketName != strings.Split(strings.TrimPrefix(resource, arnAwsPrefix), "/")[0] {
h.logAndSendError(w, "policy resource mismatched bucket", reqInfo, errors.GetAPIError(errors.ErrMalformedPolicy))
return
}
}
}
target := engine.NamespaceTarget(reqInfo.Namespace)
if err = h.ape.AddChain(target, s3Chain); err != nil {
h.logAndSendError(w, "failed to add morph rule chain", reqInfo, err)
return
}
if err = h.ape.PutPolicy(reqInfo.Namespace, bktInfo.CID, jsonPolicy); err != nil {
h.logAndSendError(w, "failed to save policy to storage", reqInfo, err)
return
}
}
func getBucketChainID(bktInfo *data.BucketInfo) chain.ID {
return chain.ID(string(chain.S3) + ":bkt" + string(bktInfo.CID[:]))
}
func parseACLHeaders(header http.Header, key *keys.PublicKey) (*AccessControlPolicy, error) {
var err error
acp := &AccessControlPolicy{Owner: Owner{
ID: hex.EncodeToString(key.Bytes()),
DisplayName: key.Address(),
}}
acp.AccessControlList = []*Grant{{
Grantee: &Grantee{
ID: hex.EncodeToString(key.Bytes()),
DisplayName: key.Address(),
Type: acpCanonicalUser,
},
Permission: aclFullControl,
}}
cannedACL := header.Get(api.AmzACL)
if cannedACL != "" {
return addPredefinedACP(acp, cannedACL)
}
if acp.AccessControlList, err = addGrantees(acp.AccessControlList, header, api.AmzGrantFullControl); err != nil {
return nil, fmt.Errorf("add grantees full control: %w", err)
}
if acp.AccessControlList, err = addGrantees(acp.AccessControlList, header, api.AmzGrantRead); err != nil {
return nil, fmt.Errorf("add grantees read: %w", err)
}
if acp.AccessControlList, err = addGrantees(acp.AccessControlList, header, api.AmzGrantWrite); err != nil {
return nil, fmt.Errorf("add grantees write: %w", err)
}
return acp, nil
}
func addGrantees(list []*Grant, headers http.Header, hdr string) ([]*Grant, error) {
grant := headers.Get(hdr)
if grant == "" {
return list, nil
}
permission, err := grantHdrToPermission(hdr)
if err != nil {
return nil, fmt.Errorf("parse header: %w", err)
}
grantees, err := parseGrantee(grant)
if err != nil {
return nil, fmt.Errorf("parse grantee: %w", err)
}
for _, grantee := range grantees {
if grantee.Type == acpAmazonCustomerByEmail || (grantee.Type == acpGroup && grantee.URI != allUsersGroup) {
return nil, stderrors.New("unsupported grantee type")
}
list = append(list, &Grant{
Grantee: grantee,
Permission: permission,
})
}
return list, nil
}
func grantHdrToPermission(grant string) (AWSACL, error) {
switch grant {
case api.AmzGrantFullControl:
return aclFullControl, nil
case api.AmzGrantRead:
return aclRead, nil
case api.AmzGrantWrite:
return aclWrite, nil
}
return "", fmt.Errorf("unsuppoted header: %s", grant)
}
func parseGrantee(grantees string) ([]*Grantee, error) {
var result []*Grantee
split := strings.Split(grantees, ", ")
for _, pair := range split {
split2 := strings.Split(pair, "=")
if len(split2) != 2 {
return nil, errors.GetAPIError(errors.ErrInvalidArgument)
}
grantee, err := formGrantee(split2[0], split2[1])
if err != nil {
return nil, fmt.Errorf("form grantee: %w", err)
}
result = append(result, grantee)
}
return result, nil
}
func formGrantee(granteeType, value string) (*Grantee, error) {
value = data.UnQuote(value)
switch granteeType {
case "id":
return &Grantee{
ID: value,
Type: acpCanonicalUser,
}, nil
case "uri":
return &Grantee{
URI: value,
Type: acpGroup,
}, nil
case "emailAddress":
return &Grantee{
EmailAddress: value,
Type: acpAmazonCustomerByEmail,
}, nil
}
// do not return grantee type to avoid sensitive data logging (#489)
return nil, fmt.Errorf("unknown grantee type")
}
func addPredefinedACP(acp *AccessControlPolicy, cannedACL string) (*AccessControlPolicy, error) {
switch cannedACL {
case basicACLPrivate:
case basicACLPublic:
acp.AccessControlList = append(acp.AccessControlList, &Grant{
Grantee: &Grantee{
URI: allUsersGroup,
Type: acpGroup,
},
Permission: aclFullControl,
})
case cannedACLAuthRead:
fallthrough
case basicACLReadOnly:
acp.AccessControlList = append(acp.AccessControlList, &Grant{
Grantee: &Grantee{
URI: allUsersGroup,
Type: acpGroup,
},
Permission: aclRead,
})
default:
return nil, errors.GetAPIError(errors.ErrInvalidArgument)
}
return acp, nil
}
func tableToAst(table *eacl.Table, bktName string) *ast {
resourceMap := make(map[string]orderedAstResource)
var groupRecordsLeft int
var currentResource orderedAstResource
for i, record := range table.Records() {
if serviceRec := tryServiceRecord(record); serviceRec != nil {
resInfo := resourceInfoFromName(serviceRec.Resource, bktName)
groupRecordsLeft = serviceRec.GroupRecordsLength
currentResource = getResourceOrCreate(resourceMap, i, resInfo)
resourceMap[resInfo.Name()] = currentResource
} else if groupRecordsLeft != 0 {
groupRecordsLeft--
addOperationsAndUpdateMap(currentResource, record, resourceMap)
} else {
resInfo := resInfoFromFilters(bktName, record.Filters())
resource := getResourceOrCreate(resourceMap, i, resInfo)
addOperationsAndUpdateMap(resource, record, resourceMap)
}
}
return &ast{
Resources: formReverseOrderResources(resourceMap),
}
}
func formReverseOrderResources(resourceMap map[string]orderedAstResource) []*astResource {
orderedResources := make([]orderedAstResource, 0, len(resourceMap))
for _, resource := range resourceMap {
orderedResources = append(orderedResources, resource)
}
sort.Slice(orderedResources, func(i, j int) bool {
return orderedResources[i].Index >= orderedResources[j].Index // reverse order
})
result := make([]*astResource, len(orderedResources))
for i, ordered := range orderedResources {
res := ordered.Resource
for j, k := 0, len(res.Operations)-1; j < k; j, k = j+1, k-1 {
res.Operations[j], res.Operations[k] = res.Operations[k], res.Operations[j]
}
result[i] = res
}
return result
}
func addOperationsAndUpdateMap(orderedRes orderedAstResource, record eacl.Record, resMap map[string]orderedAstResource) {
for _, target := range record.Targets() {
orderedRes.Resource.Operations = addToList(orderedRes.Resource.Operations, record, target)
}
resMap[orderedRes.Resource.Name()] = orderedRes
}
func getResourceOrCreate(resMap map[string]orderedAstResource, index int, resInfo resourceInfo) orderedAstResource {
resource, ok := resMap[resInfo.Name()]
if !ok {
resource = orderedAstResource{
Index: index,
Resource: &astResource{resourceInfo: resInfo},
}
}
return resource
}
func resInfoFromFilters(bucketName string, filters []eacl.Filter) resourceInfo {
resInfo := resourceInfo{Bucket: bucketName}
for _, filter := range filters {
if filter.Matcher() == eacl.MatchStringEqual {
if filter.Key() == object.AttributeFilePath {
resInfo.Object = filter.Value()
} else if filter.Key() == v2acl.FilterObjectID {
resInfo.Version = filter.Value()
}
}
}
return resInfo
}
func mergeAst(parent, child *ast) (*ast, bool) {
updated := false
for _, resource := range child.Resources {
parentResource := getParentResource(parent, resource)
if parentResource == nil {
parent.Resources = append(parent.Resources, resource)
updated = true
continue
}
var newOps []*astOperation
for _, astOp := range resource.Operations {
// get parent matched operations
ops := getAstOps(parentResource, astOp)
switch len(ops) {
case 2: // parent contains different actions for the same child operation
// potential inconsistency
if groupGrantee := astOp.IsGroupGrantee(); groupGrantee {
// it is not likely (such state must be detected early)
// inconsistency
action := eacl.ActionAllow
if astOp.Action == eacl.ActionAllow {
action = eacl.ActionDeny
}
removeAstOp(parentResource, groupGrantee, astOp.Op, action)
updated = true
continue
}
opToAdd, opToDelete := ops[0], ops[1]
if ops[1].Action == astOp.Action {
opToAdd, opToDelete = ops[1], ops[0]
}
if handleAddOperations(parentResource, astOp, opToAdd) {
updated = true
}
if handleRemoveOperations(parentResource, astOp, opToDelete) {
updated = true
}
case 1: // parent contains some action for the same child operation
if astOp.Action != ops[0].Action {
// potential inconsistency
if groupGrantee := astOp.IsGroupGrantee(); groupGrantee {
// inconsistency
ops[0].Action = astOp.Action
updated = true
continue
}
if handleRemoveOperations(parentResource, astOp, ops[0]) {
updated = true
}
parentResource.Operations = append(parentResource.Operations, astOp)
continue
}
if handleAddOperations(parentResource, astOp, ops[0]) {
updated = true
}
case 0: // parent doesn't contain actions for the same child operation
newOps = append(newOps, astOp)
updated = true
}
}
if newOps != nil {
parentResource.Operations = append(newOps, parentResource.Operations...)
}
}
return parent, updated
}
func handleAddOperations(parentResource *astResource, astOp, existedOp *astOperation) bool {
var needToAdd []string
for _, user := range astOp.Users {
if !containsStr(existedOp.Users, user) {
needToAdd = append(needToAdd, user)
}
}
if len(needToAdd) != 0 {
addUsers(parentResource, existedOp, needToAdd)
return true
}
return false
}
func handleRemoveOperations(parentResource *astResource, astOp, existedOp *astOperation) bool {
var needToRemove []string
for _, user := range astOp.Users {
if containsStr(existedOp.Users, user) {
needToRemove = append(needToRemove, user)
}
}
if len(needToRemove) != 0 {
removeUsers(parentResource, existedOp, needToRemove)
return true
}
return false
}
func containsStr(list []string, element string) bool {
for _, str := range list {
if str == element {
return true
}
}
return false
}
func getAstOps(resource *astResource, childOp *astOperation) []*astOperation {
var res []*astOperation
for _, astOp := range resource.Operations {
if astOp.IsGroupGrantee() == childOp.IsGroupGrantee() && astOp.Op == childOp.Op {
res = append(res, astOp)
}
}
return res
}
func removeAstOp(resource *astResource, group bool, op eacl.Operation, action eacl.Action) {
for i, astOp := range resource.Operations {
if astOp.IsGroupGrantee() == group && astOp.Op == op && astOp.Action == action {
resource.Operations = append(resource.Operations[:i], resource.Operations[i+1:]...)
return
}
}
}
func addUsers(resource *astResource, astO *astOperation, users []string) {
for _, astOp := range resource.Operations {
if astOp.IsGroupGrantee() == astO.IsGroupGrantee() && astOp.Op == astO.Op && astOp.Action == astO.Action {
astOp.Users = append(astO.Users, users...)
return
}
}
}
func removeUsers(resource *astResource, astOperation *astOperation, users []string) {
for ind, astOp := range resource.Operations {
if !astOp.IsGroupGrantee() && astOp.Op == astOperation.Op && astOp.Action == astOperation.Action {
filteredUsers := astOp.Users[:0] // new slice without allocation
for _, user := range astOp.Users {
if !containsStr(users, user) {
filteredUsers = append(filteredUsers, user)
}
}
if len(filteredUsers) == 0 { // remove ast resource
resource.Operations = append(resource.Operations[:ind], resource.Operations[ind+1:]...)
} else {
astOp.Users = filteredUsers
}
return
}
}
}
func getParentResource(parent *ast, resource *astResource) *astResource {
for _, parentResource := range parent.Resources {
if resource.Bucket == parentResource.Bucket && resource.Object == parentResource.Object &&
resource.Version == parentResource.Version {
return parentResource
}
}
return nil
}
func astToTable(ast *ast) (*eacl.Table, error) {
table := eacl.NewTable()
for i := len(ast.Resources) - 1; i >= 0; i-- {
records, err := formRecords(ast.Resources[i])
if err != nil {
return nil, fmt.Errorf("form records: %w", err)
}
serviceRecord := ServiceRecord{
Resource: ast.Resources[i].Name(),
GroupRecordsLength: len(records),
}
table.AddRecord(serviceRecord.ToEACLRecord())
for _, rec := range records {
table.AddRecord(rec)
}
}
return table, nil
}
func tryServiceRecord(record eacl.Record) *ServiceRecord {
if record.Action() != eacl.ActionAllow || record.Operation() != eacl.OperationGet ||
len(record.Targets()) != 1 || len(record.Filters()) != 2 {
return nil
}
target := record.Targets()[0]
if target.Role() != eacl.RoleSystem {
return nil
}
resourceFilter := record.Filters()[0]
recordsFilter := record.Filters()[1]
if resourceFilter.From() != eacl.HeaderFromService || recordsFilter.From() != eacl.HeaderFromService ||
resourceFilter.Matcher() != eacl.MatchUnknown || recordsFilter.Matcher() != eacl.MatchUnknown ||
resourceFilter.Key() != serviceRecordResourceKey || recordsFilter.Key() != serviceRecordGroupLengthKey {
return nil
}
groupLength, err := strconv.Atoi(recordsFilter.Value())
if err != nil {
return nil
}
return &ServiceRecord{
Resource: resourceFilter.Value(),
GroupRecordsLength: groupLength,
}
}
func formRecords(resource *astResource) ([]*eacl.Record, error) {
var res []*eacl.Record
for i := len(resource.Operations) - 1; i >= 0; i-- {
astOp := resource.Operations[i]
record := eacl.NewRecord()
record.SetOperation(astOp.Op)
record.SetAction(astOp.Action)
if astOp.IsGroupGrantee() {
eacl.AddFormedTarget(record, eacl.RoleOthers)
} else {
targetKeys := make([]ecdsa.PublicKey, 0, len(astOp.Users))
for _, user := range astOp.Users {
pk, err := keys.NewPublicKeyFromString(user)
if err != nil {
return nil, fmt.Errorf("public key from string: %w", err)
}
targetKeys = append(targetKeys, (ecdsa.PublicKey)(*pk))
}
// Unknown role is used, because it is ignored when keys are set
eacl.AddFormedTarget(record, eacl.RoleUnknown, targetKeys...)
}
if len(resource.Object) != 0 {
if len(resource.Version) != 0 {
var id oid.ID
if err := id.DecodeString(resource.Version); err != nil {
return nil, fmt.Errorf("parse object version (oid): %w", err)
}
record.AddObjectIDFilter(eacl.MatchStringEqual, id)
} else {
record.AddObjectAttributeFilter(eacl.MatchStringEqual, object.AttributeFilePath, resource.Object)
}
}
res = append(res, record)
}
return res, nil
}
func addToList(operations []*astOperation, rec eacl.Record, target eacl.Target) []*astOperation {
var (
found *astOperation
groupTarget = target.Role() == eacl.RoleOthers
)
for _, astOp := range operations {
if astOp.Op == rec.Operation() && astOp.IsGroupGrantee() == groupTarget {
found = astOp
}
}
if found != nil {
if !groupTarget {
for _, key := range target.BinaryKeys() {
found.Users = append(found.Users, hex.EncodeToString(key))
}
}
} else {
astOperation := &astOperation{
Op: rec.Operation(),
Action: rec.Action(),
}
if !groupTarget {
for _, key := range target.BinaryKeys() {
astOperation.Users = append(astOperation.Users, hex.EncodeToString(key))
}
}
operations = append(operations, astOperation)
}
return operations
}
func policyToAst(bktPolicy *bucketPolicy) (*ast, error) {
res := &ast{}
rr := make(map[string]*astResource)
for _, state := range bktPolicy.Statement {
if state.Principal.AWS != "" && state.Principal.AWS != allUsersWildcard ||
state.Principal.AWS == "" && state.Principal.CanonicalUser == "" {
return nil, fmt.Errorf("unsupported principal: %v", state.Principal)
}
var groupGrantee bool
if state.Principal.AWS == allUsersWildcard {
groupGrantee = true
}
for _, resource := range state.Resource {
trimmedResource := strings.TrimPrefix(resource, arnAwsPrefix)
r, ok := rr[trimmedResource]
if !ok {
if !strings.HasPrefix(trimmedResource, bktPolicy.Bucket) {
return nil, fmt.Errorf("resource '%s' must be in the same bucket '%s'", trimmedResource, bktPolicy.Bucket)
}
r = &astResource{
resourceInfo: resourceInfoFromName(trimmedResource, bktPolicy.Bucket),
}
}
for _, action := range state.Action {
for _, op := range actionToOpMap[action] {
toAction := effectToAction(state.Effect)
r.Operations = addTo(r.Operations, state.Principal.CanonicalUser, op, groupGrantee, toAction)
}
}
rr[trimmedResource] = r
}
}
for _, val := range rr {
res.Resources = append(res.Resources, val)
}
return res, nil
}
func resourceInfoFromName(name, bucketName string) resourceInfo {
resInfo := resourceInfo{Bucket: bucketName}
if name != bucketName {
versionedObject := strings.TrimPrefix(name, bucketName+"/")
objVersion := strings.Split(versionedObject, ":")
if len(objVersion) <= 2 {
resInfo.Object = objVersion[0]
if len(objVersion) == 2 {
resInfo.Version = objVersion[1]
}
} else {
resInfo.Object = strings.Join(objVersion[:len(objVersion)-1], ":")
resInfo.Version = objVersion[len(objVersion)-1]
}
}
return resInfo
}
func addTo(list []*astOperation, userID string, op eacl.Operation, groupGrantee bool, action eacl.Action) []*astOperation {
var found *astOperation
for _, astop := range list {
if astop.Op == op && astop.IsGroupGrantee() == groupGrantee {
found = astop
}
}
if found != nil {
if !groupGrantee {
found.Users = append(found.Users, userID)
}
} else {
astoperation := &astOperation{
Op: op,
Action: action,
}
if !groupGrantee {
astoperation.Users = append(astoperation.Users, userID)
}
list = append(list, astoperation)
}
return list
}
func aclToAst(acl *AccessControlPolicy, resInfo *resourceInfo) (*ast, error) {
res := &ast{}
resource := &astResource{resourceInfo: *resInfo}
ops := readOps
if resInfo.IsBucket() {
ops = append(ops, writeOps...)
}
// Expect to have at least 1 full control grant for owner which is set in
// parseACLHeaders(). If there is no other grants, then user sets private
// canned ACL, which is processed in this branch.
if len(acl.AccessControlList) < 2 {
for _, op := range ops {
operation := &astOperation{
Op: op,
Action: eacl.ActionDeny,
}
resource.Operations = append(resource.Operations, operation)
}
}
for _, op := range ops {
operation := &astOperation{
Users: []string{acl.Owner.ID},
Op: op,
Action: eacl.ActionAllow,
}
resource.Operations = append(resource.Operations, operation)
}
for _, grant := range acl.AccessControlList {
if grant.Grantee.Type == acpAmazonCustomerByEmail || (grant.Grantee.Type == acpGroup && grant.Grantee.URI != allUsersGroup) {
return nil, stderrors.New("unsupported grantee type")
}
var groupGrantee bool
if grant.Grantee.Type == acpGroup {
groupGrantee = true
} else if grant.Grantee.ID == acl.Owner.ID {
continue
}
for _, action := range getActions(grant.Permission, resInfo.IsBucket()) {
for _, op := range actionToOpMap[action] {
resource.Operations = addTo(resource.Operations, grant.Grantee.ID, op, groupGrantee, eacl.ActionAllow)
}
}
}
res.Resources = []*astResource{resource}
return res, nil
}
func aclToPolicy(acl *AccessControlPolicy, resInfo *resourceInfo) (*bucketPolicy, error) {
if resInfo.Bucket == "" {
return nil, fmt.Errorf("resource bucket must not be empty")
}
results := []statement{
getAllowStatement(resInfo, acl.Owner.ID, aclFullControl),
}
// Expect to have at least 1 full control grant for owner which is set in
// parseACLHeaders(). If there is no other grants, then user sets private
// canned ACL, which is processed in this branch.
if len(acl.AccessControlList) < 2 {
results = append([]statement{getDenyStatement(resInfo, allUsersWildcard, aclFullControl)}, results...)
}
for _, grant := range acl.AccessControlList {
if grant.Grantee.Type == acpAmazonCustomerByEmail || (grant.Grantee.Type == acpGroup && grant.Grantee.URI != allUsersGroup) {
return nil, stderrors.New("unsupported grantee type")
}
user := grant.Grantee.ID
if grant.Grantee.Type == acpGroup {
user = allUsersWildcard
} else if user == acl.Owner.ID {
continue
}
results = append(results, getAllowStatement(resInfo, user, grant.Permission))
}
return &bucketPolicy{
Statement: results,
Bucket: resInfo.Bucket,
}, nil
}
func getAllowStatement(resInfo *resourceInfo, id string, permission AWSACL) statement {
state := statement{
Effect: "Allow",
Principal: principal{
CanonicalUser: id,
},
Action: getActions(permission, resInfo.IsBucket()),
Resource: []string{arnAwsPrefix + resInfo.Name()},
}
if id == allUsersWildcard {
state.Principal = principal{AWS: allUsersWildcard}
}
return state
}
func getDenyStatement(resInfo *resourceInfo, id string, permission AWSACL) statement {
state := statement{
Effect: "Deny",
Principal: principal{
CanonicalUser: id,
},
Action: getActions(permission, resInfo.IsBucket()),
Resource: []string{arnAwsPrefix + resInfo.Name()},
}
if id == allUsersWildcard {
state.Principal = principal{AWS: allUsersWildcard}
}
return state
}
func getActions(permission AWSACL, isBucket bool) []string {
var res []string
switch permission {
case aclRead:
if isBucket {
res = []string{s3ListBucket, s3ListBucketVersions, s3ListBucketMultipartUploads}
} else {
res = []string{s3GetObject, s3GetObjectVersion}
}
case aclWrite:
if isBucket {
res = []string{s3PutObject, s3DeleteObject}
}
case aclFullControl:
if isBucket {
res = []string{s3ListBucket, s3ListBucketVersions, s3ListBucketMultipartUploads, s3PutObject, s3DeleteObject}
} else {
res = []string{s3GetObject, s3GetObjectVersion}
}
}
return res
}
func effectToAction(effect string) eacl.Action {
switch effect {
case "Allow":
return eacl.ActionAllow
case "Deny":
return eacl.ActionDeny
}
return eacl.ActionUnknown
}
func permissionToOperations(permission AWSACL) []eacl.Operation {
switch permission {
case aclFullControl:
return fullOps
case aclRead:
return readOps
case aclWrite:
return writeOps
}
return nil
}
func isWriteOperation(op eacl.Operation) bool {
return op == eacl.OperationDelete || op == eacl.OperationPut
}
func (h *handler) encodeObjectACL(ctx context.Context, bucketACL *layer.BucketACL, bucketName, objectVersion string) *AccessControlPolicy {
res := &AccessControlPolicy{
Owner: Owner{
ID: bucketACL.Info.Owner.String(),
DisplayName: bucketACL.Info.Owner.String(),
},
}
m := make(map[string][]eacl.Operation)
astList := tableToAst(bucketACL.EACL, bucketName)
for _, resource := range astList.Resources {
if resource.Version != objectVersion {
continue
}
for _, op := range resource.Operations {
if op.Action != eacl.ActionAllow {
continue
}
if len(op.Users) == 0 {
list := append(m[allUsersGroup], op.Op)
m[allUsersGroup] = list
} else {
for _, user := range op.Users {
list := append(m[user], op.Op)
m[user] = list
}
}
}
}
for key, val := range m {
permission := aclFullControl
read := true
for op := eacl.OperationGet; op <= eacl.OperationRangeHash; op++ {
if !contains(val, op) && !isWriteOperation(op) {
read = false
}
}
if read {
permission = aclFullControl
} else {
h.reqLogger(ctx).Warn(logs.SomeACLNotFullyMapped)
}
var grantee *Grantee
if key == allUsersGroup {
grantee = NewGrantee(acpGroup)
grantee.URI = allUsersGroup
} else {
grantee = NewGrantee(acpCanonicalUser)
grantee.ID = key
}
grant := &Grant{
Grantee: grantee,
Permission: permission,
}
res.AccessControlList = append(res.AccessControlList, grant)
}
return res
}
func (h *handler) encodeBucketACL(ctx context.Context, bucketName string, bucketACL *layer.BucketACL) *AccessControlPolicy {
return h.encodeObjectACL(ctx, bucketACL, bucketName, "")
}
func contains(list []eacl.Operation, op eacl.Operation) bool {
for _, operation := range list {
if operation == op {
return true
}
}
return false
}
type getRecordFunc func(op eacl.Operation) *eacl.Record
func bucketACLToTable(acp *AccessControlPolicy, resInfo *resourceInfo) (*eacl.Table, error) {
if !resInfo.IsBucket() {
return nil, fmt.Errorf("allowed only bucket acl")
}
var found bool
table := eacl.NewTable()
ownerKey, err := keys.NewPublicKeyFromString(acp.Owner.ID)
if err != nil {
return nil, fmt.Errorf("public key from string: %w", err)
}
for _, grant := range acp.AccessControlList {
if !isValidGrant(grant) {
return nil, stderrors.New("unsupported grantee")
}
if grant.Grantee.ID == acp.Owner.ID {
found = true
}
getRecord, err := getRecordFunction(grant.Grantee)
if err != nil {
return nil, fmt.Errorf("record func from grantee: %w", err)
}
for _, op := range permissionToOperations(grant.Permission) {
table.AddRecord(getRecord(op))
}
}
if !found {
for _, op := range fullOps {
table.AddRecord(getAllowRecord(op, ownerKey))
}
}
for _, op := range fullOps {
table.AddRecord(getOthersRecord(op, eacl.ActionDeny))
}
return table, nil
}
func getRecordFunction(grantee *Grantee) (getRecordFunc, error) {
switch grantee.Type {
case acpAmazonCustomerByEmail:
case acpCanonicalUser:
pk, err := keys.NewPublicKeyFromString(grantee.ID)
if err != nil {
return nil, fmt.Errorf("couldn't parse canonical ID %s: %w", grantee.ID, err)
}
return func(op eacl.Operation) *eacl.Record {
return getAllowRecord(op, pk)
}, nil
case acpGroup:
return func(op eacl.Operation) *eacl.Record {
return getOthersRecord(op, eacl.ActionAllow)
}, nil
}
return nil, fmt.Errorf("unknown type: %s", grantee.Type)
}
func isValidGrant(grant *Grant) bool {
return (grant.Permission == aclFullControl || grant.Permission == aclRead || grant.Permission == aclWrite) &&
(grant.Grantee.Type == acpCanonicalUser || (grant.Grantee.Type == acpGroup && grant.Grantee.URI == allUsersGroup))
}
func getAllowRecord(op eacl.Operation, pk *keys.PublicKey) *eacl.Record {
record := eacl.NewRecord()
record.SetOperation(op)
record.SetAction(eacl.ActionAllow)
// Unknown role is used, because it is ignored when keys are set
eacl.AddFormedTarget(record, eacl.RoleUnknown, (ecdsa.PublicKey)(*pk))
return record
}
func getOthersRecord(op eacl.Operation, action eacl.Action) *eacl.Record {
record := eacl.NewRecord()
record.SetOperation(op)
record.SetAction(action)
eacl.AddFormedTarget(record, eacl.RoleOthers)
return record
}