minio/cmd/iam.go
Aditya Manthramurthy 6bb693488c
Fix policy setting error in LDAP setups (#9303)
Fixes #8667

In addition to the above, if the user is mapped to a policy or 
belongs in a group, the user-info API returns this information, 
but otherwise, the API will now return a non-existent user error.
2020-04-09 01:04:08 -07:00

1794 lines
46 KiB
Go

/*
* MinIO Cloud Storage, (C) 2018-2019 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"
"encoding/base64"
"fmt"
"github.com/minio/minio-go/v6/pkg/set"
"github.com/minio/minio/cmd/config"
"github.com/minio/minio/cmd/logger"
"github.com/minio/minio/pkg/auth"
"github.com/minio/minio/pkg/bucket/policy"
iampolicy "github.com/minio/minio/pkg/iam/policy"
"github.com/minio/minio/pkg/madmin"
)
// UsersSysType - defines the type of users and groups system that is
// active on the server.
type UsersSysType string
// Types of users configured in the server.
const (
// This mode uses the internal users system in MinIO.
MinIOUsersSysType UsersSysType = "MinIOUsersSys"
// This mode uses users and groups from a configured LDAP
// server.
LDAPUsersSysType UsersSysType = "LDAPUsersSys"
)
const (
// IAM configuration directory.
iamConfigPrefix = minioConfigPrefix + "/iam"
// IAM users directory.
iamConfigUsersPrefix = iamConfigPrefix + "/users/"
// IAM service accounts directory.
iamConfigServiceAccountsPrefix = iamConfigPrefix + "/service-accounts/"
// IAM groups directory.
iamConfigGroupsPrefix = iamConfigPrefix + "/groups/"
// IAM policies directory.
iamConfigPoliciesPrefix = iamConfigPrefix + "/policies/"
// IAM sts directory.
iamConfigSTSPrefix = iamConfigPrefix + "/sts/"
// IAM Policy DB prefixes.
iamConfigPolicyDBPrefix = iamConfigPrefix + "/policydb/"
iamConfigPolicyDBUsersPrefix = iamConfigPolicyDBPrefix + "users/"
iamConfigPolicyDBSTSUsersPrefix = iamConfigPolicyDBPrefix + "sts-users/"
iamConfigPolicyDBServiceAccountsPrefix = iamConfigPolicyDBPrefix + "service-accounts/"
iamConfigPolicyDBGroupsPrefix = iamConfigPolicyDBPrefix + "groups/"
// IAM identity file which captures identity credentials.
iamIdentityFile = "identity.json"
// IAM policy file which provides policies for each users.
iamPolicyFile = "policy.json"
// IAM group members file
iamGroupMembersFile = "members.json"
// IAM format file
iamFormatFile = "format.json"
iamFormatVersion1 = 1
)
const (
statusEnabled = "enabled"
statusDisabled = "disabled"
)
type iamFormat struct {
Version int `json:"version"`
}
func newIAMFormatVersion1() iamFormat {
return iamFormat{Version: iamFormatVersion1}
}
func getIAMFormatFilePath() string {
return iamConfigPrefix + SlashSeparator + iamFormatFile
}
func getUserIdentityPath(user string, userType IAMUserType) string {
var basePath string
switch userType {
case srvAccUser:
basePath = iamConfigServiceAccountsPrefix
case stsUser:
basePath = iamConfigSTSPrefix
default:
basePath = iamConfigUsersPrefix
}
return pathJoin(basePath, user, iamIdentityFile)
}
func getGroupInfoPath(group string) string {
return pathJoin(iamConfigGroupsPrefix, group, iamGroupMembersFile)
}
func getPolicyDocPath(name string) string {
return pathJoin(iamConfigPoliciesPrefix, name, iamPolicyFile)
}
func getMappedPolicyPath(name string, userType IAMUserType, isGroup bool) string {
if isGroup {
return pathJoin(iamConfigPolicyDBGroupsPrefix, name+".json")
}
switch userType {
case srvAccUser:
return pathJoin(iamConfigPolicyDBServiceAccountsPrefix, name+".json")
case stsUser:
return pathJoin(iamConfigPolicyDBSTSUsersPrefix, name+".json")
default:
return pathJoin(iamConfigPolicyDBUsersPrefix, name+".json")
}
}
// UserIdentity represents a user's secret key and their status
type UserIdentity struct {
Version int `json:"version"`
Credentials auth.Credentials `json:"credentials"`
}
func newUserIdentity(creds auth.Credentials) UserIdentity {
return UserIdentity{Version: 1, Credentials: creds}
}
// GroupInfo contains info about a group
type GroupInfo struct {
Version int `json:"version"`
Status string `json:"status"`
Members []string `json:"members"`
}
func newGroupInfo(members []string) GroupInfo {
return GroupInfo{Version: 1, Status: statusEnabled, Members: members}
}
// MappedPolicy represents a policy name mapped to a user or group
type MappedPolicy struct {
Version int `json:"version"`
Policy string `json:"policy"`
}
func newMappedPolicy(policy string) MappedPolicy {
return MappedPolicy{Version: 1, Policy: policy}
}
// IAMSys - config system.
type IAMSys struct {
usersSysType UsersSysType
// map of policy names to policy definitions
iamPolicyDocsMap map[string]iampolicy.Policy
// map of usernames to credentials
iamUsersMap map[string]auth.Credentials
// map of group names to group info
iamGroupsMap map[string]GroupInfo
// map of user names to groups they are a member of
iamUserGroupMemberships map[string]set.StringSet
// map of usernames/temporary access keys to policy names
iamUserPolicyMap map[string]MappedPolicy
// map of group names to policy names
iamGroupPolicyMap map[string]MappedPolicy
// Persistence layer for IAM subsystem
store IAMStorageAPI
}
// IAMUserType represents a user type inside MinIO server
type IAMUserType int
const (
regularUser IAMUserType = iota
stsUser
srvAccUser
)
// IAMStorageAPI defines an interface for the IAM persistence layer
type IAMStorageAPI interface {
lock()
unlock()
rlock()
runlock()
migrateBackendFormat(context.Context) error
loadPolicyDoc(policy string, m map[string]iampolicy.Policy) error
loadPolicyDocs(ctx context.Context, m map[string]iampolicy.Policy) error
loadUser(user string, userType IAMUserType, m map[string]auth.Credentials) error
loadUsers(ctx context.Context, userType IAMUserType, m map[string]auth.Credentials) error
loadGroup(group string, m map[string]GroupInfo) error
loadGroups(ctx context.Context, m map[string]GroupInfo) error
loadMappedPolicy(name string, userType IAMUserType, isGroup bool, m map[string]MappedPolicy) error
loadMappedPolicies(ctx context.Context, userType IAMUserType, isGroup bool, m map[string]MappedPolicy) error
loadAll(context.Context, *IAMSys) error
saveIAMConfig(item interface{}, path string) error
loadIAMConfig(item interface{}, path string) error
deleteIAMConfig(path string) error
savePolicyDoc(policyName string, p iampolicy.Policy) error
saveMappedPolicy(name string, userType IAMUserType, isGroup bool, mp MappedPolicy) error
saveUserIdentity(name string, userType IAMUserType, u UserIdentity) error
saveGroupInfo(group string, gi GroupInfo) error
deletePolicyDoc(policyName string) error
deleteMappedPolicy(name string, userType IAMUserType, isGroup bool) error
deleteUserIdentity(name string, userType IAMUserType) error
deleteGroupInfo(name string) error
watch(context.Context, *IAMSys)
}
// LoadGroup - loads a specific group from storage, and updates the
// memberships cache. If the specified group does not exist in
// storage, it is removed from in-memory maps as well - this
// simplifies the implementation for group removal. This is called
// only via IAM notifications.
func (sys *IAMSys) LoadGroup(objAPI ObjectLayer, group string) error {
if objAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if globalEtcdClient != nil {
// Watch APIs cover this case, so nothing to do.
return nil
}
sys.store.lock()
defer sys.store.unlock()
err := sys.store.loadGroup(group, sys.iamGroupsMap)
if err != nil && err != errConfigNotFound {
return err
}
if err == errConfigNotFound {
// group does not exist - so remove from memory.
sys.removeGroupFromMembershipsMap(group)
delete(sys.iamGroupsMap, group)
delete(sys.iamGroupPolicyMap, group)
return nil
}
gi := sys.iamGroupsMap[group]
// Updating the group memberships cache happens in two steps:
//
// 1. Remove the group from each user's list of memberships.
// 2. Add the group to each member's list of memberships.
//
// This ensures that regardless of members being added or
// removed, the cache stays current.
sys.removeGroupFromMembershipsMap(group)
sys.updateGroupMembershipsMap(group, &gi)
return nil
}
// LoadPolicy - reloads a specific canned policy from backend disks or etcd.
func (sys *IAMSys) LoadPolicy(objAPI ObjectLayer, policyName string) error {
if objAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if globalEtcdClient == nil {
return sys.store.loadPolicyDoc(policyName, sys.iamPolicyDocsMap)
}
// When etcd is set, we use watch APIs so this code is not needed.
return nil
}
// LoadPolicyMapping - loads the mapped policy for a user or group
// from storage into server memory.
func (sys *IAMSys) LoadPolicyMapping(objAPI ObjectLayer, userOrGroup string, isGroup bool) error {
if objAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if globalEtcdClient == nil {
var err error
if isGroup {
err = sys.store.loadMappedPolicy(userOrGroup, regularUser, isGroup, sys.iamGroupPolicyMap)
} else {
err = sys.store.loadMappedPolicy(userOrGroup, regularUser, isGroup, sys.iamUserPolicyMap)
}
// Ignore policy not mapped error
if err != nil && err != errConfigNotFound {
return err
}
}
// When etcd is set, we use watch APIs so this code is not needed.
return nil
}
// LoadUser - reloads a specific user from backend disks or etcd.
func (sys *IAMSys) LoadUser(objAPI ObjectLayer, accessKey string, userType IAMUserType) error {
if objAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if globalEtcdClient == nil {
err := sys.store.loadUser(accessKey, userType, sys.iamUsersMap)
if err != nil {
return err
}
err = sys.store.loadMappedPolicy(accessKey, userType, false, sys.iamUserPolicyMap)
// Ignore policy not mapped error
if err != nil && err != errConfigNotFound {
return err
}
}
// When etcd is set, we use watch APIs so this code is not needed.
return nil
}
// Perform IAM configuration migration.
func (sys *IAMSys) doIAMConfigMigration(ctx context.Context) error {
return sys.store.migrateBackendFormat(ctx)
}
// Init - initializes config system from iam.json
func (sys *IAMSys) Init(ctx context.Context, objAPI ObjectLayer) error {
if objAPI == nil {
return errServerNotInitialized
}
if globalEtcdClient == nil {
sys.store = newIAMObjectStore(ctx, objAPI)
} else {
sys.store = newIAMEtcdStore(ctx)
}
if globalLDAPConfig.Enabled {
sys.EnableLDAPSys()
}
// Migrate IAM configuration
if err := sys.doIAMConfigMigration(ctx); err != nil {
return err
}
err := sys.store.loadAll(ctx, sys)
// Invalidate the old cred after finishing IAM initialization
globalOldCred = auth.Credentials{}
go sys.store.watch(ctx, sys)
return err
}
// DeletePolicy - deletes a canned policy from backend or etcd.
func (sys *IAMSys) DeletePolicy(policyName string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if policyName == "" {
return errInvalidArgument
}
sys.store.lock()
defer sys.store.unlock()
err := sys.store.deletePolicyDoc(policyName)
switch err.(type) {
case ObjectNotFound:
// Ignore error if policy is already deleted.
err = nil
}
delete(sys.iamPolicyDocsMap, policyName)
// Delete user-policy mappings that will no longer apply
var usersToDel []string
var usersType []IAMUserType
for u, mp := range sys.iamUserPolicyMap {
if mp.Policy == policyName {
usersToDel = append(usersToDel, u)
cr, ok := sys.iamUsersMap[u]
if !ok {
// This case cannot happen
return errNoSuchUser
}
// User is from STS if the creds are temporary
if cr.IsTemp() {
usersType = append(usersType, stsUser)
} else {
usersType = append(usersType, regularUser)
}
}
}
for i, u := range usersToDel {
sys.policyDBSet(u, "", usersType[i], false)
}
// Delete group-policy mappings that will no longer apply
var groupsToDel []string
for g, mp := range sys.iamGroupPolicyMap {
if mp.Policy == policyName {
groupsToDel = append(groupsToDel, g)
}
}
for _, g := range groupsToDel {
sys.policyDBSet(g, "", regularUser, true)
}
return err
}
// InfoPolicy - expands the canned policy into its JSON structure.
func (sys *IAMSys) InfoPolicy(policyName string) (iampolicy.Policy, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return iampolicy.Policy{}, errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
v, ok := sys.iamPolicyDocsMap[policyName]
if !ok {
return iampolicy.Policy{}, errNoSuchPolicy
}
return v, nil
}
// ListPolicies - lists all canned policies.
func (sys *IAMSys) ListPolicies() (map[string]iampolicy.Policy, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return nil, errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
policyDocsMap := make(map[string]iampolicy.Policy, len(sys.iamPolicyDocsMap))
for k, v := range sys.iamPolicyDocsMap {
policyDocsMap[k] = v
}
return policyDocsMap, nil
}
// SetPolicy - sets a new name policy.
func (sys *IAMSys) SetPolicy(policyName string, p iampolicy.Policy) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if p.IsEmpty() || policyName == "" {
return errInvalidArgument
}
sys.store.lock()
defer sys.store.unlock()
if err := sys.store.savePolicyDoc(policyName, p); err != nil {
return err
}
sys.iamPolicyDocsMap[policyName] = p
return nil
}
// DeleteUser - delete user (only for long-term users not STS users).
func (sys *IAMSys) DeleteUser(accessKey string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
// First we remove the user from their groups.
userInfo, getErr := sys.GetUserInfo(accessKey)
if getErr != nil {
return getErr
}
for _, group := range userInfo.MemberOf {
removeErr := sys.RemoveUsersFromGroup(group, []string{accessKey})
if removeErr != nil {
return removeErr
}
}
// Next we can remove the user from memory and IAM store
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
// It is ok to ignore deletion error on the mapped policy
sys.store.deleteMappedPolicy(accessKey, regularUser, false)
err := sys.store.deleteUserIdentity(accessKey, regularUser)
switch err.(type) {
case ObjectNotFound:
// ignore if user is already deleted.
err = nil
}
delete(sys.iamUsersMap, accessKey)
delete(sys.iamUserPolicyMap, accessKey)
for _, u := range sys.iamUsersMap {
if u.IsServiceAccount() {
if u.ParentUser == accessKey {
_ = sys.store.deleteUserIdentity(u.AccessKey, srvAccUser)
delete(sys.iamUsersMap, u.AccessKey)
}
}
}
return err
}
// SetTempUser - set temporary user credentials, these credentials have an expiry.
func (sys *IAMSys) SetTempUser(accessKey string, cred auth.Credentials, policyName string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
// If OPA is not set we honor any policy claims for this
// temporary user which match with pre-configured canned
// policies for this server.
if globalPolicyOPA == nil && policyName != "" {
p, ok := sys.iamPolicyDocsMap[policyName]
if !ok {
return errInvalidArgument
}
if p.IsEmpty() {
delete(sys.iamUserPolicyMap, accessKey)
return nil
}
mp := newMappedPolicy(policyName)
if err := sys.store.saveMappedPolicy(accessKey, stsUser, false, mp); err != nil {
return err
}
sys.iamUserPolicyMap[accessKey] = mp
}
u := newUserIdentity(cred)
if err := sys.store.saveUserIdentity(accessKey, stsUser, u); err != nil {
return err
}
sys.iamUsersMap[accessKey] = cred
return nil
}
// ListUsers - list all users.
func (sys *IAMSys) ListUsers() (map[string]madmin.UserInfo, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return nil, errServerNotInitialized
}
var users = make(map[string]madmin.UserInfo)
sys.store.rlock()
defer sys.store.runlock()
if sys.usersSysType != MinIOUsersSysType {
return nil, errIAMActionNotAllowed
}
for k, v := range sys.iamUsersMap {
if !v.IsTemp() && !v.IsServiceAccount() {
users[k] = madmin.UserInfo{
PolicyName: sys.iamUserPolicyMap[k].Policy,
Status: func() madmin.AccountStatus {
if v.IsValid() {
return madmin.AccountEnabled
}
return madmin.AccountDisabled
}(),
}
}
}
return users, nil
}
// IsTempUser - returns if given key is a temporary user.
func (sys *IAMSys) IsTempUser(name string) (bool, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return false, errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
creds, found := sys.iamUsersMap[name]
if !found {
return false, errNoSuchUser
}
return creds.IsTemp(), nil
}
// IsServiceAccount - returns if given key is a service account
func (sys *IAMSys) IsServiceAccount(name string) (bool, string, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return false, "", errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
creds, found := sys.iamUsersMap[name]
if !found {
return false, "", errNoSuchUser
}
if creds.IsServiceAccount() {
return true, creds.ParentUser, nil
}
return false, "", nil
}
// GetUserInfo - get info on a user.
func (sys *IAMSys) GetUserInfo(name string) (u madmin.UserInfo, err error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return u, errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
if sys.usersSysType != MinIOUsersSysType {
// If the user has a mapped policy or is a member of a group, we
// return that info. Otherwise we return error.
mappedPolicy, ok1 := sys.iamUserPolicyMap[name]
memberships, ok2 := sys.iamUserGroupMemberships[name]
if !ok1 && !ok2 {
return u, errNoSuchUser
}
return madmin.UserInfo{
PolicyName: mappedPolicy.Policy,
MemberOf: memberships.ToSlice(),
}, nil
}
creds, found := sys.iamUsersMap[name]
if !found {
return u, errNoSuchUser
}
if creds.IsTemp() {
return u, errIAMActionNotAllowed
}
u = madmin.UserInfo{
PolicyName: sys.iamUserPolicyMap[name].Policy,
Status: func() madmin.AccountStatus {
if creds.IsValid() {
return madmin.AccountEnabled
}
return madmin.AccountDisabled
}(),
MemberOf: sys.iamUserGroupMemberships[name].ToSlice(),
}
return u, nil
}
// SetUserStatus - sets current user status, supports disabled or enabled.
func (sys *IAMSys) SetUserStatus(accessKey string, status madmin.AccountStatus) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if status != madmin.AccountEnabled && status != madmin.AccountDisabled {
return errInvalidArgument
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
cred, ok := sys.iamUsersMap[accessKey]
if !ok {
return errNoSuchUser
}
if cred.IsTemp() {
return errIAMActionNotAllowed
}
uinfo := newUserIdentity(auth.Credentials{
AccessKey: accessKey,
SecretKey: cred.SecretKey,
Status: func() string {
if status == madmin.AccountEnabled {
return config.EnableOn
}
return config.EnableOff
}(),
})
if err := sys.store.saveUserIdentity(accessKey, regularUser, uinfo); err != nil {
return err
}
sys.iamUsersMap[accessKey] = uinfo.Credentials
return nil
}
// NewServiceAccount - create a new service account
func (sys *IAMSys) NewServiceAccount(ctx context.Context, parentUser, sessionPolicy string) (auth.Credentials, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return auth.Credentials{}, errServerNotInitialized
}
if len(sessionPolicy) > 16*1024 {
return auth.Credentials{}, fmt.Errorf("Session policy should not exceed 16 KiB characters")
}
if len(sessionPolicy) > 0 {
policy, err := iampolicy.ParseConfig(bytes.NewReader([]byte(sessionPolicy)))
if err != nil {
return auth.Credentials{}, err
}
// Version in policy must not be empty
if policy.Version == "" {
return auth.Credentials{}, fmt.Errorf("Invalid session policy version")
}
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return auth.Credentials{}, errIAMActionNotAllowed
}
if parentUser == globalActiveCred.AccessKey {
return auth.Credentials{}, errIAMActionNotAllowed
}
cr, ok := sys.iamUsersMap[parentUser]
if !ok {
return auth.Credentials{}, errNoSuchUser
}
if cr.IsTemp() {
return auth.Credentials{}, errIAMActionNotAllowed
}
m := make(map[string]interface{})
m[parentClaim] = parentUser
if len(sessionPolicy) > 0 {
m[iampolicy.SessionPolicyName] = base64.StdEncoding.EncodeToString([]byte(sessionPolicy))
m[iamPolicyClaimNameSA()] = "embedded-policy"
} else {
m[iamPolicyClaimNameSA()] = "inherited-policy"
}
secret := globalActiveCred.SecretKey
cred, err := auth.GetNewCredentialsWithMetadata(m, secret)
if err != nil {
return auth.Credentials{}, err
}
cred.ParentUser = parentUser
u := newUserIdentity(cred)
if err := sys.store.saveUserIdentity(u.Credentials.AccessKey, srvAccUser, u); err != nil {
return auth.Credentials{}, err
}
sys.iamUsersMap[u.Credentials.AccessKey] = u.Credentials
return cred, nil
}
// GetServiceAccount - returns the credentials of the given service account
func (sys *IAMSys) GetServiceAccount(ctx context.Context, serviceAccountAccessKey string) (auth.Credentials, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return auth.Credentials{}, errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return auth.Credentials{}, errIAMActionNotAllowed
}
cr, ok := sys.iamUsersMap[serviceAccountAccessKey]
if !ok {
return auth.Credentials{}, errNoSuchUser
}
if !cr.IsServiceAccount() {
return auth.Credentials{}, errIAMActionNotAllowed
}
return cr, nil
}
// SetUser - set user credentials and policy.
func (sys *IAMSys) SetUser(accessKey string, uinfo madmin.UserInfo) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
u := newUserIdentity(auth.Credentials{
AccessKey: accessKey,
SecretKey: uinfo.SecretKey,
Status: string(uinfo.Status),
})
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
cr, ok := sys.iamUsersMap[accessKey]
if cr.IsTemp() && ok {
return errIAMActionNotAllowed
}
if err := sys.store.saveUserIdentity(accessKey, regularUser, u); err != nil {
return err
}
sys.iamUsersMap[accessKey] = u.Credentials
// Set policy if specified.
if uinfo.PolicyName != "" {
return sys.policyDBSet(accessKey, uinfo.PolicyName, regularUser, false)
}
return nil
}
// SetUserSecretKey - sets user secret key
func (sys *IAMSys) SetUserSecretKey(accessKey string, secretKey string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
cred, ok := sys.iamUsersMap[accessKey]
if !ok {
return errNoSuchUser
}
cred.SecretKey = secretKey
u := newUserIdentity(cred)
if err := sys.store.saveUserIdentity(accessKey, regularUser, u); err != nil {
return err
}
sys.iamUsersMap[accessKey] = cred
return nil
}
// GetUser - get user credentials
func (sys *IAMSys) GetUser(accessKey string) (cred auth.Credentials, ok bool) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return cred, false
}
sys.store.rlock()
defer sys.store.runlock()
cred, ok = sys.iamUsersMap[accessKey]
return cred, ok && cred.IsValid()
}
// AddUsersToGroup - adds users to a group, creating the group if
// needed. No error if user(s) already are in the group.
func (sys *IAMSys) AddUsersToGroup(group string, members []string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if group == "" {
return errInvalidArgument
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
// Validate that all members exist.
for _, member := range members {
cr, ok := sys.iamUsersMap[member]
if !ok {
return errNoSuchUser
}
if cr.IsTemp() {
return errIAMActionNotAllowed
}
}
gi, ok := sys.iamGroupsMap[group]
if !ok {
// Set group as enabled by default when it doesn't
// exist.
gi = newGroupInfo(members)
} else {
mergedMembers := append(gi.Members, members...)
uniqMembers := set.CreateStringSet(mergedMembers...).ToSlice()
gi.Members = uniqMembers
}
if err := sys.store.saveGroupInfo(group, gi); err != nil {
return err
}
sys.iamGroupsMap[group] = gi
// update user-group membership map
for _, member := range members {
gset := sys.iamUserGroupMemberships[member]
if gset == nil {
gset = set.CreateStringSet(group)
} else {
gset.Add(group)
}
sys.iamUserGroupMemberships[member] = gset
}
return nil
}
// RemoveUsersFromGroup - remove users from group. If no users are
// given, and the group is empty, deletes the group as well.
func (sys *IAMSys) RemoveUsersFromGroup(group string, members []string) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
if group == "" {
return errInvalidArgument
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
// Validate that all members exist.
for _, member := range members {
cr, ok := sys.iamUsersMap[member]
if !ok {
return errNoSuchUser
}
if cr.IsTemp() {
return errIAMActionNotAllowed
}
}
gi, ok := sys.iamGroupsMap[group]
if !ok {
return errNoSuchGroup
}
// Check if attempting to delete a non-empty group.
if len(members) == 0 && len(gi.Members) != 0 {
return errGroupNotEmpty
}
if len(members) == 0 {
// len(gi.Members) == 0 here.
// Remove the group from storage. First delete the
// mapped policy.
err := sys.store.deleteMappedPolicy(group, regularUser, true)
// No-mapped-policy case is ignored.
if err != nil && err != errNoSuchPolicy {
return err
}
err = sys.store.deleteGroupInfo(group)
if err != nil {
return err
}
// Delete from server memory
delete(sys.iamGroupsMap, group)
delete(sys.iamGroupPolicyMap, group)
return nil
}
// Only removing members.
s := set.CreateStringSet(gi.Members...)
d := set.CreateStringSet(members...)
gi.Members = s.Difference(d).ToSlice()
err := sys.store.saveGroupInfo(group, gi)
if err != nil {
return err
}
sys.iamGroupsMap[group] = gi
// update user-group membership map
for _, member := range members {
gset := sys.iamUserGroupMemberships[member]
if gset == nil {
continue
}
gset.Remove(group)
sys.iamUserGroupMemberships[member] = gset
}
return nil
}
// SetGroupStatus - enable/disabled a group
func (sys *IAMSys) SetGroupStatus(group string, enabled bool) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
if sys.usersSysType != MinIOUsersSysType {
return errIAMActionNotAllowed
}
if group == "" {
return errInvalidArgument
}
gi, ok := sys.iamGroupsMap[group]
if !ok {
return errNoSuchGroup
}
if enabled {
gi.Status = statusEnabled
} else {
gi.Status = statusDisabled
}
if err := sys.store.saveGroupInfo(group, gi); err != nil {
return err
}
sys.iamGroupsMap[group] = gi
return nil
}
// GetGroupDescription - builds up group description
func (sys *IAMSys) GetGroupDescription(group string) (gd madmin.GroupDesc, err error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return gd, errServerNotInitialized
}
ps, err := sys.PolicyDBGet(group, true)
if err != nil {
return gd, err
}
// A group may be mapped to at most one policy.
policy := ""
if len(ps) > 0 {
policy = ps[0]
}
if sys.usersSysType != MinIOUsersSysType {
return madmin.GroupDesc{
Name: group,
Policy: policy,
}, nil
}
sys.store.rlock()
defer sys.store.runlock()
gi, ok := sys.iamGroupsMap[group]
if !ok {
return gd, errNoSuchGroup
}
return madmin.GroupDesc{
Name: group,
Status: gi.Status,
Members: gi.Members,
Policy: policy,
}, nil
}
// ListGroups - lists groups.
func (sys *IAMSys) ListGroups() (r []string, err error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return r, errServerNotInitialized
}
sys.store.rlock()
defer sys.store.runlock()
if sys.usersSysType != MinIOUsersSysType {
return nil, errIAMActionNotAllowed
}
for k := range sys.iamGroupsMap {
r = append(r, k)
}
return r, nil
}
// PolicyDBSet - sets a policy for a user or group in the PolicyDB.
func (sys *IAMSys) PolicyDBSet(name, policy string, isGroup bool) error {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return errServerNotInitialized
}
sys.store.lock()
defer sys.store.unlock()
return sys.policyDBSet(name, policy, regularUser, isGroup)
}
// policyDBSet - sets a policy for user in the policy db. Assumes that caller
// has sys.Lock(). If policy == "", then policy mapping is removed.
func (sys *IAMSys) policyDBSet(name, policy string, userType IAMUserType, isGroup bool) error {
if name == "" {
return errInvalidArgument
}
if _, ok := sys.iamPolicyDocsMap[policy]; !ok && policy != "" {
return errNoSuchPolicy
}
if sys.usersSysType == MinIOUsersSysType {
if !isGroup {
if _, ok := sys.iamUsersMap[name]; !ok {
return errNoSuchUser
}
} else {
if _, ok := sys.iamGroupsMap[name]; !ok {
return errNoSuchGroup
}
}
}
// Handle policy mapping removal
if policy == "" {
if err := sys.store.deleteMappedPolicy(name, userType, isGroup); err != nil {
return err
}
if !isGroup {
delete(sys.iamUserPolicyMap, name)
} else {
delete(sys.iamGroupPolicyMap, name)
}
return nil
}
// Handle policy mapping set/update
mp := newMappedPolicy(policy)
if err := sys.store.saveMappedPolicy(name, userType, isGroup, mp); err != nil {
return err
}
if !isGroup {
sys.iamUserPolicyMap[name] = mp
} else {
sys.iamGroupPolicyMap[name] = mp
}
return nil
}
var iamAccountReadAccessActions = iampolicy.NewActionSet(
iampolicy.ListMultipartUploadPartsAction,
iampolicy.ListBucketMultipartUploadsAction,
iampolicy.ListBucketAction,
iampolicy.HeadBucketAction,
iampolicy.GetObjectAction,
iampolicy.GetBucketLocationAction,
// iampolicy.ListAllMyBucketsAction,
)
var iamAccountWriteAccessActions = iampolicy.NewActionSet(
iampolicy.AbortMultipartUploadAction,
iampolicy.CreateBucketAction,
iampolicy.PutObjectAction,
iampolicy.DeleteObjectAction,
iampolicy.DeleteBucketAction,
)
var iamAccountOtherAccessActions = iampolicy.NewActionSet(
iampolicy.BypassGovernanceRetentionAction,
iampolicy.PutObjectRetentionAction,
iampolicy.GetObjectRetentionAction,
iampolicy.GetObjectLegalHoldAction,
iampolicy.PutObjectLegalHoldAction,
iampolicy.GetBucketObjectLockConfigurationAction,
iampolicy.PutBucketObjectLockConfigurationAction,
iampolicy.ListenBucketNotificationAction,
iampolicy.PutBucketLifecycleAction,
iampolicy.GetBucketLifecycleAction,
iampolicy.PutBucketNotificationAction,
iampolicy.GetBucketNotificationAction,
iampolicy.PutBucketPolicyAction,
iampolicy.DeleteBucketPolicyAction,
iampolicy.GetBucketPolicyAction,
iampolicy.PutBucketEncryptionAction,
iampolicy.GetBucketEncryptionAction,
)
// GetAccountAccess iterates over all policies documents associated to a user
// and returns if the user has read and/or write access to any resource.
func (sys *IAMSys) GetAccountAccess(accountName, bucket string) (rd, wr, o bool) {
policies, err := sys.PolicyDBGet(accountName, false)
if err != nil {
logger.LogIf(context.Background(), err)
return false, false, false
}
if len(policies) == 0 {
// No policy found.
return false, false, false
}
// Policies were found, evaluate all of them.
sys.store.rlock()
defer sys.store.runlock()
var availablePolicies []iampolicy.Policy
for _, pname := range policies {
p, found := sys.iamPolicyDocsMap[pname]
if found {
availablePolicies = append(availablePolicies, p)
}
}
if len(availablePolicies) == 0 {
return false, false, false
}
combinedPolicy := availablePolicies[0]
for i := 1; i < len(availablePolicies); i++ {
combinedPolicy.Statements = append(combinedPolicy.Statements,
availablePolicies[i].Statements...)
}
allActions := iampolicy.NewActionSet(iampolicy.AllActions)
for _, st := range combinedPolicy.Statements {
// Ignore if this is not an allow policy statement
if st.Effect != policy.Allow {
continue
}
// Fast calculation if there is s3:* permissions to any resource
if !st.Actions.Intersection(allActions).IsEmpty() {
rd, wr, o = true, true, true
break
}
if !st.Actions.Intersection(iamAccountReadAccessActions).IsEmpty() {
rd = true
}
if !st.Actions.Intersection(iamAccountWriteAccessActions).IsEmpty() {
wr = true
}
if !st.Actions.Intersection(iamAccountOtherAccessActions).IsEmpty() {
o = true
}
}
return
}
// PolicyDBGet - gets policy set on a user or group. Since a user may
// be a member of multiple groups, this function returns an array of
// applicable policies (each group is mapped to at most one policy).
func (sys *IAMSys) PolicyDBGet(name string, isGroup bool) ([]string, error) {
objectAPI := newObjectLayerWithoutSafeModeFn()
if objectAPI == nil || sys == nil || sys.store == nil {
return nil, errServerNotInitialized
}
if name == "" {
return nil, errInvalidArgument
}
sys.store.rlock()
defer sys.store.runlock()
return sys.policyDBGet(name, isGroup)
}
// This call assumes that caller has the sys.RLock()
func (sys *IAMSys) policyDBGet(name string, isGroup bool) ([]string, error) {
if isGroup {
if _, ok := sys.iamGroupsMap[name]; !ok {
return nil, errNoSuchGroup
}
policy := sys.iamGroupPolicyMap[name]
// returned policy could be empty
if policy.Policy == "" {
return nil, nil
}
return []string{policy.Policy}, nil
}
// When looking for a user's policies, we also check if the
// user and the groups they are member of are enabled.
if u, ok := sys.iamUsersMap[name]; !ok {
return nil, errNoSuchUser
} else if u.Status == statusDisabled {
// User is disabled, so we return no policy - this
// ensures the request is denied.
return nil, nil
}
result := []string{}
policy := sys.iamUserPolicyMap[name]
// returned policy could be empty
if policy.Policy != "" {
result = append(result, policy.Policy)
}
for _, group := range sys.iamUserGroupMemberships[name].ToSlice() {
// Skip missing or disabled groups
gi, ok := sys.iamGroupsMap[group]
if !ok || gi.Status == statusDisabled {
continue
}
p, ok := sys.iamGroupPolicyMap[group]
if ok && p.Policy != "" {
result = append(result, p.Policy)
}
}
return result, nil
}
// IsAllowedServiceAccount - checks if the given service account is allowed to perform
// actions. The permission of the parent user is checked first
func (sys *IAMSys) IsAllowedServiceAccount(args iampolicy.Args, parent string) bool {
// Now check if we have a subject claim
p, ok := args.Claims[parentClaim]
if ok {
parentInClaim, ok := p.(string)
if !ok {
// Reject malformed/malicious requests.
return false
}
// The parent claim in the session token should be equal
// to the parent detected in the backend
if parentInClaim != parent {
return false
}
} else {
// This is needed so a malicious user cannot
// use a leaked session key of another user
// to widen its privileges.
return false
}
// Check if the parent is allowed to perform this action, reject if not
parentUserPolicies, err := sys.PolicyDBGet(parent, false)
if err != nil {
logger.LogIf(context.Background(), err)
return false
}
if len(parentUserPolicies) == 0 {
return false
}
var availablePolicies []iampolicy.Policy
// Policies were found, evaluate all of them.
sys.store.rlock()
for _, pname := range parentUserPolicies {
p, found := sys.iamPolicyDocsMap[pname]
if found {
availablePolicies = append(availablePolicies, p)
}
}
sys.store.runlock()
if len(availablePolicies) == 0 {
return false
}
combinedPolicy := availablePolicies[0]
for i := 1; i < len(availablePolicies); i++ {
combinedPolicy.Statements = append(combinedPolicy.Statements,
availablePolicies[i].Statements...)
}
parentArgs := args
parentArgs.AccountName = parent
if !combinedPolicy.IsAllowed(parentArgs) {
return false
}
saPolicyClaim, ok := args.Claims[iamPolicyClaimNameSA()]
if ok {
saPolicyClaimStr, ok := saPolicyClaim.(string)
if !ok {
// Sub policy if set, should be a string reject
// malformed/malicious requests.
return false
}
if saPolicyClaimStr == "inherited-policy" {
// Immediately returns true since at this stage, since
// parent user is allowed to do this action.
return true
}
}
// Now check if we have a sessionPolicy.
spolicy, ok := args.Claims[iampolicy.SessionPolicyName]
if ok {
spolicyStr, ok := spolicy.(string)
if !ok {
// Sub policy if set, should be a string reject
// malformed/malicious requests.
return false
}
// Check if policy is parseable.
subPolicy, err := iampolicy.ParseConfig(bytes.NewReader([]byte(spolicyStr)))
if err != nil {
// Log any error in input session policy config.
logger.LogIf(context.Background(), err)
return false
}
// Policy without Version string value reject it.
if subPolicy.Version == "" {
return false
}
return subPolicy.IsAllowed(args)
}
return false
}
// IsAllowedSTS is meant for STS based temporary credentials,
// which implements claims validation and verification other than
// applying policies.
func (sys *IAMSys) IsAllowedSTS(args iampolicy.Args) bool {
// If it is an LDAP request, check that user and group
// policies allow the request.
if userIface, ok := args.Claims[ldapUser]; ok {
var user string
if u, ok := userIface.(string); ok {
user = u
} else {
return false
}
var groups []string
groupsVal := args.Claims[ldapGroups]
if g, ok := groupsVal.([]interface{}); ok {
for _, eachG := range g {
if eachGStr, ok := eachG.(string); ok {
groups = append(groups, eachGStr)
}
}
} else {
return false
}
sys.store.rlock()
defer sys.store.runlock()
// We look up the policy mapping directly to bypass
// users exists, group exists validations that do not
// apply here.
var policies []iampolicy.Policy
if policy, ok := sys.iamUserPolicyMap[user]; ok {
p, found := sys.iamPolicyDocsMap[policy.Policy]
if found {
policies = append(policies, p)
}
}
for _, group := range groups {
policy, ok := sys.iamGroupPolicyMap[group]
if !ok {
continue
}
p, found := sys.iamPolicyDocsMap[policy.Policy]
if found {
policies = append(policies, p)
}
}
if len(policies) == 0 {
return false
}
combinedPolicy := policies[0]
for i := 1; i < len(policies); i++ {
combinedPolicy.Statements =
append(combinedPolicy.Statements,
policies[i].Statements...)
}
return combinedPolicy.IsAllowed(args)
}
pnameSlice, ok := args.GetPolicies(iamPolicyClaimNameOpenID())
if !ok {
// When claims are set, it should have a policy claim field.
return false
}
// When claims are set, it should have a policy claim field.
if len(pnameSlice) == 0 {
return false
}
sys.store.rlock()
defer sys.store.runlock()
// If policy is available for given user, check the policy.
mp, ok := sys.iamUserPolicyMap[args.AccountName]
if !ok {
// No policy available reject.
return false
}
name := mp.Policy
if pnameSlice[0] != name {
// When claims has a policy, it should match the
// policy of args.AccountName which server remembers.
// if not reject such requests.
return false
}
// Now check if we have a sessionPolicy.
spolicy, ok := args.Claims[iampolicy.SessionPolicyName]
if ok {
spolicyStr, ok := spolicy.(string)
if !ok {
// Sub policy if set, should be a string reject
// malformed/malicious requests.
return false
}
// Check if policy is parseable.
subPolicy, err := iampolicy.ParseConfig(bytes.NewReader([]byte(spolicyStr)))
if err != nil {
// Log any error in input session policy config.
logger.LogIf(context.Background(), err)
return false
}
// Policy without Version string value reject it.
if subPolicy.Version == "" {
return false
}
// Sub policy is set and valid.
p, ok := sys.iamPolicyDocsMap[pnameSlice[0]]
return ok && p.IsAllowed(args) && subPolicy.IsAllowed(args)
}
// Sub policy not set, this is most common since subPolicy
// is optional, use the top level policy only.
p, ok := sys.iamPolicyDocsMap[pnameSlice[0]]
return ok && p.IsAllowed(args)
}
// IsAllowed - checks given policy args is allowed to continue the Rest API.
func (sys *IAMSys) IsAllowed(args iampolicy.Args) bool {
// If opa is configured, use OPA always.
if globalPolicyOPA != nil {
ok, err := globalPolicyOPA.IsAllowed(args)
if err != nil {
logger.LogIf(context.Background(), err)
}
return ok
}
// Policies don't apply to the owner.
if args.IsOwner {
return true
}
// If the credential is temporary, perform STS related checks.
ok, err := sys.IsTempUser(args.AccountName)
if err != nil {
logger.LogIf(context.Background(), err)
return false
}
if ok {
return sys.IsAllowedSTS(args)
}
// If the credential is for a service account, perform related check
ok, parentUser, err := sys.IsServiceAccount(args.AccountName)
if err != nil {
logger.LogIf(context.Background(), err)
return false
}
if ok {
return sys.IsAllowedServiceAccount(args, parentUser)
}
// Continue with the assumption of a regular user
policies, err := sys.PolicyDBGet(args.AccountName, false)
if err != nil {
logger.LogIf(context.Background(), err)
return false
}
if len(policies) == 0 {
// No policy found.
return false
}
// Policies were found, evaluate all of them.
sys.store.rlock()
defer sys.store.runlock()
var availablePolicies []iampolicy.Policy
for _, pname := range policies {
p, found := sys.iamPolicyDocsMap[pname]
if found {
availablePolicies = append(availablePolicies, p)
}
}
if len(availablePolicies) == 0 {
return false
}
combinedPolicy := availablePolicies[0]
for i := 1; i < len(availablePolicies); i++ {
combinedPolicy.Statements = append(combinedPolicy.Statements,
availablePolicies[i].Statements...)
}
return combinedPolicy.IsAllowed(args)
}
// Set default canned policies only if not already overridden by users.
func setDefaultCannedPolicies(policies map[string]iampolicy.Policy) {
_, ok := policies["writeonly"]
if !ok {
policies["writeonly"] = iampolicy.WriteOnly
}
_, ok = policies["readonly"]
if !ok {
policies["readonly"] = iampolicy.ReadOnly
}
_, ok = policies["readwrite"]
if !ok {
policies["readwrite"] = iampolicy.ReadWrite
}
_, ok = policies["diagnostics"]
if !ok {
policies["diagnostics"] = iampolicy.AdminDiagnostics
}
}
// buildUserGroupMemberships - builds the memberships map. IMPORTANT:
// Assumes that sys.Lock is held by caller.
func (sys *IAMSys) buildUserGroupMemberships() {
for group, gi := range sys.iamGroupsMap {
sys.updateGroupMembershipsMap(group, &gi)
}
}
// updateGroupMembershipsMap - updates the memberships map for a
// group. IMPORTANT: Assumes sys.Lock() is held by caller.
func (sys *IAMSys) updateGroupMembershipsMap(group string, gi *GroupInfo) {
if gi == nil {
return
}
for _, member := range gi.Members {
v := sys.iamUserGroupMemberships[member]
if v == nil {
v = set.CreateStringSet(group)
} else {
v.Add(group)
}
sys.iamUserGroupMemberships[member] = v
}
}
// removeGroupFromMembershipsMap - removes the group from every member
// in the cache. IMPORTANT: Assumes sys.Lock() is held by caller.
func (sys *IAMSys) removeGroupFromMembershipsMap(group string) {
for member, groups := range sys.iamUserGroupMemberships {
if !groups.Contains(group) {
continue
}
groups.Remove(group)
sys.iamUserGroupMemberships[member] = groups
}
}
// EnableLDAPSys - enable ldap system users type.
func (sys *IAMSys) EnableLDAPSys() {
sys.store.lock()
defer sys.store.unlock()
sys.usersSysType = LDAPUsersSysType
}
// NewIAMSys - creates new config system object.
func NewIAMSys() *IAMSys {
return &IAMSys{
usersSysType: MinIOUsersSysType,
iamUsersMap: make(map[string]auth.Credentials),
iamPolicyDocsMap: make(map[string]iampolicy.Policy),
iamUserPolicyMap: make(map[string]MappedPolicy),
iamGroupsMap: make(map[string]GroupInfo),
iamUserGroupMemberships: make(map[string]set.StringSet),
}
}